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Flexible Incoming Call Restriction Feature / #1A ESS

1. 0202 13 LZLECOW ONT ON Ji LO O T ON L ON L 960 i MEER i i Loud ON ON a t 0x PP Lo ON Ni N a 1 n 5 00 5 jejod uou 001 4 cec 1 AN 0L gt so A 3101 001 Jejod i SZL N E 22 9007 SZL 8Z ZH9 6271 induj sbunjes ISISELOIN 401295 Td puEg x 74 ZHD 2 dl 2 1 9 uinuBe y 4 9 indino 2 001 4eydinjy 8X uonenje 3 VVVOINH St CHI 75 q apiAI 821 9 gt dino St ZOSLadN JIN gosa eur ODA indino ZHD 6271 St Lr ms 2 pueg x A few years ago brain dead liberals and the pee pee touchers at 2600 Magazine frothing on and on about the NSA illegally listening to every phone call in the U S Never mind this isn t even technically possible but hey whatever gets you in the pants of 12 year old boys Anyway back in the real world it turns out the NSA was just grepping through Call Detail Record CDR data This i
2. HISTOR TR STATUS TROUBLE REPORT STATUS RPV OR RST Figure 3 8 GDS CIMAP SSC Typical Interface Maintenance Work Flow PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 39 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 1 Remarks and DM NA Information Remarks and DM NA information are passed between CIMAP SSC and GDS during a handoff a Remarks At the time of the handoff CIMAP SSC sends up to 200 characters of remarks with the use of the or Dispatch Remarks for GDS function Once the handoff to GDS has been accomplished the function will no longer pass remarks to GDS Additional remarks may be passed to GDS using the function This function will pass remarks as long as the handoff of the Trouble Report has not been completed When DM NA is performed in CIMAP SSC during the handoff the remarks associated with the DM NA will only be passed when using the DMK function These remarks will be sent to GDS and will be added to the work request comments field provided the size of that field is not exceeded Remarks can be sent to CIMAP SSC from the GDS format GDCOMP The GDS users can send up to 40 to 50 characters of narrative in the RET JOB NARR field depending on the command being performed Only 40 characters of remarks are sent to CIMAP SSC when performing the commands o
3. A TCM Acknowledgment message is generated by GDS when the SOP response message is received The message sent will be class 2 with a scenario type of A negative acknowledgment will be produced by GDS if the SOP response message is missing key data or a database error is encountered The SOP can choose whether or not to receive this acknowledgment based upon its population of control fields EPATHID and PPATHID in its response message PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 21 Generic Dispatch System Release 3 1 User Manual Part 3 F Responses from SOP BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Once all required data is present and valid GDS will receive and store a status code and up to forty characters of information from the SOP This information will be stored as an event the Log History database Both the status code and the accompanying information will be accessible via TQS TIRKS Query System This message will include the following fields Order Number GDS JOBID SOP code Completion Date Time in SOP SOP status Message text The SOP status code is a one character code and indicates what actions are to be taken with regard to the order by GDS and the status of the order in the SOP The following values are valid SOP Status amp tO SOP Action GDS Action Order Completed Nothing Order Open Nothing Order Open Print Exception N
4. Issue 74 The Monthly Journal of the American Hacker June 2010 Our enemy is not terrorism because terrorism is but a tactic Our enemy is not terror because terror is a state of mind and as Americans we refuse to live in fear Nor do we describe our enemy as jihadists or Islamists because jihad is a holy struggle a legitimate tenet of Islam Quote from Obongo s batshit insane counter terrorism advisor John Brennan It s clear that if Barry isn t removed from office soon we all going to end up dead This same Brennan kook also spread the myth that the Muslim terrorist detention facility in Guantanamo Bay Cuba itself causes terrorism contradicting the above quote The word Guantanamo is nowhere to be found in Usama bin Laden s original 1998 fatwa Table of Contents Page 2 Flexible Incoming Call Restriction Feature 1A ESS Feature in which an individual customer or group station can temporarily restrict incoming calls Page 19 Generic Dispatch System Release 3 1 User Manual Part GDS mechanizes the administration support for the installation and maintenance of POTS and Special Services lines Page 47 DMS 100 Master List of Data Schema Tables Part 4 The short names and full titles of switch tables for the Nortel DMS product family Page 58 X Band Receive Converter Device to convert the 10 GHz frequency range to a lower frequency range for easier monitoring Page
5. Noncorrected orders are those orders both field visit and nonfield visit that do not have changes to the body of the service order 1 S amp E Information between the two systems is transmitted via TCM Autocomplete supplements the former completion process requiring the manual input of a completion message retrieved from a printer into the SOP B Required Table Entries To utilize this feature the following must be available 1 Appropriate entries must be made in the following TTS tables a GDS OPTIONS The ACMP ON field will be populated with an entry of Y indicating that order completion information from this center should flow to the SOP ACMP ON is controlled by the Feature Authorization Module FAM which was described earlier in Section 3 An entry in an optional field ACMPPATH will divide messages TCM to the SOP by GDS center This field would be useful if all messages from one center and only that center needed to be held b GDS SOP EDITS This table will be built with the SOP as the Table Key and the FID 01 30 as the Table Record Key Through the information built into this table the user defined field names found in the Order Stat section of the completion screen can have certain characteristics assigned to them These edit rules must be followed to result in a successful completion message flow to the SOP This table also contains default values for non field visit orders GDS SOP OPTIONS This
6. CIMAP SSC sends the trouble to GDS with the appropriate circuit history information for the circuit termination GDS will first check to see if a work request exists for the JOBID and end A or Z If no such work request exists GDS checks to see if circuit history fields needed for dispatch are missing If so the handoff will be blocked until the fields are updated GDS receives the trouble and builds a maintenance work request A positive acknowledgment is returned to CIMAP SSC with the SSDASC center responsible for fixing the trouble and the CKLW assigned within the center either O1 or O2 The center appears in the Center the OSSTR screen If the work request fails job logging it is placed in pending screen status PSC otherwise it is placed in pending load status PLD For a PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 60 37 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 negative acknowledgment no center or CKL is assigned and no work request is built A message explaining the reason that the handoff failed is placed on the OSSLOG and the handoff is cancelled If a previous work request exists for the JOBID and end GDS will check to see if CK T FMT CKTID or SSC differ between the existing work request and the fields in the handoff message If any of these fields differ GDS will reject the handoff and
7. GDS CKLs are matched with GOC CKLs CIMAP Status Reporter OSSCWL Screen For Each CKL in GDS Track Date Process and Complete Status for all GDS auto completes ail CKL DVAs rk Requests CKLs on GDS For CKL Due Dates at CKL locations Associated with Postings sent to GOC e Post Jeopardie e Remove Jeopardies Post CKL Completion DD Post Item Level DVA amp DD Due Date DVA completions GDS sends circuit end location information to be stored in CKT History This information came from the TIRKS system and SOAC Figure 8 7 GDS CIMAP SSC Installation Interface PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 57 34 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 B GDS CIMAP SSC Circuit History Flows GDS receives designed special service information from both the TIRKS System and SOAC This information is combined to produce dispatch work details for each circuit termination When the circuit is completed in GDS and goes in effect IE in SSC GDS will pass circuit and CKL dispatch information to CIMAP SSC The information will be stored in the Circuit History database GDS will perform validation to insure that the required fields are populated These fields can be displayed on the CIMAP SSC Circuit History Update OSSCHU When a Trouble Report is handed
8. Several processes occur that affect the population of the SSC calculated duration fields As previously described under a returned job on the first dispatch any portion of the DM NA interval that falls before the date time that the technician begins work on the job will be added into the RCP T DSP NA field T CLR NA field will include any part of the interval that falls between the time that the technician begins work on the job and the time that the service is restored to the customer Any portion of the DM NA interval which falls after the RESTORED TM will not be accrued However in the event that a job is reopened by SSC this interval will be left on the job following fields will be set The total amount of DM NA time on a job will be equal to the sum of the DM NA time accrued between the receipt and the first dispatch and the DM NA time accrued between the first dispatch and the restoral time TOT DMNA TM RCP T DSP NA DSP_T_CLR_NA The RCPT TO CLR value will be set to the restoral time minus the handoff receipt time minus the total amount of DM NA time between the receipt and the restoral RCPT TO CLR RESTORED GDS RCVD TM TOT DMNA TM PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 65 42 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 8 August 1989 GDSR 3 1 Th
9. p Closeup view of the completed 1 25 GHz phase locked loop oscillator board Main 15V DC input to the board is via a feed through capacitor lower left The RF output upper left is via a N connector The external 10 MHz signal for the MC145151 input middle left is via a BNC connector Modulation input lower left is via a F connector The final RF output of this oscillator was 5 dBm 62 EC was gt Closeup view of the completed 1 25 GHz phase locked loop oscillator board 63 External 10 MHz crystal reference oscillator It is a EG amp G Frequency Products Inc model T424 and was from old Qualcomm OmniTRACS satellite fleet tracking system The TCXO just needs a source of 12V and a large bypass capacitor 33 uF or so The output of the TCXO is via a short piece of coax with a BNC connector Any 10 MHz crystal oscillator will do but remember that any frequency error or noise in the PLL reference frequency will essentially be multiplied 128 000 times It s also possible to tune this particular 10 MHz oscillator to within a few Hertz of 10 MHz by zero beating its signal to WWV EG amp G TCXO Pinout 2 x 2 TCXO PINOUTS 12V NC BOTTOM VIEW GND 0 om 64 Attaching the external 10 MHz TXCO crystal to the outside of the MMDS downconverter case housing the oscillator board
10. 1 SECTION 231 090 300 all stations busy stage When used with stations in a hunt MLG this feature acts similarly to TMB 4 11 By using the provisions of the CFBL feature see Table B and reference A 2 in Part 18 the types of termination treatment described in paragraph 3 07 can be given to calls which reach the all stations busy stage A station which desires such termination treatment must have the CFBL feature its associated CFBL DN is usually used to route a call to the alternate destination Because the basic CFBL offering does not distinguish between a busy condition resulting from a make busy key and one resulting from an off hook line the call forwarding inhibit line busy CFILB option can be used to insure that only calls which encounter active restrictions are forwarded Calls which are not given such termination treatment are normally routed to busy tone 4 12 The following termination treatments apply to the make busy key restriction a Route calls to a designated station or attendant If the designation is served by the same central office the CFBL DN is the DN of the desired station or attendant If served by another central office the CFBL DN must be that of a remote call forward base station and the Remote Call Forwarding feature see reference A 6 in Part 18 will route the call to the desired office If the restricted station is in a business customer group the call forwarding unrestricted source CFUS
11. 190 539 311 Issue 6 August 1989 GDSR 3 1 If this is a first dispatch the DSP value will be calculated as CURRENT time minus the time the handoff was received in GDS minus any DM NA that occurred between the receipt and the first dispatch RCPT TO DSP CURRENT GDS ROVD DT TM T DSP NA It is possible that T DSP NA may have a value from a previous rejected dispatch RCPT TO DSP will not be allowed to be a negative value and will be zeroed in this case When Job is Rejected RCPT TO DSP will be zeroed if this was the first dispatch DSP 0 When a Job is Returned Several processes occur that affect the population of the SSC calculated duration fields if DM NA interval is present No DM NA time will be accrued if the interval starts after the job return date time and the interval will be left intact On the first dispatch any portion of the DM NA interval that falls before the BEGIN DATE TIME will be added into the DSP NA field Any part of the interval that falls between the time that work is begun on the job and the time the job is returned will be added into the DSP T CLR NA field Any portion of the interval after the RETURN TIME will be left on the job with the RETURN TIME replacing the previous FROM date time thus creating new interval which begins at the time the tech returned the job When Job is Completed by a Technician
12. 311 Issue 6 August 1989 GDSR 3 1 GDS LMOS STATUS CHANGE ___ STATUS CHANGE GDS GDS SCREEN COMMAND FROM TO FROM TO GDDISP DISPATCH DSP ANY DPO PREASSIGN PLD PDO PRD REJECT DSP DPO REJECT DSP DPO PRD REJECT DSP PSC DPO HLD REJECT DSP DPO HLD GDCOMP RETURN DSP PLD DPO RETURN DSP DPO PRD RETURN DSP JEP PSC DPO HLD COMPLETE ANY CMP ANY Note 1 GDMWR UPDATE ANY PLD ANY PDo UPDATE ANY PSC ANY HLD UPDATE ANY ANY HLD UPDATE ANY No LMOS Notification GDTLOG ADD PLD PDO PRD DELETE PRE PLD PRD PDO GDLST UPDATE PLD PDO PRD UPDATE PLD PSC PDO HLD UPDATE PLD PDO HLD e GDLOAD PERM PLD PDO PRD CANCEL PRE PLD PRD PDO GDGRP G GROUPS ADD PLD PDO PDO DELETE GRP PDO PDO UPDATE GRP PSC PDO UPDATE GRP PDO HLD GROUPS DELETE STP PLD PDO PDO DELETE STP PSC PDO HLD DELETE STP PDO HLD When using the RETURN Command and the JOBSTAT or PSC on the GDCOMP screen the user can optionally enter data in the EST line fields For example if the work item is NO ACCESS SUBSCRIBER the EST fie tn woull show 0 IST 070 The corresponding entries on the RST for that work item in LMOS would show RMR Repair Person Return HLD Hold NAS No Access Subscriber If the EST data is not entered the corresponding RST entries would show Repair Person Return HLD H
13. 401 LOOP MAINTENANCE OPERATIONS SYSTEM LMOS OPERATIONS APPLICATIONS OPS PDP 11 70s 370 SERIES 1 370 5 Ol LINK PROCESSOR LP TERMINAL SWITCH TS FRONT END PROCESSORS FEPS 45 40 OR EQUIVALENT LOCATED JN IC MC 4 Figure 3 6 GDS LMOS Interface Architecture C Trouble Ticket Data The following lists the LMOS trouble ticket data used by GDS TIN UNIT TN CKTID CLASS OF SERVICE SERVICE CODE CUSTOMER NAME PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 50 27 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 CUSTOMER ADDRESS CUSTOMER LOCATION COMMITMENT DATE COMMITMENT TIME REACH CUSTOMER REPAIR ROUTE AFTER TIME BEFORE TIME ACCESS NARRATIVE PARTY POSITION NUMBER PRIORITY FLAGS UP TO 5 OCCURRENCES TROUBLE DESCRIPTION PRIORITY RANKING RECEIVED DATE RECEIVED TIME LAST 1ST CODE LAST IST DATE LAST IST TIME SCREEN RESULT CODE SCREEN NARRATIVE SUBSEQUENT COUNT MLT VER CODE MLT TEST SUMMARY FOR F1 TO FZ COLOR TERMINAL ADDRESS CTTN MESSAGES UP TO 2 OCCURRENCES GENERIC FIDS UP TO 8 OCCURRENCES OS INDICATOR DATE RECEIVED DATE CLEARED FOR UP TO THE LAST 3 HISTORY ENTRIES ice 9 1 1 DISPOSITION CAUSE REPAIRMAN HISTORY NARRATIVE PSO NO PSO D
14. 76 Bonus Data Page 77 The End Editorial and rants Flexible Incoming Call Restriction Feature ESS SECTION 231 090 300 Issue 1 June 1980 BELL SYSTEM PRACTICES AT amp TCo SPCS FEATURE DOCUMENT FLEXIBLE INCOMING CALL RESTRICTON FICR FEATURE 2 WIRE NO 1 AND NO 1A ELECTRONIC SWITCHING SYSTEMS CONTENTS PAGE CONTENTS PAGE INTRODUCTION 3 9 INSTALLATION ADDITION DELETION 10 GENERAL INFORMATION 3 10 HARDWARE REQUIREMENTS 10 DEFINITION BACKGROUND 3 11 SOFTWARE REQUIREMENTS 12 DESCRIPTION 3 12 DATA ASSIGNMENTS AND RECORDS 14 USER OPERATION 3 13 TESTING 14 SYSTEM OPERATION 5 14 OTHER PLANNING TOPICS 15 CHARACTERISTICS 9 ADMINISTRATION 16 FEATURE ASSIGNMENT 9 15 MEASUREMENTS 16 LIMITATIONS 9 16 CHARGING 16 INTERACTIONS 10 SUPPLEMENTARY INFORMATION RESTRICTION CAPABILITY 10 Cor Ir E 17 GLOSSARY 16 INCORPORATION INTO SYSTEM ND 18 REFERENCES 16 NOTICE Not for use or disclosure outside the Bell System except under written agreement Printed in U S A Page 1 Flexible Incoming Call Restriction Feature 1A ESS SECTION 231 090 300 CONTENTS PAGE Figures Procedure for Adding FICR Feature AE Tables A FICR Feature Translations aans B FICR Feature Document References 8 Page 2 INTRODUCTION 1 GENERAL INFORMATION SCOPE 101 This document provides information concerning the use of the Flexible Incoming Call Restriction FICR feature formerly referred to as Slumber S
15. Feature HTL Subtable International Do Not Disturb Feature IDND Subtable International Line Restrictions Feature ILR Subtable International No Double Connect Feature INDC Subtable Local Primary Intra LATA Carrier Feature LPIC Subtable Local Service Provider Switch Owner Feature LSPSO Subtable Make Busy Key Feature MBK Subtable Multi Party Bridge Feature MPB Subtable OUTWATS Feature OUTWT Subtable Primary Inter LATA Carrier Feature PIC Subtable Random Make Busy Feature RMB Subtable Remote Meter Pulsing Feature RMP Subtable Remote Register Signal Distributor Point Feature RMS Subtable Requested Suspension Feature RSUS Subtable Speed Calling Short List Feature SC1 Subtable Speed Calling Long List Feature SC2 Subtable Series Completion Feature SCMP Subtable Secondary Directory Number Feature SDN Subtable AT amp T Line Studies Feature SDY Subtable Stop Hunt Feature SHU Subtable Subscribers Line Usage Feature SLU Subtable Special Billing Code Feature SPB Subtable Terminating Billing Option Feature TBO Subtable Warm Line Feature WLN Subtable Line Assignment Table Login Control Table Link Interface Module Card Inventory Table Link Interface Module Inventory Table Link Interface Module Port Inventory Table Line Attribute Table Link Interface Unit Inventory Table Link Identifier Table Line Module Inventory Table Line to Trunk Overlap Outpulse Table Line Module Ring Code Table
16. Feature WUCR Subtable Call Transfer ISDN Feature XFER Subtable XX Trigger Feature XXTRG Subtable Business Set and Data Unit Inventory Table Business Set Feature Keys Table Business Set and Data Unit Line Assignment Table Business Set and Data Unit Quick Conference Key Table Killer Trunk Group Table Killer Trunk Minimum Maximum Table Killer Trunk Parameters Table Layer 2 Abnormality Log Table Layer 3 Abnormality Log Table Location Area Code Table Local Automatic Message Accounting Billing Code Table Language to TOPS Call Queue Routing Table Equal Access Local Access and Transport Area Name Table Equal Access Local Access and Transport Area Translation Table LINEATTR Dump and Restore Table Local Calling Area 6 Screen Table Local Calling Area Information Table Local Calling Area Name Table Local Calling Area Screening Table Local Calling Area Screening Control Table Local Calling Area Screening Subtable Line Class Code Compatible Options Table TOPS Calling Tariff to Local Rate Step Table TOPS Calling Tariff to Local Rate Step Inactive Table Line Concentration Module Drawer Inventory Table Line Concentrating Module Inventory Table Long Distance Alerting Screening Table MMP only Line Appearance on a Digital Trunk Inventory Table Line Feature Table Abbreviated Dialing Feature ADL Subtable Advanced Intelligent Network Feature AIN Subtable Auto Identified Outward Dialing Feature AIOD Subtable Automatic Line
17. Flexible Incoming Call Restriction Feature 1A ESS 155 1 SECTION 231 090 300 20 Section 231 062 475 Processor Community Engineering File Stores 2 Wire No 1A Electronic Switching System TTY Input and Output Manuals 1 Input Message Manual IM 1A001 No 1 Electronic Switching System 2 Input Message Manual IM 6A001 No 1A Electronic Switching System 3 Output Message Manual OM 1A001 No 1 Electronic Switching System 4 Output Message Manual OM 6A001 No 1A Electronic Switching System Other Documentation 1 Translation Guide TG 1A 2 Wire No 1 and No 1A Electronic Switching Systems 2 Translation Output Configuration PA 591003 No 1 Electronic Switching System 3 Translation Output Configuration PA 6A002 No 1A Electronic Switching System 4 GL 74 02 078 EL 3098 Development of Types of Hunting Arrangements and Make Busy Keys for Multiline Hunt Groups Page 17 17 Pages 18 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 1 14 GDS SOP Interface Introduction The GDS SOP interface provides the link by which both corrected and noncorrected POTS installation orders may be completed or returned on the GDS completion screen and the completion information automatically sent back to the Service Order Processor SOP Corrected orders are defined as orders that require changes to the body of the service order i e SEE BILL
18. More surveillance cameras for Eric Corley s New York City Didn t John Brennan just say there were no Islamic terrorists out there LOL Bloomberg Wants Big Brother Britain For NYC May 11 2010 From www wcbstv com By Charlie D agata Mayor Michael Bloomberg has his eye on more security against terror attacks He went to London Tuesday to check out their surveillance camera system one of the largest in the world Ever since the Times Square car bomb scare on May 1 the mayor s been looking to build up New York s camera network That means adding to the ring of steel in Times Square similar to central London s The mayor said more NYPD surveillance cameras may prevent another terror scare London has 500 000 surveillance cameras more than any other city in the world Bloomberg visited London s mayor to see how these help Britain fight terror We live in a world of suicide bombers We live in a world of international terrorism Bloomberg said And a world where both cities have been targets Bloomberg came to take a closer look at the sprawling security network throughout London known as the Ring of Steel The mayor s hoping to beef up New York s own surveillance system in the wake of the failed car bomb attack in Times Square It s not clear that they would have helped in Times Square Other than if the perpetrator knew there were cameras he might not have tried to come into Times Square Bloomberg said 77 London s
19. Sav1IQ 2u 09018 NOWWOD X19 011 8 605 815 152 011935 168 811 152 1935 82X12 28 553 vi 20 81E 1E2 011235 588 811 152 011235 s 9H 31IUM 553 VL ON X0 553 353 0 SIHI SI VL ON 3un1v34 A33 ASn8 3VM 303 SNOIIVISNVHL NSW 11 8 018 818 182 011935 188 811 152 011935 1 Vivd dALN 849 EWY 303 viva 28 1 11018 905 815 182 1935 811 18 011935 0 54 28 5 18 5 24 q34803 38 01 dhnOUu9 X19 V SI 5 011 15 30 41039 03 034804 38 9H 5 3789433384 108 3WILANV 3 00 38 NYJ 5 ANY 3HIM 213 5 91 5 s N31 5 5 011 11530 1 9155 03 N3HM 213 5 9 vaso 1849 SISIX3 34015 11 2 1vHl 3unsNI bl 1uVd OL 33438 1N3439NVHUV 43401519 130 2 Page 11 12 Flexible Incoming Call Restriction Feature 1 ESS SECTION 231 090 300 wire pair connecting each of a customer s keys to an applique circuit a carrier facility can be used One method uses standard off the shelf items 405A B data set and 1C481 interface to send from 8 to 32 key indications over a single wire pair Other methods using commercial items can be devised on a local basis 10 03 Announcement circuits SD 1A218 01 order code 07870 and SD 1A221 01
20. See Table 3 9 for those SSC formats accessible to the GDS user Table 3 9 CIMAP SSC Formats Which A GDS User May Request Using the SMART JUMP FIND Feature SSC FORMAT DESCRIPTION OSSEVT Event Definition OSSAVL Maintenance Work List OSSWPS Work Position Entry OSSLAC LMOS Work Activity OSSCCP CIMAP CC Pool Work List OSSLOG Work Log OSSLST Installation Work List OSSPND Pending Trouble List OSSOI Order Information OSSCWL Order CWL Information OSSOID Order Item Display OSSCHI Circuit History OSSHMD History Measurement Data OSSML Multipoint Circuit List OSSPID Administration Partial Circuit ID OSSTRE Trouble Report Entry OSSLTR LMOS Trouble Report Activity OSSIMD Installation Measurement Data OSSTR Trouble Report Activity OSSCL CLO Lost by Order OSSTGS Trouble Group Scan OSSTGM Trouble Group Maintenance OTRIO1 Test Details Results Intra LATA CKTs OTRLOL Test Details Results LATA Access CKTs OTOLOI Test Details Objectives LATA Access CKTs OTOIO1 Test Details Objectives Intra LATA CKTs OSSBOR LMOS Basic Output Report OSSRST LMOS Trouble Report Status OSSCPR Circuit Purification Reconciliation ORAPDS Access Point Data OWDDOC WORD Display OSSCN Circuit Notes OSSGI Grouping Information OSSCHU Circuit History Update PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 69 DMS 100 Master List of Data Schema Tables Part 4 This list contains the short names and full titles of switch
21. Signaling System Table MTRLNET Metering Logical Networks Table MMP only MTRLMOG Metered Originator Groups Table MMP only MTRMOTS Metered Originator Tariff Sets Table MMP only MTRNAMES Meter Names Table MMP only MTRNETIF Metering Network Dependent Information Table MMP only MTRSYSPM Metering System Parameters Table MMP only MTRTARIF Metering Tariffs Table MMP only MTRTTS Metering Time and Date Tariff Sets Table MMP only MUMRMBI Multi Unit Message Rate Message Billing Index Table MUMRTAB Multi Unit Message Rate Screening Table MWDATA Milliwatt Data Table N7CLLDGT N7 CCITT No 7 Called Global Title Table N7CLLGGT N7 CCITT No 7 Calling Global Title Table NACDGRP Network Automatic Call Distribution Group Table NARDATA Network Access Registers Data Table NATDGTAN National Digit Analyser Table NBECCODE Non Bell Exchange Company Code Table NCOS Network Class of Service Table NCSADDR Network Control System Address Table NCSAPPL Network Control System Application Table NETATTR Network Attributes Table NETJUNCT Network Junction Group Table NETNAMES Internal Logical Network Names Table NETTOPRT NETINFO to Partition Number Mapping Table NETTOSTS Network Information Table NETWORK Network Assignment Table NIUINV Network Interface Unit Inventory Table NLUPCLLI Nailed Up Connection CLLI Table NMSDATA Network Message Service Data Table NNASST Node Number Assignment Table NO6BDXLA CCITT No 6 Band Translation Table NO6
22. The 10 MHz signal is applied to the oscillator board via the gold colored BNC connection 65 microwave range RF mixer for this converter is based around salvaged Magnum MO64 mixer A short piece of conformable coax with a male SMA connector was added for the LO input to the MO64 mixer This little module s original LO signal was disabled The lower female SMA connector is the mixer s IF output The upper female SMA connector is the mixer s RF input The MO64 s specifications RF Range 6 0 12 5 GHz LO Range 5 0 15 0 GHz IF Range DC 2 5 GHz LO Power 10 dBm Conversion Loss 5 0 dB Any RF mixer with similar specifications will also work Note that we ll be running the LO power below the required level which can increase the mixer s conversion loss The RF and LO ports can be interchanged on most mixer models with minimal performance loss 66 10 10 dBm 0 15 0 GHz tdl 2 019 0 Overview of the Hittite 444 evaluation board The 1 25 GHz RF input will via the right side SMA connector and the multiplied by 8 10 GHz RF output will be via the left side SMA connector The SMA connector labeled Vda is for the HMC444 s 5 VDC input 67 power input for the ammo box case we ll be using Filtered 120 VAC input goes through a circuit breaker and power switch This is then applied to a 18 VDC 200 mA wall wart power supply which will be powering the oscillator and mul
23. after failing to correctly add subtract multiply and divide Some got credit for no answer at all They were giving credit for blatantly wrong things said an outraged Brooklyn teacher who was among those hired to score the fourth grade test State education officials had vowed to strengthen and increase the rigor of both the questions and the scoring when about 1 2 million kids in grades to 8 including 450 000 in New York City took English exams in April and math exams last month But scoring guides obtained by The Post reveal that kids get half credit or more for showing fragments of work related to the problem even if they screw up the calculations or leave the answer blank Examples in the fourth grade scoring guide include e A kid who answers that a 2 foot long skateboard is 48 inches long gets half credit for adding 24 and 24 instead of the correct 12 plus 12 A miscalculation that 28 divided by 14 equals 4 instead of 2 is partially correct if the student uses the right method to verify the wrong answer Setting up a division problem to find one fifth of 400 but not solving the problem and leaving the answer blank gets half credit A kid who subtracts 57 cents from three quarters for the right change and comes up with 15 cents instead of 18 cents still gets half credit A student who figures the numbers of books in 35 boxes of 10 gets half credit despite messed up multiplication that yiel
24. entry event will be placed on the Status Log database as an Interface Error and will be displayed on the GDLOG screen These functions occur in the background in that the user does not have to wait for LMOS to receive and process the status closeout information before executing the next transaction Table 3 7 presents summary of the data transmitted As illustrated on the table designated GDS commands executed on GDS screens resulting in GDS status changes are to cause corresponding status changes in LMOS When the appropriate status changes fail to be made in LMOS the above described transaction will occur This transaction thereby increases the likelihood that the GDS user can overcome the problem by entering the corrected data directly on the LMOS fdrmat in a more timely fashion E FAM Control The GDS LMOS Interface functionality is controlled via the FAM Feature Authorizations Module For BCCs that have not funded the POTS feature set the following are not accessible e Trouble tickets with designated POTS classes of service will be prohibited from entry in GDS via the LMOS GDS Interface Tests and PST list processing are not permitted For more information on FAM refer to Section 3 1 10 PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 52 29 Generic Dispatch System Release 3 1 User Manual Part 3 Table 3 7 GDS LMOS Intermediate Statuses BR 190 539
25. first dispatch 2 DSP T CLR DM time from first dispatch to restoral 3 DMNA TM Total DM time from receipt GDS to restoral 4 TO CLR Time from receipt to restoral minus the TOT DMNA TM value 5 RCPT TO DSP Time from receipt to first dispatch minus the T DSP NA value 6 DSP TO CLR Time from first dispatch to restoral minus the DSP T CLR NA value PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 63 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 The following No Access Interval fields are used in calculating the previously described duration fields TQS NAME DESCRIPTION DM NAFLAG Flag indicating DM or NA NA FROM DT DM NA From Date NA FROM TM DM NA From Time DM NA To Date DM NA Time The four fields listed below are used as Interval Endpoints in the calculations of the duration fields TQS NAME DESCRIPTION GDS RCVD DT Date first handoff received in GDS GDS RCVD Time first handoff received in GDS RESTORED_DT Date service restored to customer RESTORED TM Time service restored to customer Several other TQS fields are involved in the calculations TQS NAME DESCRIPTION DSP times job dispatched out RETURN_DATE Date technician returned job RETURN TIME Time technician returned job BEGIN DATE Date technician started work on
26. for ANIDL CFG CPD MSN NMTGC PLM ROTL SIMFAC and TMBCGA CTX 6 Through 1E5 Generic Programs 2 Wire No 1 Electronic Switching System 11 Section 231 318 302 Line Recent Change Procedures for LINE TWOPTY MPTY SCLIST MLHG CFV and OBS Through 1AE5 Generic Programs 2 Wire No 1A Electronic Switching System 17 12 Section 231 318 305 Procedures for PSWD PSBLK SUBTRAN and GENT Through 1 5 Generic Programs 2 Wire No 1A Electronie Switching System 13 Section 231 318 309 Centrex CO Recent Change Procedures for CTXCB CTXDI CTXEXR CXDICH DITABS DLG FLXDG FLXRD and FLXRS Through 1 5 Generic Programs 2 Wire No 1A Electronic Switching System 14 Section 231 318 310 RC Procedures for ANIDL CAMA CFG CPD JUNCT MSN NMTGC PLM ROTL SIMFAC TMBCGA and CLAM Through 1AE5 Generic Programs 2 Wire No 1A Electronic Switching System 15 Section 966 102 100 Centrex and PBX CO Service General Description 2 Wire No 1 Electronic Switching System 16 Section 231 120 301 Traffic Measurements 2 Wire No 1 Electronic Switching System 17 Section 281 060 210 Circuits 2 Wire No 1 and No 1A Electronic Switching Systems 18 Section 231 061 450 Program Store 2 Wire No 1 Electronic Switching System 19 Section 231 062 470 Processor Community Engineering UnduplicatedCallStores 2 Wire No 1A Electronic Switching System
27. from GDS and GDS obtained the data from SOAC GDS CIMAP SSC Maintenance Flows The GDS CIMAP SSC Maintenance Interface provides the means for a mechanized handoff of Special Services Trouble Reports for field dispatch It supports a fully automated trouble handoff update and completion process between CIMAP SSC and GDS see Figure 3 8 This maintenance interface uses the information stored in the Circuit History database Upon completion of a service order a circuit record is built containing all the CKL circuit termination location A or Z information necessary to perform a field dispatch PROPRIETARY BELLCORF AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 59 36 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 When a handoff for dispatch HDD is performed by CIMAP SSC the information is automatically retrieved from the CKT HIST database and passed to GDS along with selected information from the customer Trouble Report This interface will support an automatic handoff process which includes the following Passing of intermediate and final status of dispatched trouble tickets from GDS to SSC A complete mechanism for trouble ticket tracking in either of the two systems Mechanized closeout from either CIMAP SSC or GDS The following interface message types are passed between CIMAP SSC and GDS HANDOFF Indicates
28. job BEGIN TIME Time technician started work on job The methods used for calculating and populating the SSC duration fields are detailed below In all instances if a DM NA interval ends before the first handoff of a job from SSC is received in GDS no DM NA time will be accrued and all DM NA interval fields will be blanked out When a Job is Dispatched Several different processes occur which affect the population of the SSC maintenance duration fields No DM NA time will be accrued if the interval start time is later than the CURRENT time of the dispatch All interval fields will be left as they are on the work request If this is the first dispatch DSP field 1 any portion of the interval which falls between the time the handoff was first received in GDS and the CURRENT time will be added into the RCP_T_DSP_NA field If this is the second dispatch or greater any DM NA between the time the handoff was received in GDS and the time that service is restored will be put into DSP_T_CLR_NA Any portion of the interval which extends past the CURRENT time will be left intact A revised DM NA interval results when an interval overlaps the CURRENT time because the FROM date time is replaced with the CURRENT date time while the TO date time remains the same PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 64 41 Generic Dispatch System Release 3 1 User Manual Part 3 BR
29. off to GDS the MT in the SSC will identify the CKL circuit termination A or Z at the time of the handoff CIMAP SSC will retrieve the appropriate circuit termination information needed by GDS for dispatch from Circuit History and append the information to the Trouble Report before sending the trouble to GDS If any fields required for dispatch are missing an error message will be returned to the user s terminal HELP PF9 lists for the user all required fields The missing data can be updated on OSSCHU or OSSTR and the handoff can then take place At the time of the completion of the handoff by GDS circuit history information is returned to CIMAP SSC with all the required fields populated Included are any updates on the information done while the trouble was dispatched The information is again stored in the Circuit History database Table 3 8 lists all the circuit history fields that are passed between CIMAP SSC and GDS The table includes the FID names in each system the data source at the time of order completion and a field description PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 58 35 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Table 3 8 Circuit History Fields and Primary Data Source SYSTEM ssc GDS SOURCE DESCRIPTION OSSCHU GDMSWR GDISWR CKT CKTID TIRKS Circuit ID CSC CSC 2 GDS SOAC Class of Serv
30. order codes 07970 07971 07972 07904 07905 or 07906 or miniaturized circuits SD 1A218 05 order code 07800 and SD 1A221 05 order codes 07901 or 07903 used for termination treatment are engineered in the standard manner See reference A 17 in Part 18 The use of ESS announcement channels may not always be economical because the nature of the announcement may require that one or more channels be dedicated per customer Recorded announcement devices located on customer premises and connected to the central office via lines should be considered in such cases 10 04 use of busy tone for treatment when an alternate destination is not provided has the effect of increasing the number of terminating calls which encounter busy For most applications this effect is negligible However it may have to be considered when engineering busy tone circuits SD 1A218 01 for new offices and large FICR additions 10 05 For determination of quantities of service circuits see reference A 17 in Part 18 11 SOFTWARE REQUIREMENTS Note This part contains cost factors and determination of quantities Central Office Equipment Engineering System COEES Planning and Mechanized Ordering Modules are the recommended procedures for developing these requirements However for planning purposes or if COEES is not available the following guidelines may be used GENERAL 1101 For several of the cost data areas covered here it will only be nece
31. send negative acknowledgment to SSC The negative acknowledgment will specify which field CK TFMT CKTID or SSC that is different A GDS exception notice number 311 will be sent to the printer or lterm specified in the GDS EXCEPTIONS TTS table for the GDS center owning the existing work request If CKT FMT CKTID and SSC match the existing GDS work request is cancelled or completed and the handoff destination is different GDS center it is treated as a new handoff and processing will continue as GDS does have a work request for this JOBID end combination If FMT CKTID and SSC match the existing GDS work request is cancelled or completed and the handoff destination is the same GDS center then all fields in the handoff message are moved to the appropriate fields in the existing work request and the REPEAT REPORT flag for the work request is set to yes The date and time received by GDS are NOT updated The work request is job logged using the new data values and a normal positive or negative acknowledgment to an SSC handoff attempt is sent to SSC and displayed on OSSLOG If CKT FMT CKTID and SSC match but the existing GDS work request is not cancelled or completed and the work request was added manually in GDS the NOTIFY flag is set to yes to enable further GDS SSC communication and the message SSC HANDOFF ESTABLISHED ON MANUALLY ADDED JOB is placed in the work request comments field If the work request was p
32. tables for the Nortel DMS product family KSETFEAT ACDNR KSETFEAT ACOU KSETFEAT ACRJ KSETFEAT AFC KSETFEAT AIN KSETFEAT AOC KSETFEAT AR KSETFEAT ASL KSETFEAT ASP KSETFEAT AUD KSETFEAT AUL KSETFEAT AUTODISP KSETFEAT BBGI KSETFEAT BC KSETFEAT BCLID KSETFEAT BLF KSETFEAT CCV KSETFEAT CCBS KSETFEAT CFB KSETFEAT CFD KSETFEAT CFDVT KSETFEAT CFFPOVR KSETFEAT CFTB KSETFEAT CFTD KSETFEAT CRUIF KSETFEAT CFX KSETFEAT CFXDNCT KSETFEAT CFXVAL KSETFEAT CIDSDLV KSETFEAT CIDSSUP KSETFEAT CIF KSETFEAT CLI KSETFEAT CNF KSETFEAT COT KSETFEAT CPR KSETFEAT CPU KSETFEAT CRBL KSETFEAT CSMI KSETFEAT CTD KSETFEAT CUG KSETFEAT CW KSETFEAT CWD KSETFEAT CWT KSETFEAT CXR KSETFEAT DASK KSETFEAT DBC KSETFEAT DCC KSETFEAT DCPK KSETFEAT DDI KSETFEAT DIN KSETFEAT DMCT KSETFEAT DND Automatic Call Distribution Not Ready Feature ACDNR Subtable Additional Call Offering Unrestricted Feature ACOU Subtable Anonymous Caller Rejection Feature ACRJ Subtable Additional Functional Calls Feature AFC Subtable Advanced Intelligent Network Feature AIN Subtable Advice of Charge Feature AOC Subtable Automatic Recall Feature AR Subtable Agent Status Lamp Feature ASL Subtable Alternate Service Provider Feature ASP Subtable Automatic Dial Feature AUD Subtable Automatic Dial Feature AUL Subtable Automatic Display Feature AUTODI
33. termination treatment However these methods will not be described further in this document because operating procedures for the CFV restriction are the same as those for the existing CFV feature see reference A 2 in Part 18 and because no standard implementation method exists for the disable ringer restriction 2 05 Individual stations which are to be restricted can often be placed in a nonhunt multiline group MLG arrangement in order to conserve translation memory See reference A 4 in Part 18 2 06 Several applications are available for FICR One frequent application is in the control of hospital patient stations In such an application it is often desirable to prevent a single station from receiving calls individual restriction or to prevent an entire ward floor or hospital from receiving calls group restriction Other possible applications include hotels college dormitories or any other establishment where it is necessary to temporarily intercept incoming calls Smaller applications include make busy for switchboards 50A CPS customer premises system consoles and other stations DESCRIPTION 3 USER OPERATION CUSTOMER i A Termination Restriction and Treatment 3 01 Customer perspective for restriction via make busy keys covers the following areas a The restricted station b Special hardware on the customer s premises c Activation and deactivation of the restriction d Termination treatmen
34. 01 The FICR feature is available on a per station or functional group basis 6 LIMITATIONS OPERATIONAL 6 01 Not applicable ASSIGNMENT 6 02 Individual stations with common terminating features can be placed in nonhunt MLGs to achieve considerable translation memory savings See Part 14 However all their terminating data must be in common particularly the CFBL DN Certain equipment options such as ground start and sleevelead may differ as with hunt MLGs 6 03 nonhunt MLG arrangement as well as the hunt arrangement allows a given station to be controlled by up to three restrietions Station can have all the following methods of restriction DSMB or TMB key RMB key and GMB key 6 04 The following associations are possible for restriction via make busy keys a A DSMB key can be associated with any individual station or a group of such stations ISS 1 SECTION 231 090 300 b A TMB key can be associated with an individual station in an MLG or any group of such stations in the same MLG RMB key be associated with an individual station in an MLG or any group of such stations in the same MLG d A GMB key can be associated with any MLG A CFBL DN be associated with an individual station not in an MLG or with an entire MLG The call forwarding unrestricted source and CFILB options are associated with a station in the same manner 6 05 The attendant s ability to reach a
35. ACN function on the OSSTR screen The status of the Trouble Report in SSC will revert to the status it had prior to the handoff A message will be printed in SSDAC informing the center of the pending cancellation When GDS receives this cancellation message and the trouble ticket has a status of PRE PLD the job is automatically cancelled and removed from the GDS work list If the job is dispatched job status of DSP the work request will remain in dispatch status until the job is complete and the technician s time applied to the job GDS will send completion message to SSC which will not be acknowledged When the SSC user needs to re establish a handoff on GDS trouble ticket with a status of DSP dispatched the SSC user should perform another handoff HDD on the Trouble Report dispatched in GDS GDS will acknowledge the handoff and match the existing GDS dispatched trouble ticket with the new request GDS adds a message to GDCOMM indicating that the handoff was re instated by SSC GDS returns to CIMAP SSC a positive acknowledgement of the handoff which is placed in the Trouble Report s log GDS can cancel a handoff from SSC when it performs the cancellation message of CAN The handoff will be completed in SSC The status of the Trouble Report will be its status prior to handoff SSC will place an entry on the OSSLOG of SDX meaning GDS cancellation The third type of cancellation happens when CIMAP SSC sends a handoff message to G
36. Call Store 4 04 There are no unique parameter words associated set cards or call store areas required for the FICR feature However any requirements of the features used to implement the FICR feature must be considered Flexible Incoming Call Restriction Feature 1 ESS ISS 1 SECTION 231 090 300 FEATURE OPERATION A Termination Restriction and Treatment 4 05 System implementation for restriction via make busy keys covers the following areas a Special hardware in the central office b Activation and deactivation of the restriction c Detection of an active restriction during a call d Termination treatment e The alternate destination f Attendant emergency override 4 06 Each make busy key is connected to a wire pair or equivalent which is connected to the central office Each wire pair from a key is connected to the master scanner via a remote master scanner applique circuit 4 07 The central office associates a given wire pair and its master scanner applique with a station or group of stations by using one of the following four features Directed Scan Make Busy DSMB Terminal Make Busy TMB Random Make Busy RMB or Group Make Busy GMB 4 08 Each master scanner point associated with a key using the TMB RMB or GMB schemes is so identified in the master scanner number MSN translation data This data includes the associated MLG TMB RMB and GMB are relevant only to lines in MLGs includ
37. Cs Figure 3 7 shows the flow of information between the two systems 1 Information Flows for a Circuit Order Issue e CI DIST at ISSUE passes order issue information to CIMAP SSC This information includes passing the WORD document to the CIMAP WORD databases and data to prime Circuit Installation and History databases At RID completion sends GOC information to the Status Reporter C1 DIST then notifies CIMAP DOO which formats the information on the WORD into CIMAP documents for each CKL CWL work location CIMAP DOC then passes the order issue information and information to GDS information is matched with the data provided by SOAC If it is ESO DSO the data used to build work requests On receipt of this information GDS transmits the following information to CIMAP SSC via the Status Reporter CKL location CLLI codes for all CKLs on GDS CKL ID Objective report dates Tracking Flag setting indicating whether GDS will be completing work at a particular work location for DVA and Due Date The users on CIMAP SSC can view this information and make status checks via the OSSCWL screen This format displays all CWL CKL locations that are logged in the database by GOC CC and GDS information is placed on the CIMAP SSC LOG if the option is set to Yes in the SSC OPTIONS table 2 CWL CKL Matching The matcher algorithm in CIMAP is responsible for matc
38. DCMP2 will now be displayed providing the appropriate flags were set Corrections must be entered for all selected sections which are also defined in PG2 After all of the required correction information is entered the order will be completed and the order statistics and correction information will be passed to the SOP If a job was RETurned GDS it will not be completed in the SOP but ORDER STAT information may be passed to the SOP Edit rules will be invoked for those ORDER STAT fields that are to be passed to the SOP on a RETurn and for any other fields that are populated These rules must be passed before the job will be RETurned Corrections may not be entered at the time of a RETurn PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 43 20 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 Since an order with multiple TERMS is viewed as multiple jobs in GDS it will not be autocompleted in the SOP When all TERMS are complete a completion message consisting of the JOBID and ORDER STATS for all the jobs will be sent to a printer The completion message will be produced when either the last TERM is completed or the last open TERM is cancelled The order must then be completed manually in the SOP D Completion Information from GDS When a job is completed or returned GDS will pass to SOP the following information JOBID orde
39. DS GDS does not accept this message and sends back to SSC a negative acknowledgement message Upon receiving the negative response SSC cancels the handoff to GDS status of the Trouble Report reverts to the status prior to handoff The Trouble Report will be either placed in the pool for pickup or returned to the MT performing the handoff to GDS The OSSLOG entry will be HON indicating an automatic cancellation of the handoff E Move to Another Center GDS can transfer a trouble ticket from one GDS center to another GDS center after receiving it from SSC This transaction is accomplished when a user performs a MOVE command on a trouble ticket message is sent to SSC containing the Old and New center When SSC receives this message it PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 67 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 displays the new center in the HO Center field on the OSSTR screen SSC will also place an entry on the OSSLOG of SDT indicating a transfer of centers in GDS F Grouped Trouble Reports Trouble Reports TRs which are grouped in CIMAP SSC will be passed to GDS as individual trouble tickets CIMAP SSC will maintain the group but due to the following reasons the group must be unbundled before GDS will accept the handoff message GDS may or may not be able to dispatch all the tickets
40. EAT SCF KSETFEAT SCL Display Queue Status Feature DQS Subtable Display Queue Threshold Feature DQT Subtable Distinctive Ringing Feature DRING Subtable Drop Feature DROP Subtable Executive Busy Override Feature EBO Subtable Extended Call Management Feature ECM Subtable Emergency Key Feature EMK Subtable Executive Message Waiting Feature EMW Subtable Forced Agent Availability Feature FAA Subtable Flexible Calling Feature FC Subtable Full Carrier Toll Deny for International Carriers Feature FCTDINT Subtable Fast Transfer Feature FXR Subtable Group Intercom All Call Feature GIAC Subtable Hands Free Control Feature HF HFMUTE MUTE SOFTKEY Subtable Intercom Feature ICM Subtable Inspect Feature INSPECT Subtable In Session Activation Feature ISA Subtable Conference Join Feature JOIN Subtable Key Short Hunt Feature KSH Subtable Line Music on Hold Feature LMOH Subtable Line of Business Code Feature LOB Subtable Local Feature LOCAL Subtable Primary Intra LATA Carrier Feature LPIC Subtable Local Service Provider Switch Owner Feature LSPSO Subtable Leave Message Feature LVM Subtable Meridian Business Set Camp On Feature MBSCAMP Subtable Malicious Call Hold Feature MCH Subtable Malicious Call ID Feature MCI Subtable Medicated Individual Telephony Feature MIPHONE Subtable Multiple Appearance Directory Number Ring Forward Manual Feature MRFM Subtable Make Set Busy
41. F signal at 1 25 GHz you ll get a nice stable 10 GHz signal which can then power the local oscillator port on your RF mixer The 1 25 GHz Phase Locked Loop PLL oscillator for this project will be based around a slightly modified homebrew Amateur Television ATV transmitter for the 23 cm 1 2 1 3 GHz amateur radio band The synthesizer for this converter will be the Motorola MC145151 PLL chip which is easily salvageable from old commercial satellite CATV receivers and even some older two way VHF radios The PLL will require an external divide by 128 prescaler to convert the 1 25 GHz output frequency down to something the MC145151 can handle We ll be using a Fujitsu MB506 or NEC UPB1507 or Motorola MC12022 prescaler which can be found in some MMDS downconverters or in older Nokia Uniden analog cellular phones and 900 MHz cordless phones The VCO for the oscillator will be 7 CLV1137 which was designed to only cover the 1 100 1 175 MHz range It ll be operated out of band for this project as it was the only VCO module had available which covered this frequency range Mini Circuits has many different VCO modules which should also work Just look for something with a similar MHz Volt rating and frequency range as the Z Comm CLV1137 so you don t have to fiddle with the MC145151 s loop filter calculations An evaluation board for the HMC444 multiplier will be used here to help minimize the need for constructing PC boards ope
42. Feature AUL Subtable Bulk Calling Line Identification Feature BCLID Subtable 49 LENFEAT CDA LENFEAT CFFPOVR LENFEAT CLI LENFEAT CSDDS LENFEAT CTD LENFEAT ESG LENFEAT ESL LENFEAT EWAL LENFEAT FCTDINT LENFEAT FRO LENFEAT FRS LENFEAT HTL LENFEAT IDND LENFEAT ILR LENFEAT INDC LENFEAT LPIC LENFEAT LSPSO LENFEAT MBK LENFEAT MPB LENFEAT OUTWT LENFEAT PIC LENFEAT RMB LENFEAT RMP LENFEAT RMS LENFEAT RSUS LENFEAT SC1 LENFEAT SC2 LENFEAT SCMP LENFEAT SDN LENFEAT SDY LENFEAT SHU LENFEAT SLU LENFEAT SPB LENFEAT TBO LENFEAT WLN LENLINES LGINCTRL LIMCDINV LIMINV LIMPTINV LINEATTR LIUINV LKIDTAB LMINV LMOVCODE LMRNG LNADMIN LNBNV LNCODE LNETWORK LNINV LNINVEXT LNMPEOC LNMTRNAM LNPCODE LNPOPTS LNPRTE LNSIGSYS LNSIGSYS DELDIAL Call Diversion Feature CDA Subtable Call Forward Fraud Prevention Override Feature CFFPOVR Subtable Calling Line Identification Feature CLI Subtable Circuit Switched Digital Data Service Feature CSDDS Subtable Carrier Toll Denied Feature CTD Subtable Emergency Service Group Feature ESG Subtable Emergency Service with Ringdown Trunk Feature ESL Subtable Enhanced WATS Access Line Feature EWAL Subtable Full Carrier Toll Deny for International Carriers Feature FCTDINT Subtable Sleeve Lead Control Feature FRO Subtable Sleeve Lead for Public Fire Reporting System Feature FRS Subtable Hot Line
43. Feature Document Busy Verification of Station Lines BVL Page 16 and Centrex Trunks BVT Features 2 Wire No 1 and No 1A Electronic Switching Systems 2 Section 231 090 073 Feature Document Call Forwarding Features 2 Wire No 1 and No 1A Electronic Switching Systems 3 Section 231 090 167 Feature Document Queueing for Trunks and Lines 2 Wire No 1 and No 1A Electronic Switching Systems 4 Section 231 090 180 Feature Document Multiline Groups Hunting and No Hunting Feature 2 Wire No 1 and No 1A Electronic Switching Systems 5 Section 231 090 229 Feature Document Simulated Facilities Feature 2 Wire No 1 and No 1A Electronic Switching Systems 6 Section 231 090 312 Feature Document Remote Call Forwarding RCF Feature 2 Wire No 1 and No 1A Electronic Switching Systems 7 Section 231 118 325 RC Procedures for PSWD GENT PSBLK and SUBTRAN CTX 6 Through 1E5 Generic Programs 2 Wire No 1 Electronic Switching System 8 Section 231 118 331 Centrex CO Recent Change Procedures for CTXCB CTXDI CTXEXR CXDICH DITABS DLG FLXDG FLXRD FLXRS CTX 6 Through 1E5 Generic Programs 2 Wire No 1 Electronic Switching System 9 Section 231 118 335 Line Recent Change Procedures for LINE TWOPTY MPTY SCLIST MLGH ACT and CFV CTX 7 through 5 Generic Programs 2 Wire No 1 Electronic Switching System 10 Section 231 118 337 RC Procedures
44. Feature MSB Subtable Message Waiting Indication Feature MWIDC Subtable Message Waiting Query Feature MWORY Subtable Message Waiting Feature MWT Subtable Number of DN Appearances Feature NDNAP Subtable Night Service Feature NGTSRVCE Subtable Network Resource Selector Feature NRS Subtable Observe Agent Feature OBS Subtable Originating Line Select Feature OLS Subtable Private Business Line Feature PBL Subtable Privacy Change Allowed Caller ID Delivery and Suppression Subtable Power Feature Feature PF Subtable Primary Inter LATA Carrier Feature PIC Subtable Call Park Feature PRK Subtable Privacy Release Feature PRL Subtable Privacy Feature PRV Subtable Query Busy Station Feature QBS Subtable Quick Conference Key Feature QCK Subtable Query Time and Date Feature QTD Subtable Ring Again Feature RAG Subtable Random Make Busy Feature RMB Subtable Requested Suspension Feature RSUS Subtable Subscriber Activated Call Blocking Feature SACB Subtable Selective Call Forwarding Feature SCF Subtable Speed Calling Long List Feature SCL Subtable Feature PCACIDS 48 KSETFEAT SCS KSETFEAT SDY KSETFEAT SEC KSETFEAT SHU KSETFEAT SIMRING KSETFEAT 51 0 KSETFEAT SLU KSETFEAT SMDI KSETFEAT SOR KSETFEAT SPB KSETFEAT SSAC KSETFEAT SUPR KSETFEAT TBO KSETFEAT TLS KSETFEAT TRANSFER KSETFEAT TRKDISP KSETFEAT UCDLG KSETFEAT UCDSD KSETFEAT VMEADENY KSETFEAT
45. GRP MDNMEM MDSACTN MDSLANG MDSOPT MFCACT MFCPROT MFCTRTMT MILES MILESI MINCHG MINCHGI MLCCOPT 0 9 MMCONF MNETATTR MOBCENT MODEMPRO MODMAP MODSET MOPTOPT MPBINV MPC MPCFASTA MPCLINK MPCLOGIN MPCLSET MPHCON MPHGRP MOLIMITS MRSANAME MSBINV MSBPSINV MSCDINV MSRCDATA MSFWLOAD MSGRTE MSILINV MSINV MTAHORIZ MTAMDRVE MTARFIDX MTARFNUM MTARIFF MTAVERT MTCFAIL MTCTEST Line Trunk Controller Remote Inventory Table Line Trunk Controller Remote P Side Link Inventory Table Logical Terminal Data Table Logical Terminal Definition Table Line Test Desk Signal Distribution Table Logical Terminal Group Table Logical Terminal Mapping Table Line Test Position Auxiliary Commands Table Line Test Position Default Commands Table Mechanized Calling Card Service Non Bell Exchange Carrier Table TOPS Mechanized Calling Card Service Originating Station Treatment Table Metering Destination Index Table Multiple Appearance Directory Number Group Table Multiple Appearance Directory Number Member Table TOPS Message Delivery System Actions Table TOPS Message Delivery System Language Table TOPS Message Delivery Service Options Table Multi Frequency Compelled Signal to Activity Translation Table Multi Frequency Compelled Protocol Tuples List Table MFC Activity to Extended Treatment Translation Table TOPS Mileage Table TOPS Mileage Inactive Table TOPS Minimum Charge Table TOPS Minimum Charge Inactive Table Mobile Line Cla
46. Information Table PHINV Packet Handler Inventory Table PICNAME Primary Inter LATA Carrier Name Table PILOTGRP Pilot Groups Table PINDATA Personal Identification Number Data Table PLATAB Physical Link Adapter Table PMEXCEPT Peripheral Modules Excepted Table PMLOADS Peripheral Module Loads Table PMNODES Peripheral Module Nodes Table PNINFO Ported Number Routing Information Table MMP only PNSCRN Ported Number Screening Table MMP only PODPATTR Public Office Dialing Plan Attributes Table POECNM Path of Entry Characteristic Name Table POECSCRN Path of Entry Characteristic Screening Table PORTNUMS Portable Numbers Table POSITION Position Table POSNAME List of Position Names Table 56 Short Name Title PRECONF Preset Conference Table PREFHUNT Preferential Hunt List Member Table PREPLANS Network Management Preplan Table PRIPROF Primary Rate Interface Profile Table PRTN2CCD Pre Translator to CC Translator Name Table PRTTONET Partition Number to NETINFO Mapping Table PS Program Store Assignment Table PSCNUM Private Speed Call Number Table PSNAILUP P Side Nail Up Table PSTNTRK Public Switched Telephone Network Trunk Table PTIDTAB Port Identifier Table PTP TOPS Point to Point Rating Table PVCINFO Permanent Virtual Circuit Information Table PVCTYPE Permanent Virtual Circuit Type Table PVDNAGEN Private Virtual Data Network Agent Table PVDNCHAN Private Virtual Data Network Channel Table PVDNCUST Private Virtual Data Netwo
47. LINKS CCITT No 6 Signaling Links Table NO6LKSET CCITT No 6 Link Set Table NO6RTSET CCITT No 6 Route Set Table NO6STP CCITT No 6 Signal Transfer Point Table NO6STPBD CCITT No 6 Signal Transfer Point Table NO6TKMEM CCITT No 6 Trunk Member Table NOPADDR Network Operations Protocol Address Table NOPAPPLN Network Operations Protocol Applications Table NOPDEST Network Operations Protocol Destination Table NOPUSERS Network Operations Protocol Users Table NPACAT Serving NPA Category Digit Table NPACHECK TOPS NPA Check Table NPASPLIT Numbering Plan Area Split Management Table NPDIGMAP Number Portability Digit Mapping Table NPENDING Number Pending Table NPRESERV Number Pooling Reserved Number Marketing Table NSCANNS Number Service Code Announcement Table NSCCARR Number Service Code 800 Plus Southbound Carrier ID Validation Table NSCCODE Number Service Code Table NSCDEFS Number Service Code Database Response Timeouts Table NSCHEAD Number Service Code Head Table NSCRTE Number Service Code Route Table NSCSCRN Number Service Code Screening Table NSCSNPA Number Service Code Special Area Codes Table NSIMAP Non Specified Information String Map Table MMP only NSTAFAS Night Service Trunk Answer From Any Station Table 53 Short Name Title NTCLANGS Notification of Time and Charge Languages Table NUMBFMT ITOPS Position Display Number Formatting Table NUMDIGS Number of Digits Table MMP only NWMAOCR Network Management Automatic Out o
48. Line Administration Table Line Balance Network Value Table TOPS Line Number Method of Coin Control Table Logical Metering Networks Table Line Circuit Inventory Table Line Inventory Extension Table Line Multipoint Embedded Operations Channel Table Line Meter Names Table Local Number Portability Code Table Local Number Portability Options Table Local Number Portability Route Table Line Signaling System Table Signaling Type DELDIAL Subtable 50 LNSIGSYS N5 LNSIGSYS NTLSO3 LNSIGSYS NTLS04 LNSIGSYS NTLSO5 LNSIGSYS NTLSO6 Incoming LNSIGSYS NTLSO6 Outgoing LNSIGSYS NTLSO7 Incoming LNSIGSYS NTLSO7 Outgoing LNSIGSYS NTLSO8 Incoming LNSIGSYS NTLSO8 Outgoing LNSIGSYS NTLSO9 Incoming LNSIGSYS NTLSO9 Outgoing LNSIGSYS NTLS10 LNSIGSYS NTLS11 Incoming LNSIGSYS NTLS11 Outging LNSIGSYS NTLS14 LNSIGSYS NTLS15 Incoming LNSIGSYS NTLS15 Outgoing LNSIGSYS NTLS16 Incoming LNSIGSYS NTLS16 Outgoing LNSIGSYS NTLS16 Two Way LNSIGSYS NTLS20 Incoming LNSIGSYS NTLS20 Outgoing LNSIGSYS NTLS22 Incoming LNSIGSYS NTLS22 Outgoing LNSIGSYS NTLS24 Incoming Outgoing LNSIGSYS WINKSIG LNSMTCE LNTDM LNTHRSH LOGCLASS LOGDEV LOGINFO LPBKMEM LSCFLAGS LSPINFO LTCALLS LTCINV LTCPSINV Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signali
49. SP Subtable Basic Business Group ISDN Feature BBGI Subtable Bearer Capability Feature BC Subtable Bulk Calling Line Identification Feature BCLID Subtable Busy Lamp Field Feature BLF Subtable Call Covering Feature CCV Subtable Call Completion to Busy Subscriber Feature CCBS Subtable Call Forward Busy Feature CFB Subtable Call Forward Don t Answer Feature CFD Subtable Call Forward Don t Answer Variable Timer Feature CFDVT Subtable Call Forward Fraud Prevention Override Feature CFFPOVR Subtable Call Forward Timed for CFB Feature CFTB Subtable Call Forward Timed for CFD Feature CFTD Subtable Call Forward Universal Intragroup Fixed Feature CRUIF Subtable Call Forwarding Feature CFX Subtable Call Forwarding per DN per Call Type Feature CFXDNCT Subtable Call Forwarding Validation Feature CFXVAL Subtable Caller ID Delivery and Suppression Delivery Feature CIDSDLV Subtable Caller ID Delivery and Suppression Feature CIDSSUP Subtable Controlled Interflow Feature CIF Subtable Calling Line Identification Feature CLI Subtable Flexible Station Controller Conference Feature CNF Subtable Customer Originated Trace Feature COT Subtable Datapath Call Path Restoration Feature CPR Subtable Call Pickup Feature CPU Subtable Call Reference Busy Limit Feature CRBL Subtable Call Screening Monitoring and Intercept Feature CSMI Subtable Carrier Toll Denied Feature CTD Subtable Closed User Group Featu
50. Systems Interconnect Parameter Table OSIROUTE Open Systems Interconnect Routing Table OSNCCAP Operator Services Network Capability Table OSSANNS Operator Services System Announcements Table OSSCAT ANIID Mapping for TOPS Trunk Groups with OSS Table OSSPROV Operation System Support Provisioning Table OVNTRNSL Overseas Number Translation Table OVR0 9 Overseas Route Tables OVRMAP Overseas Route Index Mapping Table OVSBILL TOPS Overseas Billing Restrictions Table OVSCC TOPS Overseas Credit Card Table OVSCCYL TOPS Overseas Credit Card Year Letter Table OVSRS TOPS Overseas Rate Step Table OVSRSI TOPS Overseas Rate Step Inactive Table OWATZONE OUTWATS Zone Table OWNER Owner Table OWNTAB Ownership Table PACMAN IBN ESN Protocol Analysis and Code Manipulation Table PADDATA Pad Data Table PADNDEV Patch Administration Device Table PARSDENY TOPS Personal Audio Response System Denial Table PARSMBR TOPS Personal Audio Response System Member Table PATALARM Patch Alarm Table PATCHOPT Patcher Options Table PATCTRL Patch Control Table PATNS Patch Nodeset Table PATSET Patch Set Table PCIC Phantom Carrier Identification Code Table PCITRK Preselect Carrier Identification Trunk Table MMP only PCIXLA Preselect Carrier Identification Translation Table MMP only PECINV Product Engineering Code Inventory Table PFCTRL Power Feature Control Table PFXTREAT Prefix Treatment Table PHDS1 Packet Handler to DS 1 Connection Table PHINFO Packet Handler
51. TION 231 090 300 be affected by only one such key but any number of stations in the same MLG can be controlled by the same key A single MLG can have up to 10 RMB keys c have only one GMB key affecting all stations within the group As with RMB keys the limiting factor is either available scan points applique mounting space and memory or the number of MLGs d An individual station can be associated with only one CFBL DN 7 INTERACTIONS STATIC 7 01 Not applicable DYNAMIC 7 02 normal interactions of the features used to implement the FICR feature also apply in FICR applications These features and the respective feature document references are listed in Table B 7 03 When the make busy key method is used line hunting takes precedence over the CFBL termination treatment When a restricted individual station is encountered line hunting continues The alternate destination is reached only if the hunt fails If an individual station in a hunt MLG is controlled by TMB or RMB key an active restriction cannot always be detected during a line hunt However the line always appears busy so calls will not terminate to it The net result is that the CFILB option often has no effect with some calls routing to the alernate destination and others routing to busy tone 7 04 7 05 Ifa hunt MLG station is controlled by several make busy restrictions the system detects the restrictions in the
52. TX 8 and later generic programs CFILB RMB and GMB entries are made on this form RECENT CHANGES 12 02 There no new or unique recent change RC message formats u ed to implement the FICR feature Details concerning the following RC formats used to implement the FICR feature can be found in the associated references RC MESSAGES RC LINE References A 9 or A 11 in Part 18 RC MLHG References A 9 or A 11 in Part 18 RC MSN References A 7 or A 12 in Part 18 RC CTXCB References A 8 or A 18 in Part 18 RC CTXDI References A 8 or 13 in Part 18 13 TESTING 13 01 Testing consists of ensuring that calls originating from and terminating to the restricted station s are processed properly Numerous combinations of active and inactive restrictions should be tried These tests are normally performed after customer cutover Limited terminating call tests can be performed prior to 15 office cutover by using cutover access lines to call customer stations 13 02 The customer s translation data should be verified by using the following teletypewriter input messages a Use the VFY LEN input message to verify the line equipment number translations for the customer station s system response to this message is a TR03 output message b Use the VFY DN input message to verify the directory number translations for the customer s station s The system response to this message is TRO1 output messa
53. The data that is involved in the matching algorithm is illustrated in the following table semer md T abs derived fabs deriva sruitend CKL 100 The matching algorithm makes two separate attempts to identify the correct work request using the circuit ID and JOBID indices The match process continues until a rule is met which then terminates match processing If no match rule is met the GDS center is identified by routing and the work request is added to the Work Request database If a work request already exists CKL item is added to the existing order segment A match rule identifier has been placed in the IIN event for receipt of the data in GDLOG The identifier consists of two characters that identify the fields used in the match process The match rules are presented in priority order The name of each match rule is enclosed in parentheses 1 JOBID CKLID and circuit ID W1 Using the entire circuit ID the index is used to identify a possible item segment for match If the JOBIDs are equal order segment and CKLIDs are equal segment it is considered match The CKL action must be add or reuse for this rule If the rule is met the order CKL and item segments are updated with the design data 2 JOBID disconnect CKL action and circuit ID W2 Since the CKLID is not provided for the disconnect end when the end has both add and disconnect activity occurring at it an alternative match rule is u
54. UE DATE USOC CODES UP TO 12 OCCURRENCES PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 51 28 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 D LMOS Statusing and Closeouts In GDS whenever an LMOS originated work request is restatused or completed job status updates are sent to LMOS A request is sent to LMOS through the OI Operations Interface subsystem Three different OI request types which correspond to three different LMOS transactions are passed for these purposes 1 EST requests are passed when an LMOS work request restatused in GDS 2 CEST requests are passed when the lead job of stapled LMOS bundle is restatused in GDS 3 FST requests are passed when LMOS work request is completed and a user provides FST data on the GDCOMP completion screen After LMOS receives the request and processes it if processing failure of the GDS status change occurs it will notify OI which will then invoke GDS transaction to inform GDS users of the processing failure This transaction consists of two specific features 1 Exception notice printed to the appropriate GDS work location 2 An entry the GDS Status Log database An exception notice to the appropriate work center that requested the status change will be printed It will inform GDS users of the status failure on the LMOS front end An
55. VMEADN KSETFEAT WML KSETFEAT WUCR KSETFEAT XFER KSETFEAT XXTRG KSETINV KSETKEYS KSETLINE KSETQCK KTGROUP KTMINMAX KTPARMS L2ABNLOG L3ABNLOG LAC LAMABC LANGTOQ LATANAME LATAXLA LATTRDR LCA6SCRN LCAINFO LCARNAME LCARSCRN LCASCRCN LCASCRCN LCASCR LCCOPT LCLRS LCLRSI LCMDRINV LCMINV LDASCRN LDTINV LENFEAT LENFEAT ADL LENFEAT AIN LENFEAT AIOD LENFEAT AUL LENFEAT BCLID Speed Calling Short List Feature SCS Subtable AT amp T line Study Feature SDY Subtable Security Code Feature SEC Subtable Stop Hunt Feature SHU Subtable Simultaneous Ringing Feature SIMRING Subtable Single Line Queue Feature SLQ Subtable Subscribers Line Usage Feature SLU Subtable Station Message Desk Interface Feature SMDI Subtable Station Origination Restrictions Feature SOR Subtable Special Billing Code Feature SPB Subtable Station Specific Authcode Feature SSAC Subtable Supervisor Feature SUPR Subtable Terminating Billing Option Feature TBO Subtable Terminating Line Select Feature TLS Subtable Call Transfer ISDN Feature TRANSFER Subtable Trunk Member Display Feature TRKDISP Subtable Uniform Call Distribution Login Feature UCDLG Subtable Uniform Call Distribution Signal Distribution Point Feature UCDSD Subtable Voice Mail Easy Access Deny Feature VMEADENY Subtable Voice Mail Easy Access Directory Number Feature VMEADN Subtable Warm Line Feature WML Subtable Wake Up Call
56. a trouble report is being handed off for a field dispatch from SSC GDS responds back to SSC with a negative or positive acknowledgement UPDATE Used when a trouble has already been passed to GDS and an addition or change to the delayed maintenance or no access fields is made GDS uses the update message to inform SSC of changes in job status i e DSP REMARK Remarks are passed to GDS from SSC on a handoff or DM NA GDS can also pass remarks to SSC by using the update function on the GDCOMM screen CANCEL Used to inform the other system of the cancellation when a trouble has been handed off to GDS for dispatch and it is cancelled by CIMAP SSC or GDS TRANSFER Used to update information in CIMAP SSC when a trouble ticket is moved from one GDS center to another COMPLETE Used when a trouble ticket has been completed in GDS or completed by SSC D Trouble Report Handoff HDD When a special service trouble has been tested and it is determined that a field dispatch is required the MT populates the following information on OSSTR or OSSTGM 1 FCT HDD Handoff to dispatch 2 DESTINATION CLLI code location e g center or work location of the work group to receive the handoff If the CLLI code is in the VALID SSDAC LOC table CIMAP SSC then the HDD is mechanized handoff to GDS 3 END The CKL end needed for dispatch e g A P1 Z P2 4 SDATE STIME Start and End Dates Times EDATE ETIME Defaults are available
57. about the same size as New York its transit systems handle roughly the same number of people every day Nearly everywhere you look in London there s someone or some thing looking right back at you In fact you could be caught on camera as many as 300 times in the course of one day Cameras record the license plate of every single car that enters the capital Yet it didn t stop terrorists from planting a car bomb outside this downtown nightclub three years ago It failed to go off Nobody s going to make the world perfectly safe but wouldn t you rather be somewhat safer Bloomberg said He s banking on it as he plans to take Big Brother Britain back to New York City London s Ring of Steel was the inspiration for the 3 000 camera network being installed in lower Manhattan and Midtown The NYPD hopes all the cameras are installed by the end of 2011 We need to bail out more subprime homeowners from their debt 78 Eric 5 New York City sure is ass backwards Your kid can t count Don t worry They ll work for Obama s census bureau or ACORN N Y Passes Students Who Get Wrong Answers on Tests June 2010 From www nypost com By Carl Campanile amp Susan Edelman When does 2 2 5 When you re taking the state math test Despite promises that the exams which determine whether students advance to the next grade would not be dumbed down this year students got partial credit for wrong answers
58. al station or two words for each MLG individual station for storing the MSN in the LEN and or DN translations 2 With TMB feature Four words for each non MLG individual station or two words for each MLG individual station for storing the MSN in the LEN and or Flexible Incoming Call Restriction Feature 1A ESS 155 1 SECTION 231 090 300 DN translations To identify the restricted stations in the MSN translations 2 N 2 words where N is the number of stations associated with the TMB key are required 3 With RMB feature Two words per key for storing MSN data in the MSN translator 4 With GMB feature Two words per key for storing MSN data in the MSN translator 5 Termination treatment for above methods One word per non MLG station or one word per MLG is required for storing the CFBL DN when the CFBL feature is used If no alternate destination i e no CFBL is provided additional memory is required if additional busy tone circuits are needed REAL TIME IMPACT 1 ESS 1110 The real time costs for the make busy key method of restriction are as follows These costs are above those incurred on calls to and from unrestricted stations or stations which do not have FICR 1 For DSME 100 cycles per call placed to or from an associated non MLG station or 150 cycles per call placed to or from an associated MLG station Note that 150 or more cycles are consumed for each associated individual MLG sta
59. andoff is completed the TR is not restored and is made available for pickup in CIMAP SSC If the field technician closes out the Trouble Report while working with a MT via a telephone call CIMAP SSC allows the MT to complete the handoff and restore the Trouble Report although it has a HDD status in CIMAP SSC and a job status of DSP in GDS The technician must still provide completion data to the dispatcher and return the job This restoral will complete the HDD however CIMAP SSC will accept any subsequent completion message from GDS and perform any required CKT HIST updates H Smart JUMP FINDs The Smart Jump Find feature allows the GDS user the accessibility to both systems CIMAP SSC and GDS This feature is allowed through the format access transaction definition and S1 security of both CIMAP SSC and GDS software The GDS users will have to be added to the CIMAP S1 security database using VOSIADM before CIMAP SSC will allow access to its format library The GDS user will sign onto the GDS system using VGSISIGN The user must then sign on to CIMAP SSC System using VOSISIGN The user now has access to both CIMAP SSC and GDS Only those fields located on PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 68 45 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 the SSC s formats which are pertinent to a GDS user will be passed to GDS
60. as a group e Each trouble ticket has different circuit termination information When handing off a group of TRs for dispatch the CKL termination information must accompany each individual TR in the group CIMAP SSC passes the Group ID for every grouped trouble to GDS where it is placed in the comment field of its trouble tickets for reference G Handoff Completion When the technician completes the trouble ticket the completion information is given to the dispatcher for input on the completion format GDCOMP The GDS work request is completed job status When GDS completes handoff number of conditions exist concerning the completion process between GDS and CIMAP SSC The conditions are as follows The trouble ticket is completed GDS job status becomes CMP a completion message is sent to SSC and the Restored To 5 TO field on GDCOMP screen blank SSC completes the HDD and makes it available for pickup in the pool The trouble ticket is completed in GDS job status becomes UMP a completion message is sent to SSC and the Restored To RST TO field on GDCOMP screen 18 not blank There is an automatic restoral option AUTO RST in the TTA OPTIONS table in CIMAP SSC If the AUTO RST switch is set to Yes indicating that an automatic festoral is allowed the Trouble Report is restored in CIMAP SSC with the restoral information provided by GDS If the switch set to no the h
61. ation receives no indication of the attempted call 3 07 The restricted call receives one of the following termination treatments Generally these treatments are fixed for a given restriction and can be changed only via arrangements with the telephone company A treatment can be unique to a station unique to a customer group or occasionally shared by the restricted stations of several customers a Call routed to a designated station or attendant In this case the designated station or attendant will usually be on the customer s premises but can be located anywhere even in another city b Call routed to an announcement The context of the announcement is not standard but a statement such as the following is recommended The party you have dialed is not to be disturbed at this time if this is an emergency or if you desire additional information you may call nxx xxxx for assistance c Call routed to an announcement with time out to a designated station or Page 4 attendant The restricted call is passed to a Station or attendant if the caller does not disconnect after the announcement In this case typical announcement would be party you have dialed is not to be disturbed at this time If this is an emergency or if you desire additional information do not hang up an attendant will assist you shortly d Incoming call routed to a designated station or attendant and intra business customer
62. call to busy tone This type of treatment is available only if the restricted station is in a group The designated station or attendant may be located anywhere e Incoming call routed to the business customer group attendant and intra business customer call to an announcement This type is also available only if the restricted station is in a business customer group incoming call is routed to the business customer group s attendant intra business customer call is routed to centrex common intercept 3 08 So that restricted calls can be properly answered at the alternate destination limited call identification aids are available One obvious means of identifying restricted calls at a station is to use dedicated lines which receive only restricted calls However restricted calls may be routed to an attendant console which receives several types of calls In this case visual call identification is available via certain call indicator lamps 3 09 If desired the number of calls simultaneously directed to a single alternate destination can often be limited to a predetermined number One use of this is to limit the load on the person s receiving the calls Calls directed to a restricted station while the maximum number of simultaneous calls is in progress receive busy tone 3 10 If a 51A CPS attendant is used as an alternate destination call indicator lamp indications may not be unique The lamps used are the same ones t
63. circuits and a prefix service code modifier serial number and company code for serial number formatted circuits The segment portion segment ID of the circuit identifies a particular segment of a circuit Since the Service Order Interface only receives the family portion of the circuit ID the designed data interface receiver module attempts to match first by the entire circuit ID and secondly by the family portion of the circuit ID The same match attempts are made with the family portion of the circuit ID only Trailing delimiters are eliminated JOBID CKLID and circuit ID F1 The family portion of the circuit ID is used JOBID disconnect CKL action and circuit ID F2 The family portion of the circuit ID is used JOBID CKL address and circuit ID F3 The family portion of the circuit ID is used JOBID circuit end CKL action and circuit ID F4 The family portion of the circuit ID is used JOBID and CKL address A If none of the above match rules are met an attempt is made to add the item at the correct location CKL if the CKL addresses match exactly the item is added GDMTCH can then be used to merge the correct items Routing RO If none of the above match rules are met the message is routed to a GDS center utilizing GDICTR an order does not exist under that center an order CKL item is added to the database If an order already exists under that center an additional CKL item is added to the or
64. ctly as above using CURRENT time in its calculation if it is other than a completion from GDCOMP s RCPT TO CLR RESTORED TM GDS RCVD TM TOT DMNA TM use CURRENT instead of RESTORED if not from GDCOMP When an Update is Received Through the SSC Interface Several processes occur that affect the population of the SSC duration fields if DM NA interval is present interval fields on GDMSWR will be populated with the new DM NA interval values if no interval is present on the work request at the time of the update receipt No other fields will be updated When an interval already exists if the update DM NA flag value matches that of the current interval previous interval was DM condition and update is a DM condition or previous interval was an NA condition and update is an NA condition the new interval values will replace the existent values in the work request interval fields This situation could effectively cancel the previous DM or NA interval if the update contains all blanks No other fields will be updated When an interval already exists and the updated DM NA flag value is different from the previous e g old DM and new NA several different processes will occur depending on whether or not the old interval has expired PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 66 43 Generic Dispatch System Release 3 1 User Manual Pa
65. der segment The sequence number will be incremental from the last existing segment If the TIRKS table is logged in GDS the Service Order Interface will attempt to match by the following criteria in priority order 1 JODID CKLID and circuit ID PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 47 24 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 2 JOBID CKLID and family portion of circuit ID 3 JOBID and CKL address 4 JOBID a new CKL is created PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 48 25 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 1 16 GDS LMOS Interface A Introduction The GDS LMOS Interface provides the facility through which information about POTS and nondesigned special service trouble tickets and loop testing is transferred between GDS and LMOS The interface supports the following functions Transmission of trouble ticket data from LMOS to GDS This includes both initial and subsequent trouble reports Note that GDS is only interested in dispatchable troubles The LMOS screening function used to determine dispatchability continues to function as today Once a ticket is identified by LMOS for outside dispatch the trouble is sent to GDS via the RBOR t
66. dialed directly If the alternate destination is a station including a 50A CPS console restricted calls can be recognized at the destination only if dedicated lines are used This is accomplished by using CFBL DNs which are not listed in any directory If the final destination is a 51A CPS console a restricted call will light one of three call indicator lamps on the display These are the same lamps as are normally used with the CFBL feature 4 15 alternate destination can have features which are applicable to it under non FICR applications In particular the Simulated Facilities feature see reference A 5 in Part 18 Flexible Incoming Call Restriction Feature ESS can be used on the CFBL DN to restrict the number of calls simultaneously directed to the alternate destination The QTL feature may also be useful B Attendant Emergency Override 4 16 To allow attendant access to a restricted Station a centrex special service code translates into a special sub subtype sub subtype 11 of subtype 18 in the centrex digit interpreter tables This allows the dialed extension which is dialed after the special code to be translated as if no restrictions were active Specifically make busy conditions active call forwards and line hunting are ignored The attendant terminates to dialed individual station if it is idle otherwise the attendant receives busy tone CHARACTERISTICS 5 FEATURE ASSIGNMENT 5
67. ds the wrong answer 150 instead of 350 These questions ask students to show their work The scoring guidelines called holistic rubrics require that points be given if a kid s attempt at an answer reflects a partial understanding of the math concept addresses some element of the task correctly or uses the appropriate process to arrive at a wrong solution Despite flubbing the answer students can get 1 point on a 2 point problem and 1 or 2 points on a 3 pointer The Brooklyn teacher said she and peers who had trained to score the tests were stunned at some instructions Everybody in the room was upset she said 79 The teacher had scored tests with some controversial questions for several years but this time it was more outrageous she said You feel like you re being forced to cheat Scorers joked about giving points to kids who wrote their names brought a pencil or shared gum However score inflation is not funny the whistleblower said The kids who really need the help are just being shuffled along to the next grade without the basic skills to have true success They are given a hollow success that s the crime of it The state DOE is doing a disservice to its children Some testing experts are also troubled Ray Domanico a former head of data analysis for city schools said kids deserve a little credit for partial knowledge but agreed the scoring system raises some questions about whether it s to generou
68. e DSP TO CLR value will be set to the value minus the RCPT TO DSP value DSP_TO_CLR RCPT TO CLR RCPT TO DSP When Non Dispatched Job is Completed or Cancelled vis GDCOMP GDMSWR or SSC interface request Several processes occur that affect the population of the maintenance duration fields if DM NA interval is present If a job was never dispatched any part of the DM interval between the handoff receipt time in GDS and the CURRENT time will be added to the TOT DMNA TM field If completed via GDCOMP RESTORED TM will be used instead of CURRENT time If a job had been previously dispatched any part of the same interval will be added to the T CLR NA field Any portion of the interval which falls after the CURRENT time will be left intact in the event that the job is reopened by SSC Again if completed via GDCOMP RESTORED TM will be used instead of CURRENT time If the job was previously dispatched the following fields will be set RCPT TO CLR RESTORED TM GDS RCVD TM TOT DMNA TM use CURRENT instead of RESTORED TM if not from GDCOMP TOT_DMNA_TM RCP T DSP NA DSP T CLR NA TO CLR RCPT TO CLR RCPT TO DSP If the job was never dispatched any time in RCP DSP NA from a rejected dispatch will be added to DMNA TM and RCP NA will be zeroed out The RCPT CLR field will be in this case exa
69. e make busy key feature Translation program store 1 With DSMB feature Four program store words for each non MLG individual station or two words for each MLG individual station for storing the MSN in the LEN and or DN translations 2 With TMB feature Four program store words for each non MLG individual 13 station or two words for each MLG individual station for storing the MSN in the LEN and or DN translations identify the restricted stations in the MSN translations 2 N 2 program store words where N is the number of stations associated with the TMB key are required 3 With RMB feature Two program store words per key for storing MSN data the MSN translator 4 With GMB feature Two program store words per key for storing MSN data in the MSN translator 5 Termination treatment for above methods One program store word per non MLG station or one program store word per MLG is required for storing the CFBL DN when the CFBL feature is used If no alternate destination ie CFBL is provided additional memory is required if additional busy tone circuits are needed B NO 1A ESS Fixed 11 07 None Conditional 11 08 None Variable 11 09 The following memory is required when the feature is added on a per individual line or MLG basis using the make busy key feature e Translation unduplicated call store file store 1 With DSMB feature Four words for each non MLG individu
70. ed in the GDSOP table as its hold period If an N is entered in the DELAY field the completion message will be transmitted immediately The default for this flag is N 5 A Y entry the EDIT field will invoke the edit process as established in the TTS table GDS SOP EDITS when the COMPLETE or RETURN command is executed Edit errors will block completion and the field s in error will be highlighted This flag defaults to Y and can only be changed to N if SOP is N 6 The POP autopopulate field is not currently being utilized 7 A maximum of ten CHANGES flags will be displayed on the screen one for each section defined in the GDS SOI PARSE table in the AC entry If there are corrections to the service order the sections requiring changes must be marked with a Y If any of the marked sections is listed in the DELAY field of the GDS SOP OPTIONS table the message will be delayed by the number of minutes specified in the DEL MIN field in the GDSOP table If SOP is Y and any of the marked sections are listed in the PG2 field in GDS SOP OPTIONS corrections to the service order will be entered on GDCMP2 After entering the required information on the GDCOMP screen and executing the COMPLETE command the completion process begins If all the user defined edit rules are met noncorrected orders will be completed at this point and ORDER STATs will be passed back to the SOP If a corrected order is being processed however G
71. ervice REASON FOR REISSUE 1 02 When this document is reissued the reason for reissue will be stated in this paragraph FEATURE AVAILABILITY 1 03 FICR feature is available in all active generic programs for No 1 and No 1A ESS There is no unique base program dedicated to the feature It relies on existing base programs instead 2 DEFINITION BACKGROUND DEFINITION 2 01 The Flexible Incoming Call Restriction FICR feature is a line arrangement through which an individual customer station or functional group of individual stations can be temporarily prohibited from receiving calls BACKGROUND 2 02 A station can be simultaneously affected by as many as three separate restrictions individual plus group Calls can still be originated on any restricted station provided that station is not under control of a restriction which prohibits call origination An attendant can still reach a restricted station by using attendant emergency override 2 03 Termination restriction is accomplished with make busy keys and Call Forwarding Busy Line CFBL provides termination treatment for the restricted calls 204 Call Forwarding Variable CFV as well as disable ringer mechanisms used in conjunction with Call Forwarding Don t Answer CFDA for termination treatment can also be Flexible Incoming Call Restriction Feature 1 ESS ISS 1 SECTION 231 090 300 used to provide both call restriction and
72. es on it That would be very bad and not culturally sensitive Had enough ii 3 CHANGE Freedom Across 82 For just 75 cents day you too can sponsor this malnourished Kenyan Muslim Think about it For only the price of a cup of coffee you can clean him up educate him and get him a community organizer job 83
73. f COMP or RET on the GDCOMP format When using the UPDATE command a total of 50 characters of remarks are sent to CIMAP SSC CIMAP SSC will place the GDS remarks in the Log b DM NA Information CIMAP SSC will send GDS the DM or start and end times if a DM NA is active at the time of the handoff If DM NA is not currently active but there is DM NA that will start in the future those start and end times will be sent Any subsequent updates or cancels of the DM NA in CIMAP SSC will also be sent to GDS On the GDMSWR format a DM NA interval may be established by a GDS user through an add or cancel of a work request or an update of the interval fields On the GDMSCP format DM NA interval may be established or modified by a GDS user when a job is returned or completed The DM NA interval may also be modified when a job is dispatched to a technician on GDMSDP It is recommended that CIMAP SSC users not add both DM and an NA on a Trouble Report although the timers do not overlap as GDS only has room ta store one interval at a time While DM NA interval specified by FROM TO date and time pair restricts automatic dispatch the presence of any DM NA interval will not prevent a manual dispatch In order to provide better user analysis of key maintenance duration intervals of SSC jobs in GDS the following six calculated duration fields are provided in TQS TQS NAME DESCRIPTION 1 ROP T DSP NA time from receipt in GDS to
74. f Chain Reroute Table NWMCLLI Network Management CLLI Table NWMIDOC Network Management Internal Dynamic Overload Control Table NWMPPLN Network Management Pre Plan Control Table NWMSC Network Management Scan Group Table NWMSCPT Network Management Scan Point Table NWMSD Network Management Signal Distributor Group Table NWMSDPT Network Management Signal Distributor Point Table NX64MEM NX64 Member Table OACAUPRF Operator Services Systems Advanced Intelligent Network OSSAIN Cause Profile Table OACNNPRF OSSAIN Connecting Profile Table OACTLDEF Control List Definition Table OADSCPRF OSSAIN Post Disconnect Profile Table OADTFPRF OSSAIN Dual Tone Multi Frequency Profile Table OAFUNBLK OSSAIN Function Blocking Table OAFUNDEF OSSAIN Function Definition Table OAFNDISP OSSAIN Function Disposition Table OAINCTLA OSSAIN Control List Assignment Table OAINPARM OSSAIN Parameters Table OAINPRE OSSAIN Pre Processing Table OAINRTE OSSAIN Route Table OANODINV OSSAIN Node Inventory Table OANODNAM OSSAIN Node Name Table OSSAIN Talking Profile Table OATPRFIX OSSAIN Trigger Profile Table OASESNPL OSSAIN Session Pool Table OAVLMAP OSSAIN Node Inventory Table OCCINFO Equal Access Other Common Carrier Information Table OCCMAP Equal Access List of Other Common Carrier Mapping Table OCCNAME Equal Access List of Other Common Carrier Names Table OCCRDIG Equal Access Other Common Carrier R Digit Table OCCSRV Equal Access Other C
75. following order GMB RMB and TMB or DSMB For all other stations the order in which applicable restrictions take place is GMB TMB or DSMB and RMB No station can have both the TMB and DSMB features If a station also has CFV active CFV takes precedence over all make busy restrictions Page 10 7 06 A station with a make busy key restriction and using the CFBL feature for termination treatment can also have the regular CFBL feature CFILB 0 However the alternate destination then receives both busy line forwarded calls and make busy forwarded calls because the same CFBL DN is used in both cases 707 When a restriction is activated against an individual station existing active restrictions affecting the station remain effective Likewise when a restriction is deactivated all other active restrictions against the station remain effective If a station has an active restriction and its alternate destination is also under an active restriction with an alternate destination then multiple call forwarding can take place 7 08 8 RESTRICTION CAPABILITY 8 01 Not applicable INCORPORATION INTO SYSTEM 9 INSTALLATION ADDITION DELETION 9 01 Refer to Fig 1 for an illustration showing the implementation procedure for the FICR feature Refer to Part 18 for testing 10 HARDWARE REQUIREMENTS Note This part contains cost factors and determination of quantities Central Office Equipment Engineering System COESS Plannin
76. g and Mechanized Ordering Modules are the recommended procedures for developing these requirements However for planning purposes or if COEES is not available the following guidelines may be used It is recommended that entire master scanner rows be dedicated to RMB and GMB keys or to TMB keys rather than mix them with other types of MSN assignments This conserves both program store memory and system real time 10 01 10 02 The SD 1A210 01 remote master scanner applique circuit order codes 10470 10471 10472 or 10478 is wired eight circuits per unit on a miscellaneous trunk frame One circuit is required for each key restriction and is connected via a wire pair or equivalent In lieu of a physical 11 Feature ESS tion b c 5 ing ble Incom Flexi ISS 1 SECTION 231 090 300 1uVd 335 51531 303439 s oH 31IuM 089 553 Vi ON 30 553 ON SIHL SI ON SNOILV1S GIAIONI 0 X19 X19 u04 S3uNLV34 0381530 HLIM SNOIIV1SNVHI 3 11 IINA 508 815 156 1935 985 811 152 1935 3NI1 2u 9104094 W2IJ 10 se1npe oig NOISN31X3 X19 N9ISV 608 815 152 011935 155 811 156 011935 NOISN31X3 X19 N9ISSV 608 815 152 1935 188 811 152 011935 5318 1 190 32135 608 818 182 011935 6 811 162 011935
77. ge c Use the VFY CSTG 34 input message to verify the common block entries for the customer s MLG The system response to this message is a TR15 output message d Use the VFY CSTG 35 input message to verify the common block entries for the customer s centrex group The system response to this message is a TR17 output message e Use the VFY CTSG 36 input message to verify the hunting list of the customer s MLG The system response to this message is a 16 output message f Use the VFY XDGNT input message to verify that the customer s centrex digit interpreter tables contain sub subtype 11 final data for the attendant override code The system response to this message is a TR18 output message g Use the VFY MSN input message to verify the master scanner number translation s for customers using the make busy key control method of slumber service The system response to this message is a TR12 output message 14 OTHER PLANNING TOPICS 14 01 Certain methods of restriction and termination treatment may be more economical or feasible than others for a given application There are no hard and fast rules for determining the best method however some guidelines are given in paragraphs 14 02 through 14 06 Flexible Incoming Call Restriction Feature ESS ISS 1 SECTION 231 090 300 14 02 If a station is not a hunt MLG and cannot be part of a nonhunt MLG does not have terminating data in common wit
78. ge Table OLNSRSDP OLNS Originating Line Number Screening Restricted Billing Display Table OLNSTARS OLNS Toll and Assist Billing Restriction Table OMACC Operational Measurements Accumulator Table OMACCESS Operational Measurements Group Access Table OMACCFLD Operational Measurements Accumulator Field Table OMACCGRP Operational Measurements Accumulator Groups Table OMACCKEY Operational Measurements Accumulator Key Table OMACCTOT Operational Measurements Accumulator Total Table OMDEV Operational Measurements Device Table OMGRPORD Operational Measurements Group Order Table OMPRT Operational Measurements Printer Table OMREPORT Operational Measurements Report Table OMTAPE Operational Measurements Output Recording Table OMTHRESH Threshold Alarms Table OMTOTAL Operational Measurements Totaling Table OOCBILL OOC Overseas Billing Restrictions Table OPENANI Open Numbering Plan ANI Table OPMINV Outside Plant Module Inventory Table OPRCMPLX Table Operator Complex and Unit ID Table OPRDAT TOPS Operator Data Table OPRINFO Operator Information Table 55 Short Name Title OPRPRFX ITOPS Operator Automatic Prefixing Table OPRTRANS TOPS Operator Translations Table OPTCTL Option Control Table OPTOPT Incompatible Options Table OPTTREAT Optional Treatment Table OSSAIN 5 Call Queue Profile Table ORIGRC TOPS Point to Point Rating Originating Rate Centers Table OSCVLGRP OSSAIN Centralization Voice Link Group Table OSIPARMS Open
79. h other stations the DSMB or even the disable ringer or CFV methods must be used for restriction 14 03 nonhunt MLG should be formed when 15 or more of a customer s stations satisfy the requirements of a nonhunt MLG A hunt MLG should be formed when there are eight or more stations in a hunt sequence If it is essential that a station have more than one make busy restriction it must be placed in an MLG 1404 If is to be used the following guidelines apply a GMB should be used for a group restriction when an entire MLG is to be affected by the same restriction and is to use the same alternate destination b RMB should be used for a group restriction when five or more but less than all stations are to be affected by the same restriction and are to use the same alternate destination general RMB should be used for a customer s larger group restrictions c TMB should be used with hunt MLG for individual restrictions for group restrictions when RMB keys are exhausted and when the same alternate destination is to be used d DSMB should be used with nonhunt MLG for individual restrictions for group restrictions when RMB keys are exhausted and when the same alternate destination is to be used 14 05 Use of the make busy key method without the CFBL feature should be avoided Providing alternate destinations that provide useful information to the caller will increase the completion rate a
80. hat are used for the regular CFBL feature B Attendant Emergency Override 3 11 business customer station with an active make busy key restriction and that is not off hook be reached by the attendant attendant accomplishes this by prefixing a special 1 to 3 digit code to the extension number of the desired station The attendant can also extend calls to the restricted station in this manner The special code has the effect of overriding any active restrictions and prohibiting line hunting All other aspects of the call remain the same as a normal nonprefixed call to the station TELEPHONE COMPANY 3 12 Not applicable 4 SYSTEM OPERATION HARDWARE 4 01 Each make busy key requires an SD 1A210 J1A033GA remote master scanner applique circuit A key device is needed on the customer s premises and a wire pair or equivalent is required to connect the key device to the applique at the central office 4 02 If used for the alternate destination additional SD 1A218 J1A032DC or J1A084DC or SD 1A221 J1A033DT or J1A088DT announcement circuits may be required If no alternate destination CFBL DN is provided additional SD 1A218 busy tone circuits may be required OFFICE DATA STRUCTURES A Translations 4 03 The translation layouts relevant to the FICR feature are summarized in Table A See references 2 A 4 and 6 in Part 18 for detailed descriptions of the translation data B Parameters
81. hing GDS CKLs with GOC CKLs CWLs See section D for details on this algorithm As a result of the matching process the Status Reporter knows which GOC CKL to post when a CKL completion is received from GDS GDS users must make sure that the ID logged on LOOP2 is the same as the ID logged in if matching of GOC GDS CKLs is to function correctly 3 Posting Information for CKL level dates The OSSCWL screen displays the CKL jeopardies jeopardy removals and date completions passed by GDS to both CIMAP SSC and GOC via the Status Reporter After logging the CKL locations in the IA database GDS autocompletes DVA at the CKL locations for jobs with a status of pending load PLD or pending auto complete PAC Work Requests are built in GDS and placed in a dispatch work pool When the dispatch work is completed GDS posts the PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 55 32 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 56 CKL DD completions to the Status Reporter The Status Reporter informs CIMAP SSC of the completion which is displayed on OSSCWL and also sends the completion to GOC if the GDS locations are matched with GOC CWL LOG entries for all postings are made if the option is set to Yes in the SSC OPTIONS table CIMAP SSC can manually add locations on the OSSCWL forma
82. ice Code SVC MOD CAC CAC TIRKS Circuit Access Code CUS NAME BILL NAME TIRKS Billing Customer Name TEL TEL TIRKS Billing Telephone Number CKLLOC co TIRKS Local Serving Office CLLI Code RSP TSP TSP TIRKS Restoration Priority ACNA CNA TIRKS Access Carrier Name Abbr wc GDS SOAC P1 P2 Wire Center NAME GDS SOAC or TIRKS Customer CKL TEL CKL TEL GDS 5 or Customer Telephone Number CKL ADDR CKL ADDR GDS SOAC or TIRKS Customer Address LOC LOC GDS SOAC CKL Customer Location NCI NCI GDS SOAC Network Channel Interface DAA AA DAA AA GDS Dispatch Administration Area Allocation Area RTE RTE GDS Route Code FAC FAC GDS SOAC Local Facility Identifier CABLE CABLE GDS SOAC Local Facility Cable PAIR PAIR GDS SOAC Local Facility Cable Pair BP BP GDS SOAC Local Facility Binding Post COLOR COLOR GDS SOAC Local Facility Pair Color TERM ADDRESS TERM ADDRESS GDS SOAC Local Facility Terminating Address Fields required in SSC to perform handoff to GDS Note 1 The Source Column indicates those system s which are responsible for the fields that required to build a circuit record within circuit history at time of Service Order Completion Either system can be the primary data source The source is determined by the information which was received last 2 GDS SOAC indicates that the information stored in circuit history was received
83. ing nonhunt and for TMB a list of the individual stations terminals affected by the key With the RMB scheme the stations affected by key are identified in the MLG hunt list With the DSMB and TMB schemes each station affected by a key has the MSN stored in its LEN and DN translations 4 09 With all of these features the position active or inactive of each key is detected at its associated MSN s ferrod TMB RMB and GMB schemes require supervisory scan points whereas DSMB usually uses directed scan points A supervisory scan detects each change in the position of key for the TMB RMB and GMB schemes For RMB this causes an RMB active Page 5 Flexible Incoming Call Restriction Feature ESS SECTION 231 090 300 TABLE A FICR FEATURE TRANSLATIONS TRANSLATION DATA AFFECTED LEN and or DN auxiliary Stores MSN in sleeve lead annex METHOD OF RESTRICTION OR TERMINATION TREATMENT MAKE BUSY KEY Directed Scan Make Busy MLG hunt list Sleeve lead indicator LEN auxiliary block Stores MSN in sleeve lead annex MLG hunt list Sleeve lead indication Terminal Make Busy UTYP 54 auxiliary block Stores base MSN for row of keys MLG common block RMB feature indicator MLG hunt list Indicates which RMB key affects each terminal MSN auxiliary block Stores associated MLG MSN auxiliary block Stores MLG and list of affected termi
84. m an associated MLG station In addition 200 20 N cycles per activation or deactivation where N is the number of individual stations controlled by the key are consumed 3 For RMB 20 cycles per call placed to an associated nonhunt MLG station In addition 100 cycles per activation and 200 40 N cycles per deactivation where N is the number of individual stations controlled by the key are consumed 4 For GMB 100 cycles per activation or deactivation of restriction 5 For termination treatment 200 cycles if a CFBL DN is used 11 13 The cycle time in No 1A ESS is 0 7 usec 12 DATA ASSIGNMENTS AND RECORDS TRANSLATION FORMS 12 01 There are no new ESS translation forms or form entries for the FICR feature Standard form entries on the following ESS forms Page 14 are required to implement the FICR feature See reference C 1 in Part 18 a ESS 1101 Directory Number Record is used to identify the DNs belonging to the customer s MLG or centrex group This form contains the CFILB option indicator b ESS 1107 Supplementary Information Record is used to record CFBL CFUS TMB and DSMB MSN options c ESS 1109 Centex Group Record provides records of the business customer features and access codes The attendant emergency override entry sub subtype 11 is made on this form d ESS 1115 Multiline Group Record is used to maintain records of both hunt and nonhunt MLGs in C
85. nals Random Make Busy DN auxiliary block Contains CFBL feature indicator and CFBL DN Contains CFBL feature indicator and CFBL DN Group Make Busy Call Forwarding Busy Line MLG common block Options Call Forwarding Unrestricted CFBL DN word CFUS option indicator Source CFBL DN word CFILB option indicator Centrex digit interpreter tables Inhibit Forwarding If Line Busy ATTENDANT EMERGENCY OVERRIDE Contains subty pe 18 sub subtype 11 final data for attendant override code Attendant Access to Restricted Station Page 6 indication to be updated the MLG headcell and the affected terminals MLG activity bits to be busied or idled For GMB a GMB active indicator in the MLG headcell is merely updated For TMB the MLG headcell is not altered but the MLG activity bits of the affected stations are updated The DSMB scheme does not use a supervisory scan so no station memory is altered Instead a directed scan is made during each call 4 10 The technique used to detect a restricted station during a call depends upon the feature used to provide the station s restriction See reference A 4 in Part 18 These techniques are briefly described below a Using DSMB Every call placed to or which hunts to a station controlled by this feature performs a directed scan using the MSN stored in the station s line translations If
86. nd decrease the retry rate 14 06 DN used to route calls to the alternate destination can be called directly subject only to normal screening To reduce the likelihood of people calling these destinations unlisted DNs Should be used when desirable Page 15 16 Flexible Incoming Call Restriction Feature ESS SECTION 231 090 300 ADMINISTRATION 15 MEASUREMENTS 15 01 There are no new traffic or plant measurements for the FICR feature However the standard traffic measurements for MLGs business customer groups and CFBL can be useful See reference A 16 in Part 18 for more information on type measurement codes 15 02 The traffic line group measurement can used to count the number of calls to a make busy restricted DN This should only be used for temporary studies since it requires additional program store and call store memory 16 CHARGING AUTOMATIC MESSAGE ACCOUNTING 16 01 Not applicable UNIFORM SERVICE ORDER CODES 16 02 The uniform service order codes for the FICR feature are listed below a FRD Attendant position intercept initial intercept line per FICR group b FRE Control key c FRG Common equipment per group of stations d FRA Each station line equipped SUPPLEMENTARY INFORMATION 17 GLOSSARY 17 01 Not applicable 18 REFERENCES 1801 The following documentation contains information pertaining to or affected by FICR Bell System Practices 1 Section 231 090 070
87. ng Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Signaling Line Maintenance Table Type N5 Subtable Type NTLSO3 NTLSO4 NTLSO5 NTLSO6 NTLSO6 Type NTLSO7 Type NTLSO7 Type NTLSO8 Type NTLSO8 NTLSO9 NTLSO9 Type NTLS10 Type NTLS11 Type NTLS11 Type NTLS14 Type NTLS15 Type NTLS15 Type NTLS16 Type NTLS16 Type NTLS16 Type NTLS20 Type NTLS20 Type NTLS22 Type NTLS22 Type NTLs24 Subtable Subtable Subtable Incoming Subtable Outgoing Subtable Incoming Subtable Outgoing Subtable Incoming Subtable Outgoing Subtable Incoming Subtable Outgoing Subtable Subtable Incoming Subtable Outgoing Subtable Subtable Incoming Subtable Outgoing Subtable Incoming Subtable Outgoing Subtable Two Way Subtable Incoming Subtable Outgoing Subtable Incoming Subtable Outgoing Subtable Incoming Outgoing Subtable Type WINKSIG Subtable Line Time Division Multiplex Table Lines and Thresholds Management Table Log Class Table Log Device Table Log Control Information Table Loopback Trunk Member Table Line Screening Code Flag Table Local Service Provider Information Table Logical Terminal Calls Table Line Trunk Controller Inventory Table Line Trunk Controller P Side Link Inventory Table 51 LTCRINV LTCRPINV LTDATA LTDEF LTDSD LTGRP LTMAP LTPAUX LTPDEF MCCSNBEC MCCSOST MDESTIDX MDN
88. o a designated station or attendant and intra centrex calls to busy tone To provide this type of treatment the restricted station must be in business customer group and have CFUS 0 If the designated station or attendant is served by the same central office the CFBL DN is that of the desired station or attendant Otherwise the CFBL DN must be that of a remote call forward base station When CFUS 0 intra business customer calls are routed to busy tone e Route incoming calls to the business customer group attendant and intra business customer calls to an announcement The restricted station must be in a business customer group and have CFUS 1 CFBL DN must be that of an SECTION FEATURE USED FOR FICR NUMBER TITLE 231 090 070 231 090 073 Queueing for Trunks and Lines 231 090 167 231 090 180 REMOTE CALL 231 090 312 FORWARDING BUSY VERIFICATION OF STATION LINES AND TIE TRUNKS CALL FORWARDING FEATURES QUEUEING FOR TRUNKS AND LINES HUNTING AND NO HUNTING FEATURE unassigned DN in the business customer group extension range The business customer group must have the attendant intercept option v If no alternate destination is provided for the restricted station ie CFBL is not provided restricted calls are routed to busy tone 4 13 414 In most cases restricted calls are routed to the alternate destination just as if they had been
89. old PDO is only one of several possible LMOS pending dispatch out statuses GDS saves the original PDO type PDO PDB PDM and uses it whenever a status needs to revert to pending dispatch In the above examples PDO is used to indicate any of the LMOS Pending Dispatch Out ISTs PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 53 30 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 N L GROUPS UPDATE ANY PLD ANY PDO UPDATE ANY PSC ANY PSC UPDATE ANY JEP ANY HLD Note 1 EST status used to clear a work item in LMOS FST status used to close a work item in LMOS In GDS the EST and FST fields are user populated on the GDCOMP screen PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 54 31 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 1 17 GDS CIMAP SSC Interface This section covers the Interface between CIMAP SSC and GDS for Installation Circuit History and Maintenance Interface for both Installation and Maintenance provides mechanized link between the Special Service Centers on CIMAP SSC and the Dispatch Centers on GDS A GDS CIMAP SSC Installation Flows The CIMAP SSC GDS Installation Interface provides for the passing of CKL tracking information from GDS to the SS
90. ommon Carrier Service Data Table OCCTSINT Equal Access Other Common Carrier Traffic Separation Intersection Table OCDLGRP Operator Centralization Data Link Group Table OCGRP Operator Centralization Group Table OCHOST Operator Centralization Host Table OCHOSTO Operator Centralization Host Queue Table OCIPDL Operator Centralization Internet Protocol Map Table OCOFC Operator Centralization Office Table OCPARMS Operator Centralization Parameter Table OFC Outbound Facility Table OFCAUT Office Auto Provisioning Table OFCCODE Office Code Table OFCHEAD Office Code Head Table OFCRTE Office Code Route Table OFRT Office Route Table OFRT AFR Automatic Flexible Routing Selector AFR Subtable OFRT CND Calling Number Delivery Selector CND Subtable OFRT DCRT Dynamically Controlled Routing Selector DCRT Subtable OFRT DN Directory Number Selector DN Subtable OFRT ISA Integrated Service Access Selector ISA Subtable OFRT MEM Trunk Group Member Selector MEM Subtable OFRT MN Route Selector MN Selector MN Subtable OFRT N Route Selector N Selector N Subtable OFRT N2 Route Selector N2 Selector N2 Subtable 54 Short Name Title OFRT NODE Route Selector NODE Selector NODE Subtable OFRT NOT Route Selector NOT Selector NOT Subtable OFRT NPOS Route Selector NPOS Selector NPOS Subtable OFRT NPOSDN Route Selector NPOS Selector NPOSDN Subtable OFRT Queue Head Selector QH Subtable OFRT RT Re
91. option must be used so that intra business customer calls can also be forwarded to the destination via the CFBL DN b Route calls to announcement The CFBL DN in this case is usually associated with a route index which points to the proper announcement trunk group c Route calls to an announcement with time out to a designated station or attendant The delay announcement capability of the Queueing for Trunks and Lines QTL feature see reference A 3 in Part 18 is used to provide the announcement If the designated station or attendant is served by the same central office as the restricted station it must have the delay announcement capability and its DN must be the CFBL DN served by another central office the CFBL DN can be that of a Page 7 Flexible Incoming Call Restriction Feature ESS SECTION 231 090 300 TABLE B FICR FEATURE DOCUMENT REFERENCES Busy Verification of Lines Call Forwarding Outside Call Forwarding Variable Call Forwarding Busy Line Call Forwarding Don t Answer Call Forwarding Unrestricted Source Inhibit Forwarding If Line Busy Terminal Make Busy Random Make Busy Group Make Busy Remote Call Forwarding remote call forwarding base station whose remote station has the delay announcement capability For business customer group stations the call forward unrestricted source CFUS bit must be set to 1 d Route incoming calls t
92. otice Order Open Resend Completion Message Order Open Print Exception and Resend Order Rejected Print Exception PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 45 22 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 1 15 Data Matching in GDS GDS Designed Data Interface This section describes the GDS designed data interface receiver matching algorithm One of the primary functions of the designed data interface receiver module in GDS is to match the service order data to the design data by using matching algorithm GDS builds work request from job data received off the Service Order Image from either SOAC or the SOP The Work Request data includes order level information customer name billing telephone number due date etc information address USOCS etc and item information circuit ID facilities etc GDS also receives design data circuit end critical dates CLO etc for special service circuits from CIMAP DOC The work request database contains a work request record consisting of an order segment multiple CKL segments and multiple item segments Each segment is a separate work location identified by a CKL address and CKLID Each item segment is identified by a circuit ID The matching algorithm utilizes data in each segment type to identify the correct order CKL item segments to match with
93. r number Completion Date Time in GDS TN CKTID CKTS number of non cancelled lines Handling Code CMP RET indicator SOP Code Correction Flags indicate what if anything is corrected Security Code ORDER STATS field names ORDER STATS field values CORRECTED flag The first ninety characters of the COMMENTS field Appropriate correction information The information that is passed to the SOP will be in FCIF Flexible Computer Interface Format The SOP will then have to process this information to complete the order E Messages 1 3 44 Autocompletion message is sent GDS to SOP via TCM when the user executes successful COMP command This will be message class of 3 with scenario type of A to non TOM SOP will send an acknowledgment message to TCM Every Class 1 or Class 3 message passing through TCM must be acknowledged and the acknowledgment can be either positive negative or warning The acknowledgment here should always be positive if SOP will provide another message back to GDS see 3 For companies wishing to maintain completion status information in GDS an optional response message is sent from SOP to GDS via TCM This message is sent at the same time or shortly after the acknowledgment message to TCM The message contains the SOP s completion date and time order status and some descriptive text This message will be a class 1 and scenario type of Z which is non TCM to
94. ransaction The RBOR is initiated either automatically as part of an LMOS screening rule decision or manually by a user Following BOR MOR receipt a DJI is requested to LMOS to obtain additional trouble data not available on the BOR MOR Transmission of status information from GDS to LMOS This data is automatically sent in the background as the result of specified activities that occur in GDS This provides the LMOS RSA with up to the minute information about the status of trouble tickets Additionally data needed for TREAT processing is provided GDS supports statusing for single jobs and stapled bundles Transmission of closeout information from GDS to LMOS This data is automatically sent in the background following the completion of a ticket This provides LMOS with needed input for TREAT processing Synchronization process to insure that GDS and LMOS maintain the same list of open troubles This procedure is run automatically at user defined intervals for a given maintenance center The process will request the LMOS RCMD DPJ Display Pending Jobs report and compare the active troubles in GDS and LMOS For troubles open in LMOS but not GDS an RBOR request is sent to LMOS to retrieve the relevant trouble data Additionally for cases where the subsequent counts of troubles open in GDS and LMOS do not match an RBOR is requested to LMOS to obtain the most recent version of the trouble data To utilize the synchronization feature entries mu
95. rating in the 10 GHz range The HMC444 evaluation board is ready to operate as it comes just add 5 VDC The HMC444 takes a RF input level of around 5 to 0 dBm multiples the signal eight times and outputs a new RF signal with an output power of around 6 dBm It does all this without any arcane supporting components The HMC444 evaluation board is available for order directly from Hittite This device is handy for monitoring any law enforcement RF signals at around 10 525 GHz X band radar guns operate near this frequency and also some older analog video surveillance transmitters Those video signals can be easily demodulated using standard FM video demodulation techniques once you get it down to a lower frequency You can also monitor those Ku band 13 14 GHz satellite uplink transmissions which operate near the various NFL stadiums Certain cable TV companies also have unencrypted NTSC point to point microwave relay transmissions in the Ku band for when they can t run coaxial cable This is very handy if you don t want to pay for cable TV 58 Pictures amp Construction Notes Constructing the 1 25 GHz phase locked loop oscillator board The Z Comm CLV1 137 is the silver square on the lower right The 8 SMT chip next to it is the Fujitsu MB506 prescaler The 8 pin DIP chip to the left of the CLV1137 is an EL2020 wide bandwidth op amp To the left of that is a MC33171 low power for the PLL loop filter On the
96. re CUG Subtable Call Waiting Feature CW Subtable Dial Call Waiting Feature CWD Subtable Call Waiting Feature CWT Subtable Call Transfer Feature CXR Subtable Display Agent Status Key Feature DASK Subtable Call Reference Busy Limit Feature DBC Subtable Deactivate Conference Facility Feature DCC Subtable Directed Call Park Feature DCPK Subtable Direct Dialing In Feature DDI Subtable Denied Incoming Feature DIN Subtable Deny Malicious Call Termination Feature DMCT Subtable Do Not Disturb Feature DND Subtable 47 KSETFEAT DOS KSETFEAT DQT KSETFEAT DRING KSETFEAT DROP KSETFEAT EBO KSETFEAT ECM KSETFEAT EMK KSETFEAT EMW KSETFEAT FAA KSETFEAT FC KSETFEAT FCTDINT KSETFEAT FXR KSETFEAT GIAC KSETFEAT HF HFMUTE MUTE SOFTKEY KSETFEAT ICM KSETFEAT INSPECT KSETFEAT ISA KSETFEAT JOIN KSETFEAT KSH KSETFEAT LMOH KSETFEAT LOB KSETFEAT LOCAL KSETFEAT LPIC KSETFEAT LSPSO KSETFEAT LVM KSETFEAT MBSCAMP KSETFEAT MCH KSETFEAT MCI KSETFEAT MIPHONE KSETFEAT MRFM KSETFEAT MSB KSETFEAT MWIDC KSETFEAT KSETFEAT MWT KSETFEAT NDNAP KSETFEAT NGTSRVCE KSETFEAT NRS KSETFEAT OBS KSETFEAT OLS KSETFEAT PBL KSETFEAT PCACIDS KSETFEAT PF KSETFEAT PIC KSETFEAT PRK KSETFEAT PRL KSETFEAT PRV KSETFEAT QBS KSETFEAT QCK KSETFEAT QTD KSETFEAT RAG KSETFEAT RMB KSETFEAT RSUS KSETFEAT SACB KSETF
97. restricted station is an advantage over earlier forms of the FICR feature Attendant override is accessible only by attendants and can be used to reach any restricted station in the business customer group 6 06 The FICR feature is generally not applicable to 2 party or multiparty lines because most of the features used to implement the FICR feature are not available for these lines However the DSMB and CFBL features are available for 2 party and multiparty lines but the same scan point and CFBL DN must be used for each station on such aline Thus all stations are simultaneously affected by the make busy key 6 07 The following limitations apply to the make busy key method of restriction a The number of DSMB and TMB keys or the number of stations controlled by such keys is limited only by the available scan points applique mounting space and memory or for TMB by the number of MLG stations Any number of stations can be affected by the same DSMB key and up to 20 stations can be affected by the same TMB key Each individual station can be associated with only one such key and cannot be controlled by both a DSMB and a TMB key b The number of RMB keys or the number of stations controlled by such keys is limited by either the available master scanner points applique mounting space and memory or by the number of MLGs Each MLG station can Page 9 10 Flexible Incoming Call Restriction Feature ESS SEC
98. reviously handed off the message SSC REESTABLISHED HANDOFF MADE PREVIOUSLY is placed in the comments field In both cases a manually added or previously handed off work request all values from the handoff message fields are moved into the work request with the exception that the wire center and route field are only moved in when the message fields are non blank and the work request fields are blank Since the work request might be in any status at this time e g DSP PRE etc positive acknowledgment is sent to SSC with one of the following messages as appropriate PREVIOUS SSC HANDOFF REESTABLISHED 5 HANDOFF ESTABLISHED ON JOB ADDED MANUALLY IN GDS PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 38 eneric Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 3 62 60 55 MT DETERMINES DISPATCH REQUIRED GDMSWR OSSTR GDLST DESTINATION BUILD WORK ADD T CLL CODE REQUEST TROUBLE PERFORM HDD STATUS PLD ACKNOWLEDGE HANDOFF OSSLOG GDDISP LOG TROUBLE DISPATCH TECH REPORT STATUS STATUS DSP GDS STATUS ED COMPLETION COMPLETES MT COMPLETES REPORT UPDATE CIRCUIT COMPLETION INFORMATION STATUS CMP i 1 THEHANDOFF HDD 1
99. rk Customer Table PVDNCUST AGENTS Private Virtual Data Network Customer Agents Subtable PVDNCUST CONNECT Private Virtual Data Network Customer Connect Subtable PXCODE Prefix Code Table PXHEAD Prefix Code Head Table PXLAMAP ISDN Pre Translation Map Table PXRTE Prefix Code Route Table OAPLNDEF Queue Management System Application Definition Table QCLASS ITOPS Automatic Call Distribution Call Classes Table QDEF ITOPS Automatic Call Distribution Call Queues Table QMSCQDEF Queue Management System Call Queue Definition Table 5 5 Queue Management System MIS Link Definition Table OMSTOPS Queue Management System TOPS Initial Call Type Assignment Table QPROFILE ITOPS Automatic Call Distribution Operator Call Handling Table QPROP ITOPS Automatic Call Distribution Call Properties Table QTO QT5D OOC Day Queue Length Threshold Table QTO QT5H ITOPS Queue Length Threshold High Traffic Table QTO QT5L ITOPS Queue Length Threshold Low Traffic Table QTO QT5N Night Queue Length Threshold Table OTHRESH ITOPS Queue Threshold Limits Table QTTIDXD Day Queue Length Threshold Table Index Table QTTIDXH ITOPS Queue Length Threshold High Traffic Table Index Table QTTIDXL ITOPS Queue Length Threshold Low Traffic Table Index Table OTTIDXN OOC Night Queue Length Threshold Table Index Table R2BILSRV R2 Billing Service Table R2CLGSRV ITOPS Mapping R2 Trunk Signal to Table ITOPSERV Index Table R2PROT R2 Protocol Description Table RADR Receiver Attachmen
100. rt 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 When the old interval has expired and the job has not yet been dispatched any portion of the old interval that falls between the handoff receipt time and the CURRENT time will be added to the T DSP NA field If the old interval has expired and the job has been dispatched that same portion of the old interval will be added to the DSP T CLR NA field The new interval fields will then be moved into the interval fields on the work request In the situation where the old interval has not yet expired the old interval will be left as is A narrative describing the new interval will be placed in the work request COMMENTS field The system message flag will be set to Y to ensure that GDS user sees the comments by automatically jumping to the GDCOMM screen upon an attempt to dispatch or complete the job When the first interval is no longer operational the user must manually update the interval fields on GDMSWR with the values shown in the COMMENTS field However to ensure that the first interval is accounted for in the appropriate duration field s it is important that the first interval be processed using normal methods i e handled at the time of dispatch reject return etc as described above 2 Cancellation of Handoffs Trouble Reports handed off to GDS may be cancelled by CIMAP SSC or GDS After CIMAP SSC performs handoff to GDS SSC can cancel it by using the
101. s State Education Department spokesman Tom Dunn defended the scoring All teachers who score exams receive clear training and rubrics that detail scoring criteria for every question on the tests he said Students who show work and demonstrate a partial understanding of the mathematical concepts or procedures embodied in the question receive partial credit But a few extra points can let a failing kid squeak by A year ago Chancellor Joel Klein boasted that the city was making dramatic progress when 82 percent of city students passed the state math test and 69 percent passed in English up sharply from 2002 And fewer kids have been left back in recent years What officials didn t reveal was that the number of points needed to pass proficiency levels has in most cases steadily dropped The state Board of Regents which oversees the tests has postponed the release of results until late July but let the city Department of Education set its own promotional cut scores to decide which kids may be held back The DOE will release those scores in the next two weeks a spokesman said 80 MUSLIMS Three o clock time to pray no matter what LOL Soccer 81 Peter Le L Ohh Look Muslim terrorist goatfuckers in the U K are using wireless microphones during their little rallies sure hope nobody finds that particular frequency and transmits any rude messages or squealing pig nois
102. s basically phone switch data which logs a call desination routing length etc It does NOT record any audio of the actual call Sure the NSA doing this is shady but it s hardly the end of the world Well look what found in an unlocked dumpster DMS switch DCR data Feel free for anyone to use this fact to counter any stupid EFF lawsuits FIRST COLUMN IS DMS 250 FIELD NUMBER REFER TO NTI 297 2621 119 TABLE 4 B 24 ORIGDATE 222 AUG 10 96 ORIGTIME 19047 15 52 21 98 DISCTIME 19057 15 52 51 12 CALLDUR 18 00 00 18 16 COLLTIME 9 90 00 00 15 DIALEDNO 8008925563 17 CALLEDNO 4142460900 39 BILLNUM 8008925563 40 ACCTCD NULL 10 ANISP 4045225673 26 TRTMTCD 0 NO TREATMENT 04 ANSTYPE 4 HARDWARE ANSWER 14 COMPCODE NORMAL CALL 31 ORIGGRP 1241 MC7CHCGSPRD8 32 0 EM 9236 35 T 54 MSEMILW611U0 36 TF EM 0143 29 ANISUFF 4 TRUE 1 21 ADIN NULL NOT USED 37 COSOVE N 03 9 NO PFX 02 DISCDATE 222 AUG 10 33 DIGDATA N NOT USED 25 FINSID 000 38 FINTKGRP NOT SS7 CALL 11 INFODIG IDENTIFIED LINE 20 001 22 001 05 0 05 NULL 19 PREDIG 0 07 QUEUED N 01 FO 18 29 28 RTELIST 0072 23 SEQNUM 903260 30 DISCTYPE 0 09 TIMECHNG 27 01 34 TRAP N 13 UNIVACC NULL 76 End of Issue 74 Any Questions Editorial and Rants
103. sed The entire circuit ID is used If the rule is met the order CKL and item segments are updated with the design data 3 JOBID CKL address and circuit ID W3 PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 46 23 Generic Dispatch System Release 3 1 User Manual Part 3 10 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 If the CKLID is not provided the CKL address is used as an alternative match field for the CKL segment t must be an exact match The entire circuit ID is used If the rule is met the order CKL and item segments are updated with the design data JOBID circuit end CKL action and circuit ID W4 If the incoming message does not provide a CKLID and the work request also does not have a CKLID an attempt is made to match by the existing circuit end A or Z and CKL action This reduces the number of items that may be erroneously built for that if the CKLID is not involved in the match The entire circuit ID is used if the rule is met the order CKL and item segments are updated with the design data Communication with the Status Reporter is prevented since the CKLID is a required field for the status reporter interface The circuit ID used via the index consists of two portions a family portion and a segment portion The family portion consists of the prefix service code modifier area code office line and extension for telephone formatted
104. ss Code Compatible Table Minimum Maximum Digits and Ambiguous Code Table IBN Meet Me Conference Table Metering Network Attributes Table Mobile Centrex Provisioning Table Modem Protocol Name Definition Table ITOPS Rating Charge Calculator Day Charge Modification Map Table ITOPS Rating Charge Calculator Time Charge Modification Set Table Mobile Incompatible Options Table Multi Party Bridge Inventory Table Multi Protocol Controller Table Multi Protocol Controller Fast Applications Table Multi Protocol Controller Link Table Multi Protocol Controller Login Table Multi Protocol Controller Linkset Table Multiple Position Hunt Console Table Multiple Position Hunt Group Table Maintenance Q Limits Table List of Multi Unit Message Rate Area Names Table Message Switching Buffer Inventory Table Message Switching Buffer P Side Inventory Table Message Switch Cards Inventory Table Metering Source Data Table Message Switch Firmware Load Table PRA Facility Message Routing Table Message Switch Inter MS Link Inventory Table Message Switch Inventory Table Metallic Test Access Horizontal Connection Table Metallic Test Access Minibar Driver Table Metering Tariff Index Table Metering Tariff Number Table Metering Tariff Table Metallic Test Access Vertical Connection Table Maintenance Failure Messages Table Maintenance Failure Messages Table 52 Short Name Title MTD Magnetic Tape Device Table MTSIGSYS Hardware Metering for Trunks
105. ssary to provide approximations This is particularly true when specifying PS and CS memory and system cycle timecosts Frequently the possible data combinations and program sequences are too complex for exact Page 12 numbers to be provided However these approximations should be adequate 11 02 following cost data for controlled Stations assumes that all other characteristics of the station have been taken into account For example if a DSMB key requires two additional words per LEN this assumes the LEN already requires an auxiliary block If the LEN were abbreviated the PS word cost of going to an auxiliary block must be added to the two words Similarly the PS word cost of rearranging individual non MLG stations into a nonhunt MLG must be taken into account Usually this amounts to about 1 additional PS word per station plus 20 PS words and 4 N 16 CS words 11 03 Other general cost items not covered in the following breakdown include those for the alternate destination dedicated lines and DNs and the associated memory announcement channels and trunks and their associated memory addition the basic overhead nonstation related costs of providing features such as CFBL must be taken into account MEMORY A NO 1 ESS Fixed 11 04 None v Conditional 11 05 None Variable 11 06 The following memory is required when the feature is added on a per individual line or MLG basis using th
106. st be made in the GDCRON table and the TTS table GDS SYNCH OPTS Y Testing support for MLT loop and full tests and PST list processing For more information on automatic loop testing see the section entitled Automatic Loop Testing B Interface Architecture There are two alternative methods available for implementation of the GDS LMOS Interface Refer to Figure 3 6 The first architecture involves the implementation of an IBM Series 1 Machine referred to as a Link Processor LP that sits between the LMOS FES and the GDS Host The Series 1 contains IBM and Bellcore developed software that provides protocol and format conversion as well as message routing functionality The second architecture involves the implementation of DCOMM TCIS software on the GDS Host DCOMM TCIS performs the same functions as the Link Processor thereby eliminating the need for Series 1 hardware Both architectures require the use of the Operation Interface OT software module on the GDS Host OI provides the means through which the GDS application can communicate with LMOS PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 49 26 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 For more information on OI refer to Operation Interface OI Administrative Guide BR 190 539 009 m e Operations Interface OI On Line Message Directory BR 190 539
107. t e The alternate destination 3 02 Any station can be associated with a make busy key restriction Calls can be made as usual on the restricted station but no visual or audible indications are received when calls are placed to its number Page 3 Flexible Incoming Call Restriction Feature ESS SECTION 231 090 300 3 03 association between this restriction method and its affected station s and the alternate destination can be changed only via arrangements with the telephone company 3 04 Each restriction requires a 2 position device for activation and deactivation The device hereafter called a key can be an otherwise unused button on a keyset call director or console or a switch attached to a telephone or adjacent box 3 05 One of the key positions is the restriction active position When a key is placed in this position the associated station s is immediately restricted The restriction remains active until the key is restored to the inactive position At this time any associated station can immediately receive calls provided it is not under control of another active restriction 3 06 After the directory number DN of restricted station is dialed the calling party immediately receives audible ringing tone until the alternate destination answers the alternate destination cannot be reached busy tone is received and continues until the calling party hangs up The called restricted st
108. t Completions and jeopardies can be posted for these manually added locations from OSSCWL and for GOC CKLs CWLs that are not tracked by GDS The SSC will post item level date completions after all work at the CKL CWL level has been completed Item level date completions will be blocked if there is outstanding work at the CKL CWL level The final step is posting DD completions after all work associated with installing the circuit is finished and the service is accepted by the customer The Status Reporter notifies GDS that the circuit is In Effect IE GDS then passes Circuit History information for the circuit end locations to CIMAP SSC This information is placed in the Operations Circuit History database This activity is explained in detail in the next section PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 33 Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 TIRKS SYSTEM informa Ori tion Passed to CIMAP and GDS WORD e Data to prime DBs GOC CKLs CWLs CIMAP DOC passes CKL Level Information GDS also receives information from SOAC 5 55 Receive Data and Begin Screening Dispatch work is GDS mr CKL Information generated by GDS e CKLID e CKL Location Codes END 0 2 Objective Dates e Tracking Fiag
109. t Delay Recorder Table RAINV Resource Aggregate Inventory Table RALNK Resource Aggregate Link Table RAO TOPS Domestic RAO Codes Table RAOCHECK TOPS RAO Check Table RASLAPPL Robust Application Session Layer Application Table RATEAREA Rate Area Table RATEMOD TOPS Rate Break Map Table RBKMAP TOPS Rate Break Map Inactive Table RBKMAPI TOPS Rate Break Set Table RBKSET TOPS Rate Break Set Inactive Table RBKSETI Remote Cluster Controller Inventory Table RCCINV Remote Cluster Controller P Side Link Inventory Table RCCPSINV Remote Call Forwarding Calling Line Identification Table 57 X Band Receive Converter This is a device which will allow a person to monitor the X amp Ku band frequency ranges 8 14 GHz using conventional low frequency receivers or RF test equipment The converter works by mixing an incoming frequency with a clean low noise phase locked 10 GHz local oscillator signal The Intermediate Frequency IF output of the RF mixer will then be in the DC to 3 0 GHz frequency range Overview Constructing a phase locked 10 GHz signal source will be the most difficult part of this project There is a simple solution though Hittite Microwave Corp makes a very nice chip and matching evaluation board called the HMC444 x8 Active Frequency Multiplier What this component does is multiple an incoming frequency between 1 2 1 5 GHz eight times for a new output frequency in the 9 6 12 GHz range So by inputting a phase locked R
110. table defines interface options for each SOP Entries in this table are used to determine the TCM SEC System Entity Code for a SOP The determination to send or not to send orders to SOP is also made in this table Options for the autocompletion of corrected orders are also defined in this table d GDS SOI PARSE This table will be built using the SOP as the Table Key and the parse option AC AutoComplete as the Table Record Key The center should be blank GDS SOI PARSE is used to determine which sections of the service order may be viewed on GDCMP2 during the completion process 2 Entries in the GDSOP GDS Service Order Processors table will determine to which SOP completion information for a wire center and CSC should be sent The DELMIN and DELOFF entries determine respectively the length of time a message should be held in TCM before being passed to the SOP if the order is delayed and the time of day at which completion information should be sent immediately regardless of the DELMIN entry C Completion Process Several fields relating to the autocompletion process on the GDCOMP screen will need the appropriate entry to allow the autocompletion to occur PROPRIETARY BELLCORE AND AUTHORIZED CLIENTS ONLY See proprietary restrictions on title page 3 42 19 Generic Dispatch System Release 3 1 User Manual Part 3 BR 190 539 311 Issue 6 August 1989 GDSR 3 1 1 SOP flag determines whether a message
111. taken at the mixer s IF output 72 803042 24 13037 5 MHz 13 0375 GHz Ku band point to point relay link transmitter for a local TV station Using this converter project you can monitor video transmissions if you are in the link s beamwidth The downconverted frequency would be 3 0375 GHz Analog video links which are getting to be rare are often just standard NTSC while digital links can be in the standard MPEG 4 format To view an analog 5 transmission you d need to further downcovert the IF output frequency to something your TV can receive 100 900 MHz or so To view a digital transmission you d need to apply the IF output frequency to the input of a C band satellite receiver capable of decoding standard MPEG 4 format You may need to further downconvert the signal if the receiver requires something between 950 1450 MHz The more advanced student should note that this process also works in reverse Say should you ever need to broadcast a quick video or audio message to the audience of your local TV station 73 i 5 WYO OS zz 4 _ aa F Sf 4 m T m oN T 1 PINOYS siorsisag 31101 f JH Jon vOGENC amp J8 E2S8Jd o rx 099 121 0 E 9 5 001 5 1 i 501 7T PEE
112. the Scan detects a busy condition a scan point busy indicator SPBI is set in call store denoting that an active restriction was encountered during the call At this point any hunting in progress resumes however if the station is not part of a hunting arrangement or if the hunt is completed the call proceeds to an all stations busy stage b Using GMB Every call placed to a station which is controlled by this feature examines the GMB active indicator in the MLG headcell to see if the GMB restriction is active so the SPBI is set and the call proceeds to the all stations busy stage c Using TMB When a call is placed to an individual station which is controlled by this feature but which is not part of a hunt MLG the call proceeds as with DSMB Unfortunately when the TMB feature is used with stations which are part of a hunt MLG detection of an active restriction is often not possible during a call In particular it is not possible if a station s activity bit is busy therefore the SPBI cannot always be set properly However the line will appear busy so no calls can terminate to it d Using RMB When a call is placed to an individual station which is not part of a hunt MLG the RMB active indicator in the MLG headcell is examined If it indicates the station is affected by an active RMB restriction the SPBI is set and the call proceeds to the Flexible Incoming Call Restriction Feature ESS ISS
113. tion examined during a hunt Therefore the DSMB method should be used cautiously with hunt MLGs 2 For 100 cycles per call placed to or from an associated MLG station In addition 100 10 N cycles per activation or deactivation where N is the number of individual stations controlled by the key are consumed 3 For RMB 10 cycles per call placed to an associated nonhunt MLG station In addition 50 cycles per activation and 100 20 cycles per deactivation where N is the number of individual stations controlled by the key are consumed Page 13 14 Flexible Incoming Call Restriction Feature 1A ESS SECTION 231 090 300 4 For GMB 50 cycles per activation or deactivation of restriction 5 For termination treatment 100 cycles if a CFBL DN is used 11 11 The cycle time in No 1 ESS is 5 5 usec B No 1A ESS 1112 The real time costs for the make busy key method of restriction are as follows These costs are above those incurred on calls to and from unrestricted stations or stations which do not have FICR 1 For DSMB 200 cycles per call placed to or from an associated non MLG station or 300 cycles per call placed to or from an associated MLG station Note that 300 or more cycles are consumed for each associated individual MLG station examined during the hunt Therefore the DSMB method should be used cautiously with hunt MLGs 2 For TMB 200 cycles per call placed to or fro
114. tiplier circuits 68 lt gt L 3 lt lt Mounting the Magnum MO64 mixer and HMC444 evaluation board 5 VDC power for the HMC444 active multiplier comes in via the SMA connector on the right side of the board The HMC 444 evaluation board has some double sided foam tape on the bottom of the board to prevent it from flopping around 69 rs piu DENG EPA MAC Mounting the 1 25 GHz oscillator module to the side of the case 70 Overview of the front panel and 1 25 GHz oscillator to 444 board connections A high quality N connector will be used for the microwave RF input A BNC connector is used for the IF output A phono jack is used for the modulation input A green LED indicates when the PLL is locked 71 Finished case overview The RF input is via the N connector which has a protective shell from an old PL 259 connector The downconverted IF output is via the BNC connector Any optional modulation signal for the VCO will be via a phono jack mounted under the BNC connector The green PLL Lock LED starts out dim when initially powered but glows brighter when the PLL locks A PLL Unlock LED might have been a better choice To operate the converter apply your X band or Ku band RF signal trying not to exceed 0 dBm to the RF mixer s input It will then be mixed with the 10 GHz LO signal and your new lower frequency signal will be
115. translate Selector RT Subtable OFRT RX Retranslate IBN Selector RX Subtable OFRT S Route Selector S Selector S Subtable OFRT SG Super Trunk Group Selector SG Subtable OFRT ST Same Subtable Selector ST Subtable OFRT SX Route Selector S Selector SX Subtable OFRT T Route Selector T Selector T Subtable OFRT TC Route Selector T Selector TC Subtable OFRT TPBX Route Selector TPBX Selector TPBX Subtable OFRT TRMT Treatment Selector TRMT Subtable OFRT TS Two Stage Selector TS Subtable OFRT UOP Uniform Outpulsing Selector UOP Subtable OFR2 Office Route 2 Table OFR3 Office Route 3 Table OFRA Office Route 4 Table OFCTIID Office Trigger Item identifier Table OFRTMAP ISDN OFRT Route Reference Table OFRTMA2 ISDN OFR2 Route Reference Table OFRTMA3 ISDN OFR3 Route Reference Table OFRTMA4 ISDN OFR4 Route Reference Table OGTMPKEY Outgoing Trunk Multi Purpose Key Table OGTSPKEY Outgoing Trunk Single Purpose Key Table OHBTADMN Off Hook Balance Testing Administration Table OHBTINV Off Hook Balance Testing Inventory Table OHIP Office Hardware Inventory Package Table OHIPBULK Bulk Hardware Inventory Package Table OIASTART Open Information Access Automatic Session Start Table OICBC Office Identification Code Billing Code Table OLNSDARS OLNS Directory Assistance Billing Restriction Table OLNSDFLT OLNS Default Table OLNSEQDP OLNS Service Equipment Display Table OLNSERR OLNS Error Table OLNSLANG OLNS Langua
116. upper right are the 78M05 and 78M12 voltage regulators The 8 pin SMT chip to the left of the voltage regulators is an ICL7660 negative voltage regulator for powering the op amps The EL2020 op amp isn t really needed for this converter project but it will allow you to modulate the VCO if you should ever require A wide bandwidth op amp like the EL2020 also isn t necessary unless you plan to modulate the VCO with a video signal 59 1 5151 2 QVK9T7T09 E C m Overview of the Motorola MC145151 PLL circuitry The passive components for the MC145151 s loop filter are shown just below the MC145151 The 2N3904 transistor on the upper left is for controlling a PLL Lock LED For this converter project the MC145151 will be using an external 10 MHz Temperature Compensated Crystal Oscillator TCXO for generating the MC145151 s reference frequency 78 125 Hz 60 Overview of the completed 1 25 GHz phase locked loop oscillator board The blue multiturn potentiometer in the middle is for adjusting the deviation of any optional modulating signal There are two feed through capacitors lower right for supplying clean 12V and 5V for the TCXO 444 evaluation board Note that the pictures and schematic of this oscillator board will vary due to constant tweaking The schematic will have the correct component values 61 gt 3 a 5 55 UM 55
117. will automatically be sent to the SOP An entry of Y is required for the autocompletion process If N nothing will be passed to the SOP the completion message will be sent for manual completion This flag defaults to the value of ACMP ON in the GDS OPTIONS table SOP will be N for manually added orders orders that have been uncompleted multi term orders and orders with NOTIFY set to If SOP is it can be updated to N however system generated values of N cannot be updated to Y 2 The PR flag determines whether the completion message will be printed If PR is Y the completion message will be printed at the printer designated in the GDS SOC PRINTER or GDS OPTIONS table so that the order can be completed manually This flag defaults to the opposite of the SOP flag If the SOP flag is updated however the PR flag must also be updated i e if SOP is updated to N PR must be updated to Y if a printed completion message is wanted for a manual completion 3 The SOI flag determines whether the service order image will be printed with the completion message If SOT is Y the service order image will be printed with the completion message SOI defaults to N 4 The DELAY field entry is dependent upon the user s desire to have completion messages held in the TOM before passage to the SOP and applies to an order only if the user indicates that it should A Y entry will then take the DELMIN value previously establish

Flexible Incoming Call Restriction Feature / #1A ESS

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