User Manual
Contents
1. 00 10 RST Reset o 11 SDA 2C Serial Data o 13 SCL 120 Serial Clock SCL 2C Serial Clock A O 14 HREF Horizontal Window Reference x O 15 AGND Analog Ground iO 16 VSYN Vertical Syne K O 17 AGND Analog Ground 18 PCLK Pixel Clock o 19 EXCLK External Clock oO 20 VCC 5 VDC a 21 AGND Analog Ground o 22 VCC 5 VDC 23 30 UV0 UV7 Digital output UV bus ad 31 GND Common Ground 32 VTO Video Analog Output 75 Ohm Servo Port This is the output for the servo The positive signal does not go through a regulator from the board s power input Do not use a servo with the board if the board is being run off of more than 6 volts 3 a Hi Ground Input Servo Port Signal Parallel Processing in Slave Mode Jumper 1 The CMUcam supports a mode of operation that allows multiple boards to process data from the same camera If a PC104 style pass through header is used instead of the standard double row female header it is possible to rack multiple boards along the same camera bus Upon startup if jumper is set the camera becomes a slave Slave mode stops the camera board from being able to configure or interfere with the CMOS camera s settings Instead it just processes the format setup by the master vision board When linking the buses together you must only have one master all other boards should be setup to be in slave mode In this current version of the system there is no message passing between boards other than the imag2. RGB CrYCb ranges from 16 240 l2rgbrgb rgbrgb2rgbrgbr rgbrgb Example of a Frame Dump from a terminal program WARNING This may temporarily interfere with a terminal program by sending non visible characters DF ACK maKP U A IU AL lt gt U A L YL L_ L G AUsonthA YA KMAy098a34ymawvk This command will Get the Mean color value in the current image As with the TC command this function only operates on a selected region of the image The mean values will be between 16 and 240 It will also return a measure of the average absolute deviation of color found in that region The mean together with the deviation can be a useful tool for automated tracking or detecting change in a scene In YCrCb mode RGB maps to CrYCb Type S data packet format S Rmean Gmean Bmean Rdeviation Gdeviation Bdeviation r Example of how to grab the mean color of the entire window SW 1 1 40 143 ACK GM ACK S89 9067563 S 899167562 S 88 90 66 4 62 This command Gets the current Version of the firmware from the camera It returns an ACK followed by the firmware version string Example of how to ask for the firmware version ACK CMUcam v1 11 14 HM active r This command puts the camera into Half horizontal resolution Mode for the DF command and the LM command when dumping a bitmap image An acitve value of 1 causes only every odd column to be processed The default value of 0 disables the mode Il r This command uses the servo port as a digi
3. XX XX XX XX XX XX FD M 45 56 34 10 15 8 raw data FE XX XX XX XX XX XX FD M 45 56 34 10 15 8 16 MM mode r This command controls the Middle Mass mode which adds the centroid coordinates to the normal tracking data A mode value of 0 disengages middle mass a value of 1 default engages middle mass and a value of 2 engages the mode and turns on the servo PWM signal that tries to center the camera on the center of color mass see the Demo Mode Jumper description This mode is good if you want a single point representation of where the object is or if there is too much small background noise to get a good bounding box To switch the direction of the servo it is necessary to set the 2 bit counting from 0 i e bitwise OR in the value 4 of the mode value If the 3 bit is set bitwise OR in the value 8 then tracking a color will return a type N packets that is identical to a type M packet only it contains the current servo position as its first return value see Output Data Packet Description section Example of how to disable Middle Mass mode MM 0 ACK TC ACK C 38 82 53 128 35 98 C 38 82 53 128 35 98 C 38 82 53 128 35 98 NF active r This command controls the Noise Filter setting It accepts a Boolean value 1 default or 0 A value of 1 engages the mode while a value of 0 deactivates it When the mode is active the camera is more conservative about how it selects tracked pixels It requires 2 sequential pixels for
4. a pixel to be tracked Example of how to turn off noise filtering NF 0 ACK PM mode r This command puts the board into Poll Mode Setting the mode parameter to 1 engages poll mode while 0 default turns it off When poll mode is engaged only one packet is returned when an image processing function is called This could be useful if you would like to rapidly change parameters or if you have a slow processor that can t keep up with a given frame rate Example of how to get one packet at a time PM 1 ACK TC 50 20 90 130 70 255 ACK C 38 82 53 128 35 98 17 RM bit_flags r RS r This command is used to engage the Raw serial transfer Mode It reads the bit values of the first 3 lsb bits to configure settings All bits cleared sets the default visible ascii mode If bit 0 is set then all output from the camera is in raw byte packets The format of the data packets will be changed so as not to include spaces or be formatted as readable ASCII text Instead you will receive a 255 valued byte at the beginning of each packet followed by the packet and the packet identifying character i e C for a color packet There is no r sent after each packet so you must use the 255 to synchronize the incoming data Any 255 valued bytes that may be sent as part of the packet are set to 254 to avoid confusion If bit 1 is set the ACK r and NCK r confirmations are not sent If bit 3 is set input will be read as raw byte values too I
5. 2 on the camera bus is a black and white analog output pin It is possible to connect the analog output to a TV or multisync monitor Due to the clock rate of the camera the analog output does not correctly synchronize with standard NTSC or PAL systems If you have some system that can synchronize with a non standard signal it may be possible to monitor the video while processing First it is required that you cut the connection on the CMUcam board between camera bus pins 31 and 32 Then connect the central line on a 75 Ohm coax input plug to pin 32 on the camera bus Next connect the outer shield to the camera s common ground pin 31 on the camera bus Finally power up the camera and adjust the frame rate until you see the best results Most standard TVs can at least see a skewed flickering image when the frame rate clock divider is set to 0 CR 17 0 11 Serial Command Set The serial communication parameters are as follows e 115 200 Baud e 8 Data bits e 1 Stop bit e No Parity e No Flow Control Not Xon Xoff or Hardware All commands are sent using visible ASCII characters 123 is 3 bytes 123 Upon a successful transmission of a command the ACK string should be returned If there was a problem in the syntax of the transmission or if a detectable transfer error occurred a NCK string is returned After either an ACK or a NCK a r is returned When a prompt r followed by a is returned it means that the camera is wait
6. 34 10 15 8 22 Firmware Once the board has been assembled and powered up the firmware can be downloaded using the SX Key downloading program The SX Key downloader and manual are available at www parallaxinc com html_files downloads downloads_sx htm The firmware for the camera can be found at http www cs cmu edu cmucam downloads html Downloading The Firmware After downloading and installing the SX Key software it is necessary to load the CMUcam hex firmware to the board step 1 Turn on the board s power step 2 Ensure that the programming switch is in the program mode pushed towards the LEDs see Assembled view step 3 Plug in the SX key text side facing away from the board for more details see the hardware port section step 4 Open up the SX Key software step 5 Select Device from under the Run menu step 6 Click on the Load Hex button step 7 Go to the directory of the CMUcam hex file and type its name into the dialog box It may not be visible step 8 Press Open to load it step 9 Press the Program button step 10 Once programming has finished turn off the power to the board step 11 Unplug the SX Key and switch the programming switch into the run position step 12 Once the power switch is turned on again the firmware should be running and will greet you with CMUcam v1 11 Troubleshooting If when you tried to program you see or experience SX Key not found Make sure the co
7. CMUcam Vision Board User Manual Contents Introduction Sr Ni nm tie 3 Hardware B atd ANGES tree 4 Assembled VIEW ccnnarccirerecsune tirat ETAn E RAAE Eatas 5 Ports and Jumpers 2e housses iso hotes 6 9 LES ii eee hee 10 About th CAM RA siemens 11 POE ISU PRE RS ER TR TE 24 Schematics sesinin yane EE E ORE amer ter EEA 25 Communication Serial Command Set cccccaceassesensisesasseccavsacearsaceaeias 12 20 Data Packet Description aco casevasoveanesancsavessuanensarean 21 22 Firmware Downloading Firmware 23 Troubleshooting Les rner AE Een tenons 23 This is the CMUcam Manual v1 11 for the CMUcam v1 11 firmware For more information go to http www cs cmu edu cmucam or contact us at cmucam cs cmu edu Copyright 2001 Anthony Rowe and Carnegie Mellon University All Rights Reserved Introduction The CMUcam is a SX28 microcontroller http www ubicom com products processors sx28ac html interfaced with a OV6620 Omnivision CMOS camera http www ovt com omnicmoss htm on a chip that allows simple high level data to be extracted from the camera s streaming video The board communicates via a RS 232 or a TTL serial port and has the following functionality Track user defined color blobs at 17 Frames Per Second Find the centroid of the blob Gather mean color and variance data Transfer a real time binary bitmap of the tracked pixels in an image Arbitrary image windowing Adj
8. a GUI or by graphically interpreting the Dump Frame Packet yourself focus the camera lens Usually the lens is focused when it sits a few rotations out from its closest position to the CMOS array Turning the lens and re dumping the frame incrementally should provide a good feel for when the image is sharpest Try running the camera in demo mode 10 About the Camera From power up the camera can take up to 6 seconds to automatically adjust to the light Drastic changes in the environment such as lights being turned on and off can induce a similar readjustment time When using the camera outside due to the sun s powerful IR emissions even on relatively cloudy days it will probably be necessary to use either an IR filter or a neutral density 3 camera filter to decrease the ambient light level The field of view depends on the lens attached to the camera Amazon Electronics provides a f3 7mm F2 0 lens with a 65deg x 50deg field of view It is possible to special order the camera with wider or narrower lenses Individual lenses can be purchased separately The functions provided by the camera board are meant to give the user a toolbox of color vision functions Actual applications may greatly vary and are left up to the imagination of the user By being able to change the viewable window grab color light statistics and track colors can be interwoven by the host processor to create higher level functionality Analog Video Output Pin 3
9. e PC Receive Scenix Transmit TTL Serial Port This serial port taps into the serial I O before it goes through the MAX232 chip This port may be ideal for communication with a microcontroller that does not have any built in level shifting Note that it may be necessary to remove the max232 chip i ollo olo Olo Ground SX28 Transmit PC Receive SX28 Receive PC Transmit E e ole o ollo ole o ollo i glio m LEZXVW 82XxS 00000000000000 00000000 00000000000000 ollo ollo Programming Port The programming port allows the firmware to be downloaded to the SX28 using a SX Key Blitzer or equivalent programmer These can be purchased from Parallax Inc www parallaxinc com 00 ollo O OSC OSC2 VDD VSS 16 T 0 oog L Circuit Side Up Cle ole o glio Oo o ooo Oo LEZXVW 82XS 00000000000000 00000000 000000000000 O Q O O O 00 Y gt O 0 O 0 O O 00 009 ollo ollo AAAS 7 Camera Bus This bus interfaces with the CMOS camera chip The CMOS camera board is mounted parallel to the processing part of the board and connects starting at pin 1 The female camera header should be soldered on the back of the board See assembled view For information about the Video Analog Output port see page 11 a o 0 Pin Description 7 4 1 8 YO Y7 Digital Output Y Bus 9 PWDN Power Down Mode
10. e data from the camera bus This means you have to communicate to each slave board via a separate serial link This communication to the board should be identical to using a single CMUcam For example you could have the master board tracking some color while the slave board could be told to get mean color data Each board runs independently of one another and only the master can control camera registers Baud Rate Jumper 2 Jumper 2 on the camera switches the baud rate from 115 200 baud to 38 400 baud Because of the extra time it takes to transmit data at 38 400 frames may be skipped resulting in a lower frame rate The slower rate may also cause the bitmap mode resolutions to shrink Demo Mode Jumper 3 Jumper 3 puts the camera into a demo mode Demo mode causes the camera to call the track window command and then begin outputting a standard hobby servo PWM signal from the servo output The servo attempts to drive the camera mounted on it towards the middle mass of the color detected on startup Note that upon powering up in this mode the camera will wait for 5 seconds before grabbing a color and servoing This timeout allows the camera to stabilize This feature can be enabled manually without the jumper by sending the MM 2 command If when the servo is mounted on the camera it appears to be tracking in the incorrect direction also set jumper 1 When jumper and jumper 3 are set the board does not go into slave mode it runs demo mode and r
11. everses the direction of the servo gt lr lol oo Ollo 00 0 ollo O 000000000000 El e ole o glo gollo o glio Oo o 82XS 00000000000000 Startup Demo Jumper 3 LCEZXVW 00000000 Baud Rate Jumper 2 O O O O CX 0 0 O 9 O O 0 O0 Slave Mode Jumper 1 O O O O O O O ollo ollo Testing the Board Once you have set the board up and downloaded the firmware a good way to test the system is to connect it to the serial port of a computer Step 1 Step 2 Step 3 Step 4 Step 5 Step 6 Step 7 Step 8 Build a serial and power cable Plug both of them in Open the terminal emulator of your choice and set the communication protocol to 115 200 Baud 8 Data bits 1 Stop bit no parity local echo on and if possible turn on add line feed add n to a received r Turn on the board the Power LED should light up and the Track LED should not You should see the following on your terminal emulator CMUcam v1 11 Once you have seen this the board was able to successfully configure the camera and start the firmware Type gv followed by the enter key You should see the following igv ACK CMUcam v1 11 This shows the current version of the firmware If this is successful your computer serial port is also configured correctly Using the CMUcam jav
12. ing for another command in the idle state White spaces do matter and are used to separate argument parameters The r ASCII 13 carriage return is used to end each line and activate each command If visible character transmission exerts too much overhead it is possible to use varying degrees of raw data transfer See Raw Mode 12 This command is used to set the camera board into an idle state Like all other commands you should receive the acknowledgment string ACK or the not acknowledge string NCK on failure After acknowledging the idle command the camera board waits for further commands which is shown by the prompt While in this idle state a r by itself will return an ACK followed by r and character prompt Example of how to check if the camera is alive while in the idle state ACK CR reg valuel reg2 value2 reg16 value16 r This command sets the Camera s internal Register values directly The register locations and possible settings can be found in the Omnivision documentation All the data sent to this command should be in decimal visible character form unless the camera has previously been set into raw mode It is possible to send up to 16 register value combinations Previous register settings are not reset between CR calls however you may overwrite previous settings Calling this command with no arguments resets the camera and restores the camera registers to their default state Useful Settings Regis
13. min Bmax t TW r This command begins to Track a Color It takes in the minimum and maximum RGB CrYCb values and outputs a type M or C data packet set by the MM command The smaller type C packet encodes a bounded box that contains pixels of the curently defined color the number of found pixels scaled actual value is pixels 4 8 that fall in the given color bounds and a confidence ratio The default type M packet also includes the center of mass of the object The resolution of the processed image is 80x143 The X values will range from 1 to 80 and the y values will range from 1 to 143 A packet of all zeros indicates that no color in that range was detected The confidence value is a ratio of the pixels counted within the given range and the area of the color bounding box It returns a value which ranges from 0 to 255 Under normal operations any value greater then 50 should be considered a very confident lock on a single object A value of 8 or lower should be considered quite poor With no arguments the last color tracking parameters will be repeated Type M packet M mx my xl yl x2 y2 pixels confidence r Type C packet C xl yl x2 y2 pixels confidence r Example of how to Track a Color with the default mode parameters TC 130 255 0 0 30 30 ACK M 50 80 38 82 53 128 35 98 M 52 81 38 82 53 128 35 98 M 51 80 38 82 53 128 35 98 This command will Track the color found in the central region of the current Window After the color i
14. mm port is set correctly and power is going to the camera Vpp Generation Failed Ensure that the program switch is in the correct position Programming Failed Try it again and if it still occurs consult the SX Key manual No response Make sure you switched the board out of program mode Try power cycling the board In Demo Mode the light turns on for a second and then everything stops When both the camera and servo are active the power required is greater Try using a battery or voltage source rated at a higher current 23 Hardware The following is a list of parts needed to assemble the CMUcam Qty Item Part no Digi key Schematic Label Unit Price 1 75 MIPS Ubicom SX28 SX28AC75 DP ND ICI 5 18 1 OV6620 Eval Board BB048 57 95 1 Maxim 232 Level Shifter IMAX232CPE ND _ IC3 3 31 1 SG 531 75 00 MHz crystal osc SE2911 ND QG1 5 85 1 5 Volt Regulator LM2940CT 5 0 ND IC2 1 80 3 4 7 Kohm 1 4 Watt Resistor 4 7KQBK ND R2 R3 R4 0 06 2 1220 ohm 1 4 Watt Resistor 220QBK ND R1 0 06 6 1 0 uF Capacitor P2105 ND C1 C2 C3 C4 C5 C6 0 42 2 ISPST Switch EG1847 ND S1 S2 1 11 1 3mmred LED 67 1125 ND LED3MM 0 16 1 3mm green LED 67 1127 ND D1 0 16 2 0 luF Capacitor P4923 ND C8 C10 0 55 3 100 uF Capacitor P5138 ND C7 C9 C11 0 28 2 14 pin IC socket to form a 28 pin socket AE8914 ND IC1 0 32 1 8 pin IC socket ED3308 ND QG1 0 42 1 16 pin IC socket ED3316 ND IC3 0 83 1 D
15. n it s default mode where tracking will return its normal C or M color packet If the value is set to 1 the tracking commands will alternate each frame between color packets and S statistic packets Each statistic packet is only being sampled from an area one quarter the size of the bounded area returned from the tracking command If no object was bounded then no S statistic packets are returned This can be useful for adaptive tracking or any type of tracking where you would like to get feedback from the currently bound target After the first tracking packet is returned the window gets set back to full size for all future packets Note you will get only half the number of actual color packets per time interval Example of how to Track Color with SM SM 1 ACK TC 200 255 0 30 0 30 ACK C 2 40 12 60 10 70 S2252016231 C 5 60 20 30 12 100 S2251917121 C000000 C000000 C000000 C 5 60 20 30 12 100 S2251917121 SW xy x2 y2 r This command Sets the Window size of the camera It accepts the x and y Cartesian coordinates of the upper left corner followed by the lower right of the window you wish to set The origin is located at the upper left of the field of view SW can be called before an image processing command to constrain the field of view Without arguments it returns to the default full window size of 1 1 80 143 Example of setting the camera to select a mid portion of the view SW 35 65 45 75 ACK 19 TC Rmin Rmax Gmin Gmax B
16. n the current window is grabbed the track color function is called with those parameters and on the full screen This can be useful for locking onto and tracking an object held in front of the camera Since it actually calls track color it returns the same type of C or M color packet Note your set window will only be used for grabbing the color to track and then the window will return to 80x143 Example of how to use Track Window TW ACK S 240 50401278 C 2 40 12 60 10 70 C3411261 1170 C 2 40 12 60 13 70 C342 1262970 C 445 1260870 20 Output Data Packet Descriptions All output data packets are in ASCII viewable format except for the F frame and prefix packets ACK This is the standard acknowledge string that indicates that the command was received and fits a known format NCK This is the failure string that is sent when an error occurred The only time this should be sent when an error has not occurred is during binary data packets Type C packet This is the return packet from a color tracking command x1 The left most corner s x value yl The left most corner s y value x2 The right most corner s x value y2 The right most corner s y value pixels Number of Pixels in the tracked region scaled and capped at 255 pixels 4 8 confidence The of pixels area 256 of the bounded rectangle and capped at 255 C xl yl x2 y2 pixels confidence r Type F data packet format 1 new frame 2 new col 3 end of frame RGB C
17. n this mode after the two command byte values are sent send 1 byte telling how many arguments are to follow i e DF followed by the raw byte value 0 for no arguments No r character is required If bit 0 is enabled then output to the camera is in raw bytes If bit 1 is enabled then the ACK r and NCK r confirmations are suppressed If bit 2 is enabled then input to the camera is in raw bytes Example of the new packet for Track Color with Raw Mode output only WARNING This may temporarily interfere with a terminal program by sending non visible characters RM 1 ACK TC 50 20 90 130 70 255 ACK C gt k ai Ck amp L This command ReSets the vision board Note on reset the first character is a r Example of how to reset the camera iTS ACK CMUcam v1 0 S1 position t This command lets you Set the position of servo 1 0 turns the servo off and holds the line low 1 127 will set the servo to that position while it is tracking or getting mean data Any value 128 and higher sets the line high In order for the servo to work the camera must be in either a tracking loop or mean data gather loop Values 0 and 128 can be useful if you wish to use the servo port as a digital output The port can also be used as a digital input see I1 command The MM command can enable or disable the automatic servo tracking 18 SM value r This command is used to enable the Switching Mode of color tracking When given a 0 it is i
18. ouble row female header 929852 01 36 JP5 3 35 1 Single row male header 929647 09 36 ND JP1x2 JP3 JP4 JP7 1 83 1 Polarized 2 pin terminal housing IWM2700 ND 0 25 2 Crimp terminals IWM2200 ND 0 13 1 Polarized 2 pin terminal header IWM2000 ND 0 25 1 Female serial ribbon cable head AFSO9G ND 6 14 1 Serial ribbon cable socket connector ASC10G ND 1 11 Order Code BB048 at http www electronics123 com Ask them for an evaluation board with an OV6620 from Omnivision and an IR coated lens Use this for the oscillator by cutting off the inner 4 legs accessories that make interfacing easier but are not required for functionality 24 CMUcam Schematic GND wo PWR_LED LED3MM a a 190 doszxs F sng eau 25
19. rYCb ranges from 16 240 RGB CrYCb represents a two pixels color values Each pixel shares the red and blue 176 cols of R G B Cr Y Cb packets forms 352 pixels 144 rows To display the correct aspect ratio double each column so that your final image is 352x144 It does not begin with an F and only sends raw data l2rgbrgb rgbrgb2rgbrgb rgbrgb Type M packet This is the return packet from a color tracking command with Middle Mass mode on mx The middle of mass x value my The middle of mass y value x1 The left most corner s x value yl The left most corner s y value x2 The right most corner s x value y2 The right most corner s y value pixels Number of Pixels in the tracked region scaled and capped at 255 pixels 4 8 confidence The of pixels area 256 of the bounded rectangle and capped at 255 M mx my xl yl x2 y2 pixels confidence r Type N packet This is identical to a type M packet with an added value for the servo position spos The current position of the servo N spos mx my xl yl x2 y2 pixels confidence r 21 Type S data packet format This is a statistic packet that gives information about the camera s view Rmean the mean Red or Cr approximates r g value in the current window Gmean the mean Green or Y approximates intensity value found in the current window Bmean the mean Blue or Cb approximates b g found in the current window Rdeviation the deviation of red or Cr found in the cu
20. rrent window Gdeviation the deviation of green or Y found in the current window Bdeviation the deviation of blue or Cb found in the current window S Rmean Gmean Bmean Rdeviation Gdeviation Bdeviation t deviation The mean of the absolute difference between the pixels and the region mean Binary bitmap Line Mode prefix packet This packet is in raw byte form only It starts off with the hex value OxAA and then streams bytes with each byte containing a mask for 8 pixels from the top left to the bottom right of the image Each binary bit in the byte represents a pixel The bitmap is then terminated with two OxAAs OxAA is never transmitted as part of the data so it should be used to signify termination of the binary bitmap After the binary bitmap is complete a normal tracking packet should follow raw data AA XX XX XX XX XX XX AA AA C 45 72 65 106 18 51 raw data AA XX XX XX XX XX XX AA AA C 46 72 65 106 18 52 Get mean Line Mode prefix packet This packet prefix outputs the mean color of each row being processed These packets are started with an OxFE and terminate with an OxFD Each byte of data between these values represents the corresponding line s mean color value Due to the serial transfer time the vertical resolution is halved After all rows have been completed a normal tracking packet should follow raw data FE XX XX XX XX XX XX FD M 45 56 34 10 15 8 raw data FE XX XX XX XX XX XX FD M 45 56
21. tal Input Calling I1 returns either a 1 or 0 depending on the current voltage level of the servo line The line is pulled high because of this it is only required to pull it low or let it float to change it s state The servo line can also be used as a digital output See S1 command Example of how to read the digital value of the servo line 11 ACK 1 L1 value r This command is used to control the tracking Light It accepts 0 1 and 2 default as inputs 0 disables the tracking light while a value of 1 turns on the tracking light A value of 2 puts the light into its default auto mode In auto mode and while tracking the light turns on when it detects the presence of an object that falls within the current tracking threshold This command is useful as a debugging tool Example of how to toggle the Tracking Light on and then off LI 2 ACK L1 0 ACK 15 LM active r This command turns on Line Mode which uses the time between each frame to transmit more detailed data about the image It adds prefix data onto either C M or S packets This mode is intended for users who wish to do more complex image processing on less reduced data Since the frame rate is not compromised the actual processing of the data put out by the vision system must be done at a higher rate This may not be suitable for many slower microcontrollers Line mode s effect on TC and TW When line mode is active and TC or TW is called line mode will send a binar
22. ter Values 5 Contrast 0 255 6 Brightness 0 255 18 Color Mode 36 YCrCb Auto White Balance On 32 YCrCb Auto White Balance Off 44 RGB Auto White Balance On 40 RGB Auto White Balance Off default 17 Clock Speed 17 fps default 13 fps 11 fps 9 fps 8 fps 7 fps 6 fps 5 fps 4 fps ere 00 I ON LU BR D NO 19 Auto Exposure Auto Gain Off Auto Gain On default Ww w S D Example of decreasing the internal camera clock speed default speed is 2 CR 175 ACK The red channel becomes Cr which approximates r g The green channel becomes Y which approximates intensity the blue channel becomes Cb which approximates b g RGB gt CrYCb Y 0 59G 0 31R 0 11B Cr R Y Cb B Y 13 DF r GM r GV r This command will Dump a Frame out the serial port to a computer This is the only command that will by default only return a non visible ASCII character packet It dumps a type F packet that consists of the raw video data column by column with a frame synchronize byte and a column synchronize byte This data can be read and displayed by the CMUcamGUI java application Since the data rate required to send the raw video greatly exceeds the maximum serial port speed only one column per frame is sent at a time This allows you to see a slowly updating view of what the camera sees To get the correct aspect ratio double each column of pixels Type F data packet format 1 new frame 2 new col 3 end of frame
23. ust the camera s image properties Dump a raw image 80x 143 Resolution 115 200 baud or 38 400 baud serial communication Slave parallel image processing mode off a single camera bus Automatically detect a color and drive a servo to track an object upon startup Ability to control 1 servo or have 1 digital I O pin Board Layout Programming Svitch PowerLED Track LED 15 Mounting Holes O O Level Shifted Serial Port 3 mwr OO OIO v SX Key Port Camera Bus Back Mounted TTL Serial Jumper 3 Jumper 2 3 o o Le Le Oo 00000000000000 Le o e JO 82XS o Jumper 1 ollo ollo 9 8 wee LM2940 Power Switch Servo Port Assembled View Programming Switch Power Switch Ports Power The input power to the board goes through a 5 volt regulator It is ideal to supply the board with between 6 and 7 volts of DC power that is capable of supplying at least 200 milliamperes of current oioo lo goes 5 22 o 2g 8 o 00 ollo ollo oo Level Shifted Serial Port This port provides full level shifting for communication with a computer Though it only uses 3 of the 10 pins it is packaged in a 2x5 pin configuration to fit standard 9 pin ribbon cable clip on serial sockets and 10 pin female clip on serial headers that can both attach to a 10 wire ribbon cable Ground PC Transmit Scenix Receiv
24. y bitmap of the image as it is being processed It will start this bitmap with an OxAA flag value hex value AA not in human readable form The value OxAA will not occur in the data stream This is followed by bytes each of which contains the binary value of 8 pixels being streamed from the top left to the bottom right of the image The vertical resolution is constrained by the transfer time of the horizontal data so lines may be skipped when outputting data In full resolution mode the resulting binary image is 80x48 The binary bitmap is terminated by two OxAA s This is then followed by the normally expected standard C or M data packet processed at that lower resolution Example of TC with line mode on LM 1 TC raw data AA XX XX XX XX XX XX AA AA C 45 72 65 106 18 51 raw data AA XX XX XX XX XX XX AA AA C 46 72 65 106 18 52 Line mode s effect on GM When line mode is active and GM is called line mode will send a raw not human readable mean value of every line being processed These packets are started with an OxFE and terminate with an OxFD Each byte of data between these values represents the corresponding line s mean color value Similarly to the bitmap mode the vertical resolution is halved because of the serial transfer time At 17 fps 115 200 baud every other line is skipped At any slower frame rate still 115 200 baud no lines will be skipped Example of GM with line mode on LM 1 GM raw data FE
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