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1 SCANIA TRUCKS 2

1. Place a charged battery in the compartment below the truck and secure it with the lock Connect the battery and electric speed controller Now you should plug three cables to the receiver note the polarity 1 Plug the speed motor number 6 in figure 3 into the THRO port on the receiver 2 Plug the steering motor number 3 in figure 3 into the AILE port on the receiver 3 Optional Plug the gear shift motor number 1 in figure 3 into the RUDD port on the receiver __Pulse signal yellow or white ___ Positive Red Negative Brown or Black Battery Bind Throttle Channel 1 Alleron Channel 2 Note correct connector polarity Elevator Channel3 Rudder Channel 4 Gear Channel 5 Auxillary Flap Channel 6 figure y Spektrum AR6210 Receiver Step 1 Binding the Transmitter and Receiver The AR6210 receiver must be bound to the transmitter before it will operate Binding is the process of teaching the receiver the specific code of the transmitter so it will connect to that specific transmitter To perform the binding process follow these steps 1 Plug the bind plug that came with the receiver into the BATT BIND port of the receiver The amber LED should flash indicating the receiver is in bind mode Move the left stick to the full down position establishing the fail safe position 3 Pull and hold the Trainer switch on the top of the transmitter while turning on the power switch on the transmitter Keep
2. code for the mote attached to the computer and Truck_mote contains the TinyOS code for the mote attached to the truck 2 http www tinyos net 3 http www contiki os org Please refer to GettingStartedWithTinyOS pdf in the repository for further details on how to install TinyOS and how to program the motes In chapter 4 you will find instructions on how to program a mote For instance in Ubuntu you can navigate to PC_mote folder and use the following command to program the PC mote using node Id 7 We assumed the mote is attached to dev ttyUSB4 make telosb install 7 bsl dev ttyUSB4 Now navigate to Truck_mote folder and use the following command to program the Truck mote using node id 7 We assumed the mote is attached to dev ttyUSBO We used the same node Id for both motes but you can assign a different number to each mote make telosb install 7 bsl dev ttyUSBO If you program the motes using the provided code then both motes will use the same radio channel Thus you do not have to worry about that But if you want to use more than one pair in your project read the next section carefully Radio Channel Selection Tmote Sky motes use the IEEE 802 15 4 protocol to send data wirelessly IEEE 802 15 4 in the 2 4 GHz band supports 16 different radio channels PC mote and corresponding Truck mote should use the same radio channel The channel definition is in the app_profile h header file under the name RADIO_CHANNEL and accepts
3. Mode Camera frequency Shutter out AM Oqus4 13379 N ER a H 6DOF Tracking Oqus 3 13349 Yes SMPTE oo E Oqus4 13263 Ogus4 13295 Riedi Oqus4 1330 Use SMPTE timestamp m Matlab file export E DIFF export S GUI Ctr click in list to select several cameras Show description Calibration Process Remove reflective objects You should make sure that the field is free of any unwanted markers or reflective objects as they cause problems for the calibration By looking at the 2D view of the QTM software you can easily check 1f any unwanted markers are present and try to hide them from the cameras Three types of markers 1t was written in the Jonas factor Matlab and LabVIEW page 27 of user manual 3 1 MoCap LabVIEW Communication if you run the labview and it asked for license You should install the appropriate software on the main pc go to help gt about gt license and add the license here 3 2 Appendix 1 Soldering Instruction Safety Rest L LALAAAAAAAA Power Unit Cleaning Sponge Soldering iron Soldering Tip Weller WS 81 Soldering Station 95W 50 450 C Solder Handle Oxidized Tip Before you start wet your tip by applying some soldering on it If the soldering absolutely refuses to stay on the tip it s because the latter is oxidized probably because your iron stayed on too long without being used Don t try to solder with an oxidized tip you won t obtain a good
4. DO NOT charge or use the battery e Do not disassemble or modify the battery pack in any way doing so may result in fire which could cause personal injury or property damage Charging Process To charge the Li Po battery pack follow these instructions l Za Connect the input power cable 11 18V DC to the charger Connect the discharge plug note the polarity and the balance plug of battery pack to the correct connections of the charger Now you should select the appropriate program suitable for the Li Po battery To do this press the Batt Type key and select LiPo BATT Then press the Start Enter key to apply the selection Charging rate should be 2 2A and voltage should be 11 1V 3S To change a parameter press Start Enter key to make 1t blink and alter the value using Inc or Dec key Never charge the battery higher than a 1C charge rate 1C is 1 times the capacity of the battery For example a 2200mAh battery should be charged at 2 2 amps Put the battery in a battery bag such as a RFI LiPo Safe figure Press Start Enter key for more than 3 seconds Then press Start Enter key again to confirm and start charging Never leave the battery unattended while charging Always monitor the battery during the charge process Be very careful not to short the lead wires of the battery as this could cause a fire Shorting could occur during soldering of connectors or while cutting off connectors Be sure to completely insulate one
5. but it takes around 10 hours for a completely discharged 5000 mAh battery pack to be charged completely The charged battery pack should be placed in the compartment below the truck and be secured with the lock Battery Pack for Trucks Vector AC DC NX85 Variable Output Charger 1 5 Connections Figure clearly shows the basic wiring between different components in a truck iz m3 i q y Figure 3 Basic connections in a truck 1 3 wire cable for the servo controlling the gear shift 2 Motor controlling the speed 3 3 wire cable for the servo controlling the steering 4 Electronic speed controller 5 Battery connection plug for the electric speed controller female connector 6 3 wire cable for connection to the AR6210 receiver or Pololu board Apart from the aforementioned parts you also need a power distribution cable like in figure The jumper wire is used to feed the power to AR6210 receiver or Serial adapter Pololu board that we will discuss later AR6210 receiver is used to control the truck manually using a remote controller The Serial adapter and Pololu board are also used when you want to control the truck using motes figure 6 Power Distribution Cable 1 6 Precautions 1 When working with the powered trucks on a table always lift the rear of the vehicle to avoid accidents 1f the engine starts unexpectedly 2 If the steering 1s being tested keep in mind that at low battery charges the servo will
6. used only for the cameras and is assigned a private IP address of 192 168 254 1 The QTM software is already installed on this PC An important component of the QTM software is Qualisys DHCP server called QDS QDS assigns IP addresses to the Oqus cameras An IP address for each camera is required to be able to communicate with them over the Ethernet network According to the Qualisys documentations the DHCP server will only give IP addresses to Oqus cameras so it will not disturb the KTH network But it is recommended to separate the camera network from the KTH network That s why we used two different network interface cards for the cameras and the KTH network to completely isolate the two Before you connect the Oqus camera system you should make sure that the QDS is running and that the network interface setting are correct The recommended setup is to use static IP on the Oqus network Use the wizard to setup the network interface Step 1 Right click on the QDS icon in the status toolbar and select Oqus configuration wizard Step 2 Select Configure a network interface and click Next Step 3 The list will show all enabled network interfaces on the computer Select the last interface Oqus and click Next This interface is used for the Oqus cameras L Oqus neh configur Choose network connection 000 QUALISYS Choose the network connection that you want to configure so that it can be used to connect to Oqu cameras
7. a hexadecimal value Both codes for PC mote and Truck mote use the same app_profile h file thus if you change a parameter in that file it will affect both motes As a result if you change RADIO_CHANEEL to 0x13 and re program the motes then both motes will use radio channel 0x13 Pair 1 PC Mote Truck Mote Node ID 7 Node ID 7 Radio Channel 0x13 Radio Channel 0x13 Pair 2 PC Mote Truck Mote Node ID 1 Node ID 1 Radio Channel 0x15 Radio Channel 0x15 If you are using more than one pair or motes then you have to make sure that each pair is programed in a different radio channel as figure u shows In other words if a pair of PC mote Truck mote are using radio channel 0x13 then the other pair should use another free radio channel like 0x15 Otherwise there may be collisions between the transmitted packets of the two Truck motes You can attach a label to each mote to differentiate them from each other For example you can label one mote as Truck 7 0x16 which means that this mote should be attached to the truck its node Id is 7 and uses radio channel 0x16 The other corresponding mote can be labeled as PC 7 0x16 You can also differentiate the PC mote from Truck mote by looking at the on board LEDs When you attach a PC mote to the USB port the red and green LEDs will light up In contrast when you attach a Truck mote to the USB port all LEDs are off 1 8 2 Pololu Micro Serial Servo Controller Board The Pololu micro
8. appear select Install this driver software anyway button J APS gt Ss Windows Security gt Don t install this driver software You should check your manufacturer s website for updated driver software for your device Install this driver software anyway J J Only install drever software obtained from your manufacturer s website or disc Unsianed softwere from other sources may harm your computer or steal 3 y information v See details Step 3 Once the install has completed you can now plug in your ArduPilot Mega board to your computer APM uses a miniB USB cable Plug it in as shown in figure 8 Wait a few moments while windows recognizes and installs the drivers for the board Note 1 Don t connect your APM board via a USB HUB as it might not get enough power Note 2 When you plug APM into your PC via the USB cable Windows 7 should recognize the FTDI USB to serial chip and install the right drivers but if it doesn t or if you re using an earlier version of Windows you should download and install the appropriate driver for your Operating System from here APM should now be recognized and show up in your Windows Device Manger which you can find in the Windows Control Panel as shown below your COM port will probably be a different number it s assigned by Windows based on how many other devices you ve connected That s the COM port you ll use in all USB interactions with APM It s a goo
9. holding the Trainer switch until the receiver s LED stays on Remove the bind plug from the receiver 6 The transmitter and receiver have now been bound EA Bind Plug Step 2 Change the Transmitter from Mode 1 to Mode 2 You should make sure that the transmitter is in Mode 2 Mode 2 has the Throttle control on the up and down axis of the left stick and the Elevator controls on the up and down axis of the right stick Mode 1 has the opposite This does not affect the Aileron and Rudder controls a E E E 10 Power on the Transmitter Using the roller press down once to click and the Adjust List should appear Scroll through the list until Model Select is highlighted and click Scroll through to the Model you wish to configure and click Scroll through the list until Setup List is highlighted and click Scroll through the list until you reach Copy Reset and click Scroll down to Reset and click The Reset control screen should appear Switch the Aileron D R switch at the top right of the Transmitter from position 1 to O three times The hidden mode change menu should appear scroll to select the mode you wish to use in this case Mode 2 and click 10 Scroll to List top right corner of the screen and click Note These settings only affect the currently selected Model other stored models are not affected by these changes Step 3 Adjust the Model Type A a DT Power on the Transmitter Click the roller
10. not move 1f the front wheels are resting on the ground and the vehicle is stationary 3 It is recommended to use the lowest gear available in the truck gearbox because the other two gears result in very high speeds in the available range 1 7 Manual control with a remote controller To be able to test a truck it can be connected to Spektrum AR6210 receiver and be controlled with Spektrum DX61 remote controller Spektrum DX61 remote controller is a 6 channel radio system that offers advanced programming features It uses DSM2 modulation in the 2 4GHz band Figure 9 shows the DX61 controller DX61 transmitter runs on 4 AA batteries and you can use rechargeable AA NiMH 1500mAh batteries To install the batteries remove the battery door and install 4 AA batteries noting the polarity of each corresponds with the diagram in the battery holder Antenna Handle Trainer Bind Mix Throttle Hold Flap Gyro Throttle Cut Gear Flight Mode Rudder Dual Rate Elevator Dual Rate Aileron Dual Rate momar gt Throttle Rudder Stick Aileron Elevator Stick Rudder Trim Elevator Trim Aileron Trim Throttle Trim Roller On Off Switch Figure x Spektrum DX6i Control Identification and Location Mode 2 Never use the DX5e remote controller with the trucks turning off this controller is equivalent to sending maximum signals to all the RC channels For manual control use the DX61 instead which does not have this problem when turned off
11. pole of the connector while soldering the other Also if cutting off a connector cut only one wire at a time to avoid shorting the battery If a short should occur even a very brief short place battery in a safe non flammable area and observe for 15 minutes 2 7 Manual control with a remote controller During the first flights of a new airplane it s recommended to check the red LED hold indicator If it s flashing it s important to optimize the installation move or reposition antennas until no hold occurs On later flights the LED Hold Indicator can be used to confirm RF link performance http www rctruckandconstruction com showthread php t 3535 2 8 Manual Control using Motes and LabVIEW 3 Qualisys Motion Capture MoCap System In the SML we use Motion Capturing System short MoCap from Qualisys The system does a multi view 3D construction of passive IR markers The system is based on the fact that if a point in space is seen from at least two different viewpoints with calibrated cameras of known position the position of the point in 3D can be calculated The cameras are sensitive in the infrared spectrum and they re equipped with infrared flash The objects to be tracked are equipped with passive markers figure 9 Passive markers are small reflective balls that reflect the IR light from the cameras flash The image is thresholded on the cameras and position and size of the markers are calculated
12. serial servo controller is a very compact solution for controlling up to eight RC Radio Control servos Each servo speed and range can be controlled independently It has three status LEDs and an integrated level converter for RS 232 applications The servo controller connections are shown in figure cl The back side of the board which is shown in figure c2 has all of the ports labeled and two mounting holes allow you to secure the controller The servo controller needs its own power which can be 5 16 volts This supply should be applied to the lower left corner of the board at the VIN and GND pins Moreover the server controller requires a logic level 0 5 V serial input connected to the logic level serial input The servo controller takes this serial input and creates Pulse Width Modulated PWM signal at the output to control servos In the trucks logic level serial input is connected to the serial adapter board RS 232 Vcc Vs jumper serial input GND e servo power 4 6 V protocol servo 0 selection servo 1 gt jumper a S reset servo 3 s logic level serial output servo 4 e logic level serial input servo 5 s 5 Eos SINS VIN 5 16 V servo 6 26 VIN GND servo 7 967 GND LEDs yellow green red gt Pololu Board Front Side Pololu Board Back Side The Pololu board supports up to 8 RC servos Each RC servo is connected through a standard three wire connection two wires for a DC power supply and one for signal carry
13. 0 They can rotate at a maximum rotational velocity of about 11000 RPM and generate a thrust of almost 1 kg per motor using a standard 10x45 propeller The four motors are powered by a Lithium Ion Polymer LiPo three cell battery with a nominal voltage of 11 1V and a rated capacity of 2200 mAh One speed controller is used for each motor to generate the switched AC current needed by the brushless motors and thereby control the motors rotational velocity proportional to the applied input signal The main part of an ArduCopter is shows in figure 3 It basically consists of two boards that are attached to each other The board in the bottom is ArduPilotMega or ARM in short and the board at the top is ArduPilotMega Shield In the following we will explain the role of each board in detail 6 http code google com p arducopter wiki ArduCopter 2 2 ArduPilotMega APM Board The ArdupilotMega APM board which 1s also known as the red board the controller the main board or the master board is based on the open source Arduino project The heart of APM is the Atmega2560 microcontroller from Atmel running at 16MHz which has 256kB of flash memory 8 kB SRAM 4 kB EEPROM and lots of pins Autopilot code is stored on the aforementioned microcontroller The hardware and software are all open source The firmware 1s already loaded but the autopilot software must be loaded onto the board by the user It can be programmed with the Mission Planner
14. 0 LISTENING E spoolsy exe 1724 UDP Mani PL 6464 i E spoolsy exe 1724 TCP mani pno 49178 mani po O LISTENING spotify exe 2104 TCF mani po 3 kth se 2017 skye sto spot com 400 ESTABLISHED 1 8 6 Communication Link Summary Figure 1 shows the communication link between the PC and truck clearly Labview creates a TCP client process that connects to the TCP server The TCP server has been created by the serial forwarder SF Thus a TCP connection will be established between the LabVIEW and the SF Labview sends the actuation data through this TCP connection to the SF and SF forwards the data to the PC Mote which is attached to say COM7 of the PC The PC Mote sends the actuation data wirelessly using IEEE 802 15 4 protocol to the Truck Mote Both PC Mote and Truck Mote should be programmed in the same wireless channel Truck Mote receives the actuation data and sends the correct signals to the truck TCP Client IEEE 802 15 4 ree ws com 1 8 7 LabVIEW Example 1 HelloWorld This labVIEW program shows how to control the truck by sending actuation data to it Figure 1 shows the front panel of the program 1 Destination Id Shows the node Id of the Truck mote Recall that you can set the node Id of a mote when you program it Steering This slider controls the steering of the truck Moving the slider to the left turns the front wheels to the left and moving the slider to the right turns the front whe
15. 1 SCANIA TRUCKS cirai ccvenssatsenawaanees ausabansawea wee A aN 2 1 1 SUMISO AA AAA ibd dite Dueck hacia Wat AAA AAA 2 1 2 A O 2 1 3 ELEGTRONIG SPEED CONTROLLER Sas 3 1 4 BATTERY PACKEOR TRUCKS A AA 3 1 5 CONNECTIONS ia 4 1 6 PRECAUTIONS tr T AT A AAN 6 1 7 MANUAL CONTROLE WITHA REMOTE CONTROLLER wistccrzcacscck cccessstaadeeessnrdogennrerseacs cteaasatanteeecsotdaceneanaenanscsessembenteacsyetees 6 L71 Troubleshoot anr EE E E O dados 10 1 8 MANUAL CONTROL USING MOTES AND LABVIEW siseiccscschesccvcsossasavecieceetnnssasevedesseeeeevtavesvndess E E ici 11 LO A O II 11 1 8 2 Pololu Micro Serial Servo Controller Bord cccccccceccceeccceeeccccececcecsceecsceescucessucessceecsseeessecesseeeseneessneess 14 133 SCHGIAGOD er BOA O as A A AAA A A IATA AA A 15 DOA CONECO iio nesesaaaieumeseeunes 17 185 COMMUNICATION between PC ONG e oia 17 1 8 6 LabVIEW Example 1 HeIOWOTIC cccccccseeeeccccceceecsccseeecssccueeecssccuceessssuuceessssuueeesssseuseesessuueeesessueeeesenes 19 18 7 LabVIEW Example 2 USING Gamepad ii cons laevvanedeaieveaeeven vente tan viwedees 21 QUADROCOPTE Rossini oO aleta E 23 2 1 SUMMARY omi ES AAN A O 23 2 2 ARDUPILOTMEGATARIMI BOARD arrasadas dirt aupsne vs odd daneuatanaes ATA AN ASR 24 2 3 ARDUPILOTIMEGA SHIELD BOARDS SAS AS AA 25 2 4 PROPELLER SAA 30 2 5 MISSION RAN NES OT WA RE nicas 32 2 6 BATIERY PACK FOR OUR DROCOPTER atado cdna 38 2 MANUAL CONTROL WITHA REMOTE CONTROLI ER NA tanrdeneeateteteaer
16. Local Area Wired LAN Connection Connected Wireless LON Iphone network Not connected Bluetooth Network Wired LON Connector Mot connected Wired LAN in il ie Connected Press Next to continue No Oque DHCP requests Hot configured for Oqus Mo Oque DHCP requests Hot configured for Oqus Mo Oque DHCP requests Not configured for Oqus Oque DHCP requests 12 Configured for Oqus lt Back Next gt More More More More Refresh Cancel Step 4 The wizard shows how it will change the selected interface Click Next to continue Step 5 Click Finish to close the wizard Oqus startup sequence To start using the system you should make sure that the cameras are connected to the PC and QDS is running Step 1 Connect the power supply and the green LED on the front will blink twice Step 2 After a few seconds the startup bar below is shown If the bar stops at two thirds then the Oqus is waiting for an IP address The reason is probably either a missing connection to the computer or that QDS is not running Step 3 When the camera has an IP address the display will show an image similar to one below The Oqus will first synchronize to other cameras during that process the clock is blinking and there is a spinning plus sign instead of the letter M or S Wait until the clock stopped blinking and the display shows M or S The M or S on the display stands for Master respect
17. Software PPM Encoder PPM Encoder SPI ISP port Status LED PPM Encoder Fail Safe ATMega1280 SPI ISP port peg MO ps PAS no w Xo Me E e S S o zi Main 4 Inputs F a ECO j pia a Hard wired O Multiplexed na channels xo o Tie OJ HE Main 4 Outputs ell gp COCHE Multiplexor Autopilot ArduPilot Mega Board 7 htto code google com p arduino The APM board has a built in hardware failsafe that uses a separate circuit multiplexer chip and ATMega328 processor to transfer control from the RC system to the autopilot and back again It also includes ability to reboot the main processor in mid flight Attaching GPS to the APM Board Optional Finally attach your GPS module as shown below MediaTek module shown lt goes in the connector on the APM board not the similar one on the IMU shield that one which says No GPS is an 12C connector for the optional magnetometer or other 12C sensor In the SML we do not use a GPS module since we only use the Quads indoor We use Qualisys Motion Capture system MoCap in short to track the mobility of quads 2 3 ArduPilotMega Shield Board The ArduPilotMega Shield is also known as APM Oilpan the shield the sensor board the blue board or the slave board This board features a large array of sensors and 1t is designed to fit on top or bottom of the ArduPilot Mega CPU board creating a total autopilot solution when a GPS module is attached
18. This information is sent via Ethernet to a computer running Qualisys Track Manager QTM software The QTM tries to match the markers seen in different images and calculates the positions of the markers The markers are seen in the camera image as small bright dots figure 10 Figure 9 Reflective marker Figure 10 Image of markers seen by one camera Oqus System Setup We use 12 different Oqus cameras in the SML to cover the whole field Three cameras are installed in each corner facing downward that is shown in figure 11 Cameras are connected in daisy chained fashion 2 out of 12 cameras are Oqus 3 and the rest are Oqus 4 Refer to figure 12 for more information on each camera type Oqus 3 has a new sensor with some new features and improvements like more light sensitivity improved image high speed video mode Light sensitivity The Oqus 3 1s at least 50 more light sensitive than the other Oqus models This means that you can see markers at a longer distance with the same exposure and threshold setting as on the 3 series Or you can use smaller markers at the same distance as you could for the 3 series Note The default exposure time setting for Oqus 3 is 200 microseconds because of the increased light sensitivity The increased light sensitivity also means that 1t is easier to see the markers at higher frequencies because you can use a shorter exposure time Improved image The image has less static and dynamic noise compar
19. Z Gyro Expansion ports for additional FTDI chip for native USB support an analog sensors BOOOOODOS SOOOGOO O AS G O e OOO a MIS w oF Relay for camera object drops other triggered events 16MB datalogging flash memory tt o rm i he Sat ait te A i TT 12c Traglat nl gt oF A B C O C RxeTx gt el AC MA x a Accel azu Can do 120 port for magnetometer One slider switch XY Gyros 12 bit ADC Dual 3 3v 4 DIP switches 3 Axis voltage regulator Accelerometers ArduPilotMega Shield Board Accelerometer Accelerometers measure acceleration in one to three linear axes x y z A single axis accelerometer can measure acceleration in whichever direction it is pointed This may be good for a rocket an impact a train or other scenario where the device really moves in one basic direction Knowing the acceleration and time you can use mathematics to find the distance traveled by the object There are fewer and fewer single and double axis accelerometers on the market because a triple axis accelerometer can do so much more Thanks to low manufacturing costs the three axes accelerometers are not much more expensive than single or double On the APM shield board there is one triple axis accelerometer Acceleration due to gravity is a constant and is in fact measurable using an accelerometer When placed parallel to the ground acceler
20. a and you may encounter too many write failed in the serial forwarder window The responsibility of WriteSF as the name suggests is to write the data to the serial forwarder In other words it constructs a message and sends it through the TCP connection 1 8 8 LabVIEW Example 2 Using Gamepad This labVIEW program shows how to control the truck using gamepad Note that this labVIEW program only works in Windows and not in Unix due to the fact that it needs DirectX to work with gamepad We use Logitech Gamepad F310 in the SML Attach the gamepad to the USB port of the computer and wait until the Windows installs the right driver Make sure that the X D mode switch on the bottom of the gamepad is set to X Run the labVIEW program and click on Check Control tab Play with different buttons on the gamepad to see if the corresponding LED lights up Moreover you can see the values of both joysticks and also the 8 way D pad Now click on Control tab and use the Control Mode to select your desired input method By default Control Mode is set to Manual which means that gamepad is disabled and the labVIEW program behaves exactly like the previous example You can use the slider to control the steering and motor speed Change the Control Mode to Gamepad to enable the gamepad Use the left joystick and move it in X axis to control the steering You can see the steering slider moves in the front panel Use the RT button to mov
21. aft that can distort the altitude sensor readings So for multicopter use it s best to cover the barometric sensor input with a breathable wind shield Part of a cotton pad like a makeup removal pad is perfect a bit of breathable foam would work too Just tape it over the sensor as shown e E A i E fll IA rernmusrnaass My UTM A f A i l gt b e o A Magnetometer Compass When in motion ArduPlane gets its heading data from the GPS module But to get accurate heading data on the ground you need a magnetometer A magnetometer will also improve navigation in the air In the following we will explain in detail why we need magnetometer and how you can install it on the board The orientation of the aircraft and the direction the airframe is moving not necessarily the same are an important input for navigation and stabilization in ArduPlane Without a magnetometer the orientation of the plane is calculated using successive GPS fixes plus the inertial sensors Sensor drift is compensated by reference to the GPS ground course as that should fix the current compass point for the nose of the plane assuming no wind or opposite rudder With a magnetometer we no longer have to rely on the GPS ground course to correct for sensor drift and the orientation of the plane becomes more accurate If you fly with a cross wind either manually or under full autopilot control then the magnetometer will provide more accu
22. ation due to gravity would only be felt by one axis However when tilted this acceleration would appear as components of two or three axes The measured acceleration can be used to calculate the tilt of an object by subtracting the current accelerometer data from a value that you know to be zero tilt 8 Accelerometers are used mainly to measure acceleration and tilt You can get an idea of how to use an accelerometer to measure tilt here and here Gyroscope Gyroscopes measure angular velocity in a B y see image below In other words a gyroscope tells you how fast something is spinning about an axis Gyroscopes can be used to help with stabilization and well as changes in direction and orientation Unlike accelerometers gyroscopes do not have a fixed reference and only measure changes XY Gyros Z Gyro Gyroscopes are used to measure angular velocity and orientation Pressure Sensor Contrary to what you may suggest pressure sensor has nothing to do with weather Instead it is there to enhance the GPS navigation dead reckoning slope detection etc Pressure sensors can add considerably to the accuracy of navigation systems when GPS signals are weak or temporarily obscured Interested reader can refer here for more detailed information Covering the barometric pressure sensor Optional Because the APM board is open and exposed to the airstream in ArduCopter the props spinning around it can create a strong dr
23. d idea to make sure that the Set RTS on close box is checked for the serial port To do this right click on the serial port and select Properties Go to the Port Settings and click the Advanced button A new window appears and you can find the Set RTS on close on the bottom right of the windows pe i te 1 E y HNHNHHHHHI e 5 e somes E OCE DoS Bis OEE EX e Y ES AWA DOIG O GO ws E File Action View Help AE mV E RE 4 ah Chris Workroom E Computer p Disk drives Port Settings Driver Details li Display adapters gt E DVD CD ROM drives Advanced Settings for COM3 gt 15 Human Interface Devices p 4g IDE ATA ATAPI controllers p IEEE1394 Bus host controllers COM Port Number gt P Jungo Keyboards USB Transfer Sizes USB Serial Port COM3 Properties b Mice and other pointing devices Select lower settings to correct performance problems at low baud rates b L Monitors gt EY Network adapters D Portable Devices Receive Bytes 4006 y Ports ORAR DT USB Serial Port COM3 Transmit Bytes 4096 y b amp Sound video and game controllers BM Options gt ql System devices b gy Universal Serial Bus controllers Select higher settings for faster performance Miscellaneous Options Select lower settings to correct response problems Serial Enumerator Serial Printe Latency Timer msec iio Cancel If Power OFf Timeouts Event On Surprise Removal Minimum Read Ti
24. d image transfer 4 htto www cogra se lt link gt You can also get the schematic file from the following URL To open the sch files you can use Eagle program by Cadsoft lt link gt VCC AP1117E50G 13 GND Vec 7 2V from RC battery pack J1 power supply J2 to Pololu Micro Serial servo controller P1 to Tmote Sky O N AN Figure 8 Schematic of the serial adapter board GND VCC At the next step you should solder components in Table 1 to the board We ordered the components from Farnell Company and you can find the Farnell order code in the last column Refer to appendix 1 to get more information about soldering and how to use the soldering equipment in the SML Qty PRPNP RPP rP RP RP PN Type Capacitor Capacitor Capacitor Header with 2 contacts Header with 5 contacts Value lu 10u 22u F 1X02 SIP 100 40 F 1X05 SIP 100 40 Socket TMOTE_SKY_BIGHDR Resistor 10k Resistor 16k Non inverting buffer MC74VHC1GT50DT Regulator LP38692MP Regulator AP1117E50G 13 gt http se farnell com CMP ffp sm flag se Name C1 C2 C3 C4 J1 J2 P1 R1 R2 U1 U2 U3 U4 1650988 1612276 1432346 1593411 1593414 3419216 1738972 9332677 1652259 1008056 1825292 Farnell order code 1 8 4 Connection Until now you become familiar with the role of Tmote Skye Pololu board and serial adapter board The next step is to connect them in the correct order 1 Place a charged battery
25. different motes One mote is plugged to the USB port of the base computer PC mote and the other mote is attached to the truck Truck mote The Truck mote is inserted into the serial adapter board using the 10 pin expansion connector To be able to do this you should solder a male header to the 10 pin expansion connector as depicted in figure o Figure o A male header is soldered to the 10 pin expansion connector of Truck mote TinyOS An operating system for embedded systems A simple embedded system with simple functionality may be controlled by a special purpose program or set of programs with no other software Typically more complex embedded systems like Tmote Sky include an OS Although it is possible in principle to use a general purpose OS such as Linux for an embedded system constraints of memory space power consumption and real time requirements typically dictate the use of a special purpose OS designed for the embedded system environment A significant number of operating systems have been designed from the ground up for embedded applications The two examples are TinyOS and Contiki In the Smart Mobility Lab we use TinyOS to program the Tmote Sky motes Program the Motes Download the Truck_TinyOS from the following link and extract it http kth wsn googlecode com svn trunk kth wsn apps tutorials GettingStarted TinyOS Files This folder contains two sub folders PC_mote and Truck_mote PC_mote folder contains the TinyOS
26. e computer and the truck A LabVIEW program running on the computer sends the actuation data using the aforementioned wireless communication path to the truck to control it We use PC mote and Truck mote to refer to each of the motes d Tr A i m y mn m de Tits figure b attached mote to the truck esme har kodoom o ziresh benevisam The Truck mote is plugged into the Serial Adapter Board and serial adapter board is connected to the Pololu Micro Serial Servo Controller Board In the next sections we will talk about the role of each board in detail but in nutshell The Truck mote receives the actuation data wirelessly from the PC mote The Truck mote sends the actuation data serially to the serial adapter board The serial adapter board sends the logic level serial signals to the Pololu board The Pololu board generates pulse width modulated control signals for different motors on the truck 1 8 1 Tmote Sky Tmote Sky is an ultra low power wireless module for use in sensor networks monitoring applications and rapid prototyping Tmote Sky leverages industry standards like USB and IEEE 802 15 4 protocol to interoperate seamlessly with other devices Tmote Sky has onboard humidity temperature and light sensors lt uses MSP430F1611 microcontroller from Texas Instrument and an on board radio transceiver CC2420 for wireless communication As we mentioned before to control the trucks we use two
27. e the truck forward You can increase the forward speed by putting more pressure on the RT button Use the LT button to move the truck backward You can increase the reverse speed by putting more pressure on the LT button How does it Work The program simply reads the value from the gamepad and re scales it in range 0 255 using a simple linear conversion For instance moving the left joystick in X axis produces values in 32768 32767 range We re scale it to 0 255 and use it as the steering value 2 Quadrocopter 1 Electric motors A 4 Flight Electronics y rs 4 2 Speed controllers 5 Alumi num frame 1 Electric motors ArduCopter Quadrotor 2 1 Summary The ArduCopter is a multirotor Unmanned Aerial Vehicle UAV development platform based on a design by Jani Hirvinen ArduCopter contains an autopilot from DIY Drones and an airframe from jDrones It has six degrees of freedom three rotational and three translational There are several models of ArduCopter with different number of propellers the most common are tri quad hexa and octa rotors The ArduCopter in the smart mobility lab is ArduCopters quad that we call it quadrocopter and is shown in figure 4 The quadrocopter is fully assembled but to build it from scratch you can refer to the corresponding manual The span from motor to motor is about 60 cm The motors are of electrical brushless type and have a RPM Volt rating of 85
28. ed to the other cameras Therefore the marker threshold can often be lower than on the other camera types Sensor High speed mode The Oqus 3 has a special sensor mode where you only use a fourth of the pixels but still keep the field of view The camera can then capture at 1764 Hz with the sensor resolution of 648x512 slightly larger than the 1 series resolution Figure 11 Cameras configuration on a corner 9 eo E 1 SERIES 3 SERIES 4 SERIES 5 SERIES Pixels 0 3 MP 1 3 MP 3 MP 4 MP an Resolution 640 x480 1280x 1024 1696x 1710 2048 x 2048 Framerate 250 fps 500 fps 480 fps 80 fps Pixels 0 3 MP MP by Resolution N A 640x512 N A 1024x 1024 Frame rate 750 fps 360 fps Standard lens hFOV 41 419 46 49 Lens options hFOV 149 28 41 20 41 58 15 32 46 25 49 Max framerate reduced FOV 000 fps 10 000 fps 10 000 fps 10 000 fps Active filtering outdoor support Yes Yes Yes Yes High speed video option Yes Yes No Yes Lens mount C SLR SLR Cc Figure 12 To start using the system you should make sure that the power adapters are connected to the electricity plug Qualisys DHCP Server QDS A powerful PC in the SML is dedicated for working with the QTM software It has a Core 17 3 4 GHz CPU with 8 GB of RAM that runs 64 bit Windows 7 Two network interface cards are present in this PC One is connected to the KTH network and is assigned a public IP address of 130 237 50 61 The other is
29. els to the right Slider data type is unsigned byte U8 thus the value range is 0 255 Motor Speed This slider controls the speed and direction of back wheels Moving the slider to the left turns on the back wheels in reverse and moving the slider to the right turns on the back wheels in forward Slider data type is unsigned byte U8 thus the value range is 0 255 OpenSF Error if any error occurs in opening the serial forwarder you can see the error message and the error code here WriteSF Error if any error occurs in writing data to the serial forwarder you can see the error message and the error code here Figure 1 Before running the labVIEW program make sure that you have followed the instructions in the previous sections To summarize Program both motes using the corresponding TinyOS code in the repository section 1 8 1 Attach the correct motes to the PC and the truck Connect the battery to the truck and make sure the yellow LED is turned on the Polulo board section 1 8 4 3 Run the serial forwarder on the PC to be able to send data from labVIEW to the PC mote section 1 8 5 4 Re read the precautions in section 1 6 Now change the Destination Id according to the node Id of the Truck mote and run the labVIEW program As soon as you run the labVIEW program LEDs on both motes start blinking Pay attention to the LEDs on the Truck mote e Blinking blue LED means that data is received successfully fr
30. er Autopilot code is stored on the aforementioned microcontroller The autopilot handles both stabilization and navigation and it can be used for different rotor crafts such as helicopters or other types of multirotors It also supports a fly by wire mode that can stabilize an aircraft when flying manually under RC control making it easier and safer to fly 2 4 Propellers The propellers are attached on top of the motors A smaller prop is easier to speed up and slow down whereas a large prop takes a long time to change speeds Basically the motor needs to be matched to the propeller that is used If the propeller forces it to turn too slowly the motor will over heat and fail In the SML we use propellers with 10 x 4 5 in size The first number is the diameter of the prop in inch The larger the number the larger the prop The second number is the pitch of the prop in inch essentially the angle of the twist in the prop The higher this number the bigger the bite the prop takes out of the air A larger prop either in diameter or pitch or both puts more load on the motor but is also more efficient in general Smaller props are generally used for speed larger props for higher thrust at lower speed You ll need two kinds of props puller and pusher Pusher props go clockwise and puller props go counterclockwise To differentiate the two check the letter after the prop size The pusher prop has letter R at the end and puller prop has no l
31. etter or letter P at the end PUSHER PROPELLER HAVE R OR P AFTER SIZE MARK 10X4 5R 10X4 E CLOCKWISE COUNTER CLOCKWISE USE PUSHER PROPELLER USE NORMAL PROPELLER It s a very good idea to balance your props vibration is a multicopter s worst enemy If your copter arms are shaking it s just a matter of time before disaster strikes Here s a video on how to do it balancing the props with a little clear tape Prop orientation should be according to figure 5 The prop should be blowing air down not up Attach the props to the motors as figure 6 shows xn CLOCKWISE ROTATION AZ USE PUSHER PROPELLER COUNTER CLOCKWISE ROTATION USE NORMAL PROPELLER ATTACHING THE PROPS TO THE MOTORS TEXT MARKS SHOULD FACE UPWARDS REGARDLESS OF THE MOTOR POSITION bottom motors on Y6 frame DRONES 2 5 Mission Planner Software Installing Software and Firmware Step 1 Go to the Arducopter Downloads page at the following address and download the latest version of the Mission planner installer It will be called MissionPlanner x x xx msi in which x shows the current version Note that the mission planner software 1s frequently updated https code google com p ardupilot mega downloads list Step 2 Once you have downloaded the installer run it and follow the on screen instructions The mission planner installer will also install all of the system drivers required by arducopter 1f any warning messages
32. in the compartment below the truck and secure it with the lock 2 Attach the Tmote Sky board to the serial adapter board 3 Connect the serial adapter board to the Pololu board using a 3 wire female to female cable as shown in figure 8 note the polarity The purpose of this wire is to send power red and black wires and signal white wire to the Pololu board 4 Plug the steering motor number 3 in figure 3 into the servo O port on the Pololu board Also plug the speed motor number 6 in figure 3 into the servo 1 port on the Pololu board 5 Connect the jumper wire of the power distribution cable figure 6 to the serial adapter board Then connect the other terminal of power distribution cable to the electric speed controller 6 Now connect the power distribution cable to the battery The yellow LED on the Pololu board should turn on a ere last Figure 8 1 8 5 Communication between PC and Mote We use a serial forwarder to send data from computer to the PC mote You can find Java based and C based serial forwarder in the TinyOS installation folder We use the C based serial forwarder which is in tinyos x support sdk c sf Please refer to comm2pc pdf manual to learn more about the concept of serial forwarder and how it can be used Issue the following command to run the serial forwarder We assume that you are using Cygwin in Windows and the PC mote is connected to the port COM15 of the PC DO NOT close the Cygwin window af
33. ing the PWM signals The first channel of the Pololu servo 0 is used for steering and the second channel servo 1 is used to control the speed of the motor The remaining channels are available for future expansions such as controlling the servo that takes care of shifting between gears etc Protocol selection jumper selects one of the communication protocols The default mode is when the jumper is open no shorting block and in this case the Pololu protocol is used By placing the shorting block over the two jumper pins Mini SSC II protocol is used In the SML we use the Pololu mode thus you should make sure that the jumper is open 1 8 3 Serial Adapter Board To interface the Pololu board with the mote s serial port we use a custom board called serial adapter board that provides the pins to connect the Pololu and the mote J1 Power Supply J2 To Polou Micro Serial Servo Controller P1 To Tmote Sky TD 94V 0 2013 03 21 J2r Serial Adapter Board PCB Serial Adapter Board PCB after soldering We ordered the PCB from Cogra Company The board specification is as following Motor controller board 45 39mm X 26 025mm Number of Drills lt 500 Copper thickness 35 micron Board thickness 1 6mm Two sided boards Solder mask both sides Legend print top layer You can download the Gerber file of the board from the following URL the Gerber file format is the de facto industry standard for printed circuit boar
34. ively Slave This is only to show which camera that is sending a synchronization pulse to the other cameras Oqus Display The Oqus camera has a large graphical OLED display and three LEDs on the front to inform the user of the current status of the camera The display shows among other things the camera number and the number of markers currently seen by the camera Note The display will be turned off when the camera enters stand by mode 1 e if the camera has not been in use for 2 hours Start a preview in QTM to light up the display again S o 1 Measurement status indicator Green light The camera is ready to start a measurement Yellow light The camera is measuring Flashing green light Waiting for trigger to start measurement Flashing yellow light Waiting for trigger to switch from pre trigger to post trigger measurement 2 Error indicator A red light indicates that an error has occurred The LED is blinking when a software error occurs and is lit constantly 1f a hardware error occurs 3 IR receiver The IR receiver 1s used for synchronization with certain active markers It detects modulated light with a frequency of 33 kHz and is sensitive to light with wavelengths between 800 and 1100nm 4 Synchronization status During the synchronization phase this symbol is flashing When the camera is synchronized with the master camera in the system it becomes stable 5 WLAN indicator This symbol is displayed when
35. meout msec Set RTS On Close Minimum Write Timeout msec Disable Modem Ctrl At Startup Step 4 Now you can open the mission planner software but do not click the connect button you must first load the correct firmware To do this click on the firmware icon and select the relevant code you want to load In our case you should click on the ArduCopter Vx x x Quad The Mission Planner will autodetect what kind of board you have download the latest code from the Internet and load it on your APM board When you click on the relevant icon to load the code a progress bar shows the firmware update is progressing you may also notice many lights flashing on your ardupilot board Once the firmware has loaded the bar will be completely green Congratulations you have now loaded the latest firmware onto your ardupilot mega board Cy Mission Planner 1 2 33 mav 1 0 Firmwa re Icon ME O ArduRover v2 40 AR2 ArduPlane V2 71 ArduCopter V2 9 1b Quad ArduCopter V2 9 1b Hexa ArduCopter V2 9 1b Heli 2560 ArduCopter V2 9 1b Tri ArduCopter V2 9 1b Y6 ArduCopter V2 9 1b Octa Please click the images above for Flight versions Load custom firmware HIL SIMULATOR Pick previous firmware Images by Max Levine and Marooned First time APM Setup Once you have loaded the firmware onto your board the next step is to run the First time setup This is done with the mission planner that you installed earlier On the mission planner make s
36. om the PC mote e Blinking green LED means the data is written to the UART port Note that in serial forwarder window it is normal to get writing error every once in a while but if it shows too many write failed then something is wrong with the PC mote connection To resolve this you can disconnect the PC mote and plug it again to the USB port Then close and re open the serial forwarder window In most severe case you should reboot your computer and try again If you followed the above steps and still cannot see the LEDs blinking on the mote then change the motes and try again How does it Work Figure 2 shows the block diagram of the labVIEW program OpenSF sub vi is responsible for creating a TCP client process that connects to the TCP server created by the serial forwarder We use this TCP connection to send actuation data to the serial forwarder Serial forwarder forwards the data to the PC mote If TCP connection is established successfully then the while loop will execute Destination Id E Steering WriteSF Error a i Motor Speed Figure 2 In the while loop we create an array from steering and motor speed and send it to the WriteSF We repeat this every 100ms Thus every 100ms we send the actuation data to the serial forwarder Note that changing the loop interval to a high value may make your program unresponsive On the other hand using a low value may overwhelm the PC mote with lots of dat
37. once Scroll though until Setup List is highlighted and click The Setup List will be displayed Scroll through until Model Type is selected and click Select ACRO with the picture of the plane and click Scroll until List in the top right hand corner is highlighted and click Step 4 Set the Model Name Scroll until Model Name is selected and click Scroll until the section under Model 1 is selected and click Model 1 will have a different number depending on which model is selected Using the scroll wheel and clicking to adjust the characters and position give the model a name Once you are happy with the name scroll through to Ok and click Scroll until List in the top right hand corner is highlighted and click Step 5 Control the Truck Having done the above steps successfully you can control the truck using the remote controller as following Throttle is the left stick up and down Steer is the right stick left and right Changing gears is the left stick left and right with the RUDD D R switch in the 0 position Blinking Red LED on the Receiver The AR6210 features a red LED that indicates the number of holds that have occurred since the receiver was last powered on a hold is from a loss of RF signal connection The LED will flash the number of holds then pause e g flash flash flash pause flash flash flash pause indicates three holds occurred since the receiver was last turned on To experience this your
38. rate fixes for sensor drift HMC5843 magnetometer is usually used on the APM shield board This is a 3 axis digital compass board based on the Honeywell s HMC5843 Communication with the HMC5843 is achieved through an 12C interface Two different ways can be used to attach this magnetometer using a cable or mount directly on the board Using a cable You can attach the HMC5843 magnetometer to the APM shield s I2C sensor port which looks like a GPS connector but says No GPS Figure 5 shows this One reason to do this is you intend to daisy chain other I2C sensors to your board Mount directly If you don t plan on using the 4 pin I2C connector on the shield for anything else you can mount the magnetometer directly on top Figure 5 shows this In the SML we use this method Mount magnetometer directly on the board How to enable it https code google com p ardupilot mega wiki MagAPM1 Sonar Sensor http trollmaker com article3 arduino and hc sr04 ultrasonic sensor http www tautvidas com blog 2012 08 distance sensing with ultrasonic sensor and arduino Flash Memory 16 MB data logger chip among other things needed for UAV and Robotics applications including three axis angular rotation and accelerations sensors absolute pressure and temperature sensor 16 MB data logger chip among other things Moreover different sensors GPS Magnetometer Sonar sensor etc are incorporated into it that we will talk about them lat
39. result Fortunately there are products sold under the name of tip activator which allows you to recover from this situation and clean in depth an oxidized tip Note that oxidation cleaning cycles have the effect of gnawing at the tips Check this video on how to use the tip activator Tip Activator Dry Cleaner http www yoctopuce com EN article soldering tutorial http electronics stackexchange com questions 1980 whats the proper soldering iron temperature for standard 031 60 40 solder
40. rmed a red blinking led shows this 5 Change all modes to stabilization it has other modes like acrobatic 2 6 Battery Pack for Quadrocopter The quadrocopters use a battery pack for their operation which is different from the trucks The battery pack consists of 3 Li Po cells 3 7V each that provide 11 1V output with a rated capacity of 2200 mAh It has two different plugs A discharge plug Female XT60 with 2 wires and balance plug with 4 wires A balance plug is nothing more than a breakout connector for accessing all the individual cells contained in a Li Po figure x This allows for the monitoring and manipulation of each cell individually Balancing ensures all cells are always within the appropriate voltage so over charging or discharging of one or more cells won t ruin the battery pack or worse become a safety issue from overcharging a cell Battery Pack for Quadrocopters MAX B6 LiPro Balance Charger Cell 1 Cell 2 Cell 3 How a 3s LiPo is Wired You can use the LiPro Balance charger in the lab to charge the batteries e Always use a Lithium specific charger only Chargers meant for Ni MH batteries only are not appropriate for charging Li Po batteries as they use a different charge scheme Failure to do so may result in fire which could cause personal injury or property damage e Visually inspect the Li Po battery before each use or charge If you observe any damage to the pack or the connecting wires
41. self turn the remote controller off by switching the power button The amber LED on the receiver will turn off and the red LED starts blinking Switch the controller on and off again and you will see the red LED flashes twice Note that holds are reset to zero thus the red LED stops blinking when the receiver is turned off To do this you can simply cut the power to the receiver by unplugging the battery 1 7 1 Troubleshooting The truck moves backwards when it is supposed to go forward Reverse the polarization of the engine The truck does not move straight at neutral steering Calibrate the steering servo adjustment by changing the lengths of the pivots involved or 1f the problem 1s too serious simply dismount the servo and follow the suggestions presented in the manufacturer manual The truck neutral speed is no longer the preset value This happens very often when the truck speed controller goes from interpreting 64 as neutral speed to do so for other speed values To fix set the requested speed back to 64 while you manually reboot the truck speed controller by switching it on and off 1 5 Manual Control using Motes and LabVIEW To be able to communicate with the trucks from computer we use wireless sensor nodes mote The platform that we use is Tmote Sky Two motes are used one attached to the computer figure a and the other is attached to the truck figure b These two motes create a wireless communication path between th
42. ss 40 2 8 MANUAL CONTROL USING MOTESAND LABVIEW sia A 40 QUALISYS MOTION CAPTURE MOCAP SYSTEDM csscssccssccsccsccesccnccnsccsscnscosccnccesccscceccenscnsceeccsscescosccess 41 3 1 MOGCAP LABVIEVV COMMUNICATION cani 49 3 2 APPENDIX 12 SOLDERING INSTRUCTIONS is 50 1 Scania Trucks ar FI I G F Ld N EIE aed y Tamiya Scania Truck 1 1 Summary The miniature truck in the Smart Mobility Lab SML is a realistic scale model of the Scania R470 1 14 scale You have access to a fully assembled truck right from the start but to build the truck from scratch you can refer to the corresponding manual go here and browse for Scania R470 Highline 1 2 Motors Tamiya Scania truck consists of three different motors as shown in figure RC car Servo 4519 is used to control the steering of the truck and HS 645 MG Servo is used to change the gear The truck has 3 gears The three available shifts of the gearbox can be selected using the corresponding servo or a certain gear can be selected manually RS 540SH is responsible for controlling the speed of the truck Steering RC car Servo 4519 Gear Shift HS 645 MG Servo Speed RS 5405H 1 http www tamiva com english rc manuals htm You can manually set the gearbox to the lowest speed possible You can use a wire or other ingenious way of your choice to hold the gear selector shaft in place In the SML we used a cable tie to hold the gear in the lowest speed Note
43. ter you run this command sf 9003 COM15 telosb By running the above command a TCP server process is created in the computer which listens on port number 9003 as shown in figure r Any TCP client can connect to this server and sends data to it The serial forwarder forwards the received data to the PC mote attached to COM15 Process 4 PID Protocal Local Address Local Port Remote Address Remote Port State OUTLOOK EXE 1152 TCP Marni PC 50305 localhost nfed status ESTABLISHED DUTLOOE EXE 1152 UDP Mari PC RETA i i 0DS exe 6112 UDP mani po 3 kth se bootns i j ODS exe 6112 UDF mani pc bootps i GOS exe 6112 UDP manip s kth se bootoc 7 i ODS exe 6112 UDF mani pc bantpe i i ODS exe 6112 UDF mani pe s3 kth se 319 DS exe 6112 UDP marni po 319 il E services exe EFE TCP Mani PL 49105 bani PC U LISTENING E services exe EFE TCPYE marni pne 49105 mani po 0 LISTENING Bl stese 8536 TCP Mani PC 3003 AED O LISTENING WH sidebar ere 4620 UDF Mani PL 60616 i B Skype exe 6412 TCF mani pe s3 kth se 50108 65 55 223 27 40003 ESTABLISHED B Skype exe 6412 TCP mani pe 3 kth se 50110 193 120 199 17 12350 ESTABLISHED 6 Skype exe 6412 TCP Mani PL 80113 localhost hfsd status ESTABLISHED B Skype exe 6412 TCP Mani PC 504 Manr PC O LISTENING 6 Skype exe 6412 UDP Mani PL 1715 x s 6 Skype exe 412 UDP Hani PL Ae 40 j 6 Skype exe 6412 UDP Mani PL 0421 i E spoolsy exe 1724 TCP Mani PL 49178 Man PE
44. that if the cable tie is not tightened enough the gear can go to the neutral state easily especially after truck crash 1 3 Electronic Speed Controller RS 540SH is connected to the Conrad Truck 60WP which is an electronic speed controller and is shown in figure 0 Up to two motors can be connected to the speed controller using the plugs with label 2 In the trucks we only use one pair 1 red and 1 black 1 Battery connection plug female connector 2 Connection plug for 2 motors 2 x red 2 x black 3 On off switch 4 Plug for connection to the receiver 5 Indicator LED Disconnect the battery from the speed controller if you are not using the latter The speed controller can be temporarily switched off using the on off switch Electronic Speed Controller Conrad Truck 60WP 1 4 Battery Pack for Trucks The trucks use a battery pack for their operation The battery pack consists of 6 Ni MH batteries 1 2V each that are connected serially to provide a 7 2V output There are two kinds of battery packs 5000 mAh and 5100 mAh in the smart mobility lab that both can be used in trucks The battery pack is rechargeable You can use the Vector AC DC NX85 charger in the lab to charge the batteries To do this change the charging rate to 0 5 ampere and connect the battery pack to the output note the polarity Turn on the charger and wait until the green LED turns on The charging time depends on how discharged the battery is
45. the WLAN of the camera is activated 6 Master Slave indicator An M indicates that the camera 1s master for the system and by that controls for example internal synchronization An S indicates that the camera is a slave The indicator can also be a rotating sign which means that the camera is looking for the Master camera 7 Camera number The area to the right usually shows the camera number that the camera has in QTM The camera number can be changed with the Reorder tool in the 2D view window This number is stored in the camera so it is shown at the next camera startup 8 Marker area During a marker measurement this area shows the number of markers currently seen by the camera When the gt camera 1s idle or is collecting video this area shows 9 Text area This area is used for scrolling text messages for example during startup Qualisys Track Manager QTM Software In the 2D view you can see the captured view from each camera during the measurement E Capture Er k mera system i Connection l Linearization ID Type serial Calibration Oqus4 13261 i Current Calibration 13350 Bs Start andor stop Neither starting nor stopping Generate events Yes Event hold off time ms 100 Oqus4 13381 TTL signal edge Negative Ogus4 13207 P Pretrigger Oqus4 13380 Capture pretrigger frames No Oqus 3 Oqus4 13225 ARE Ln Es Oqus4 13119 No Extemal timebase Use extemal timebase No Synchronization output
46. ure you have selected the correct COM port and baud rate 115200 and click on Connect in the top right corner The Mission Planner will now connect via MAVLink Go the Firmware tab and click on the APM setup button This will open up a dialog box like figure c that will walk you through the basic setup process described below Step 1 Radio Calibration RC Step 2 Set flight Mode You can choose different flight modes that you can change while you are flying with your RC transmitter channel 5 Toggle your channel 5 switch to see which mode you are currently in indicated by the green highlighted mode Step 3 ArduCopter Level Select Plus Click on Calibrate Accelerometer Step 4 Configure additional hardware Step 5 The code required to control the aircraft is open source and it is easy to modify The ArduCopter also comes with a software called Mission Planner that allows the user to set the controller constants each channel s minimum and maximum PWM limits among other things 1 Attach the USB cable It will power the board The mini USB port is on the board 2 upload the software into the quad 3 Calibrate the throttle pitch The battery should be attached because we need the mote working to send the data Each channel should be calibrated separately In the LabVIEW send 0 then 127 and back to 0 By this you specify a range 4 It seems that the IMU will be calibrated automatically every time the quad is a

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