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| The LURC is planned to be a remote control car with all the bells and whistles. Picture a standard remote control car. | The LURC (the Long-Range UCC Reconnaissance Car) is planned to be a remote control car with all the bells and whistles. Picture a standard remote control car. |
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| [[mailto:oxinabox@ucc|Lyndon 'Frames' White]] is helping with the AVR code and serial interface. <<BR>> | [[mailto:oxinabox@ucc|Lyndon 'Frames' White]] is doing the AVR code and serial interface. <<BR>> |
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| What is done ---- * Serial interface on the AVR end is done(ish) * <a href="http://redneckrobots.com/BatteryTips/BatteryTips.htm">Assemble cells</a> into a 7.2V battery pack |
~+What is done +~ ---- * [[http://redneckrobots.com/BatteryTips/BatteryTips.htm|Assemble cells]] into a 7.2V battery pack |
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| What needs doing next | ~+What is being done +~ ---- * Serial interface on the AVR (over-all 80%) * match polulo protocol for servo controllers (not done) * set up framework/datastucture for storing and retrieving received commands (./) * framework for execution of commands, (./) * implement vast array of all required commands including PWM, LCD. (20% done) * Implement serial communication, (receiving). (90% done, more conclusive testing remains) ~+What needs doing next +~ |
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| Parts we have got | ~+Parts we have got +~ |
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| * Brushless motor, 3800 Kv <a href="http://www.himodel.com/electric/3800KV_Outrunner_Brushless_Motor_for_450_Class_Helicopter_Type_H2835-H.html"> </a> | * [[http://www.himodel.com/electric/3800KV_Outrunner_Brushless_Motor_for_450_Class_Helicopter_Type_H2835-H.html|Brushless motor]], 3800 Kv |
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| * Router board with usb and serial for central control (<a href="http://wiki.openwrt.org/oldwiki/openwrtdocs/hardware/asus/wl500gpv2">this one</a> is on order) * Alternatively, a <a href="http://bifferos.bizhat.com/">Bifferboard</a>, which has already arrived, could be used. This has the advantage of onboard IO. |
* A [[http://bifferos.bizhat.com/|Bifferboard]]. This will be used to connect to the outside world, the webcam, and the AVR Butterfly. |
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| * USB power adapter for the bifferboard (for testing) * [[http://jaycar.com.au/productView.asp?ID=QC3231&CATID=20&form=CAT&SUBCATID=688| Webcam]], which should be sufficient to display a 640x480 image |
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| Parts still to get or make | ~+Parts still to get or make +~ |
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| * MAX232 converter * Testing power supply for the bifferboard * <a href="http://en.wikipedia.org/wiki/Battery_eliminator_circuit"> BEC</a> and <a href="http://en.wikipedia.org/wiki/Electronic_speed_control">ESC</a> |
* FT232 converter (MAX232 was proving problematic at 3.3v) * [[http://en.wikipedia.org/wiki/Battery_eliminator_circuit| BEC]] and [[http://en.wikipedia.org/wiki/Electronic_speed_control|ESC]] |
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| * <a href="http://jaycar.com.au/productView.asp?ID=QC3231&CATID=20&form=CAT&SUBCATID=688"> Webcam</a>, which should be sufficient to display a 640x480 image * <a href="http://www.angelfire.com/electronic/hayles/charge1.html"> Battery charger</a> |
* [[http://www.angelfire.com/electronic/hayles/charge1.html| Battery charger]] |
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| * AVRstudio 4 * WinAVR (wich has the AVR-GCC C compiler) * br@y's Terminal, one of the best GUI COM terminal programs. |
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Description
The LURC (the Long-Range UCC Reconnaissance Car) is planned to be a remote control car with all the bells and whistles. Picture a standard remote control car. Now, throw out the radionics and replace it with a decent computer, controlled over the internet. Then add a webcam with pan and tilt, so the remote driver can see where he/she is going. Then add GPS. Then add solar power boosting. Then add battery level feedback to the remote driver. Top all this off with a whiz-bang steering wheel and driving pedals on a desktop, and you have yourself UWA's coolest car.
Creation date: November 2009
Location of source: http://svn.ucc.asn.au:8080/oxinabox/LURC/ (soon to be moved to a public repo)
Project leader
Bob Adamson is the leader and finance for this project.
List of people involved
Lyndon 'Frames' White is doing the AVR code and serial interface.
John Hodge has volunteered to write some fancy code for the web interface, and has threatened to put his acess kernel on the router :S.
Other people such as Rufus Garton-Smith and Adrian Chadd have been conscripted into helping with the webcam and the 3g dongle respectively (thanks guys!).
Did I mention that OTHER PEOPLE ARE WELCOME TO GET INVOLVED?
Also, thanks to Mitch Kelly for his advice, even though we don't always agree on things 
Project plan
What is done
Assemble cells into a 7.2V battery pack
- A significant amount of waiting for parts to arrive :S
What is being done
- Serial interface on the AVR (over-all 80%)
- match polulo protocol for servo controllers (not done)
set up framework/datastucture for storing and retrieving received commands
framework for execution of commands,
- implement vast array of all required commands including PWM, LCD. (20% done)
- Implement serial communication, (receiving). (90% done, more conclusive testing remains)
What needs doing next
- Order USB dongle (crazy johns claims to have cheap ones at the moment)
- Set up SVN for the project code
- Set up router/bifferboard with a basic operating system such as openWRT
- Test AVR serial code for robustness and completeness
- Get serial commands sent from a computer to control the servos
Parts we have got
Brushless motor, 3800 Kv
- Servos x 3. These are smaller than what was expected at about 1x2x3cm, but should be strong enough
- C size rechargeable cells, 6x3300mah NiMH
- AVR atmega169 butterfly board
- Solar panel
A Bifferboard. This will be used to connect to the outside world, the webcam, and the AVR Butterfly.
- Wheels, gears, axles, and other RC car parts - I just dug out the old Meccano set
- USB power adapter for the bifferboard (for testing)
Webcam, which should be sufficient to display a 640x480 image
Parts still to get or make
- FT232 converter (MAX232 was proving problematic at 3.3v)
- USB broadband dongle (borrow off of Adrian for the moment!)
- USB to serial adapter and serial GPS module
Other info
Some programs we are probably going to need
- openWRT
- wvdial (a command line dial-in PPP utility)
- MJPG-streamer (stream webcam using various output plugins)
- AVRstudio 4
- WinAVR (wich has the AVR-GCC C compiler)
- br@y's Terminal, one of the best GUI COM terminal programs.
Links
http://wiki.openwrt.org/oldwiki/ddnshowto for dynamic dns
http://wiki.openwrt.org/inbox/asus-wl500gp will be handy for getting usb and webcam going
http://josefsson.org/openwrt/dongle.html will help with getting Huawei usb dongle going
http://linux-uvc.berlios.de/faq/ just to check webcam compatibility
