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/

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
• Set up bifferboard with debian (openWRT isn't great for our needs)
• Get serial commands sent from a computer to control the servos
• Chassis - we have wheels, suspension, motor (the car can drive in a straight line now)

What is being done

• Serial interface on the AVR (over-all 90%)

  • set up framework/datastucture for storing and retrieving received commands

  • framework for execution of commands,

  • implement vast array of all required commands (90% done)

    • SETPWM (SETPOS) - testing ongoing

    • MODIFY PWM (MOD) (not done)

    • WRITEPORT

    • READPORT (not done)
    • LCD (not done)
    • ADC (not done)

  • Implement serial communication

  • extended testing
  • Return Error codes over Serial (Not Done)- Every function will return an error code, functions that request informationm will reurn a number 1 or more bytes, then the error code
• Setting up the bifferboard for webcam, serial control, etc.

frame's plans

(this is a striaght copy from IRC which frames is goign to edit into a nice todo list when he can be bothered. he will also fix the spelling.

23:44 <frames> and then after that i nned to redo gen1 to gen 1.5, ad some sort   of semi pseudo GUI, to show hwat;s been recieved and what has
               been transmitted
23:45 <frames> anyway, that's my plans for the short term of the project.
23:46 <frames> oh, and i need to set it up to take the #defiens from the make
               file as a parameter
23:47 <frames> then it's back to adding more functions to the AVR - readPort,
               and finishing of some more LURC commands, and maybe gettign
               RESET working
23:47 <frames> and then onwards to gen2, the excitement of running things on a
               desktop computer
23:50 <frames> zanchey suggested that as a communtication method, i just run
               ssh.exe (well it's not actually called that but you ket the
               poiint - the client software for ssh) inside my program and  then
               pipe to and from it, seems liek a good ifdea to me. heh i could
               set up gen1.5 to outut all revieved values  to stderr, then i
               might be able to display them sepertalty easier
Day changed to 27 Feb 2010
00:04 <frames> oh., last thing: My suggested policy of what code                goes on the
  bifferboard, what one hte avr, and what one hte desktop -
anything that requires knowledge of the hardware one the Car
goes on the AVR, this mean that we have secondairy functionso
 like Turn, webcamPamn webcam tilt- so that none has to know the
range of valeus accepted for a particualr servo's PWM. setPOS
etc will still be there, but new cleaner functions likeFOrward
will be avaialble aswell


18:24 <frames> so i'm decommisioning string2Num.cpp and it's .h and replacing with str2Value.c
18:25 <frames> the new str2value will be ale to do all the smae htigns that string2Num could do (with numbers) but will be more effiecent and will be able to deal with COMMANDS eg CMD_FORWARD
18:25 <frames> and it will have deliminators for ascii
18:26 <frames> and it will have deliminator escape charactors
18:26 <frames> and it will handle errors much better (Ie it will handle errors
at all rather than throwing a message anf ternimating or just crashing  and burning)
18:27 <frames> this is all going on the wiki, i'm too tired to make it neat i'll sort that out in the future too
18:27 <frames> tommorrow i'm taking alot of the day off. 

What needs doing next

• Order USB dongle (crazy johns claims to have cheap ones at the moment)
• Test AVR serial code for robustness and completeness
• Re set-up the bifferboard with a decent OS, eg debain.

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

  • The servos have a full 180 degree range, using PWM values from 0.4ms to 2.4ms with a 20ms period. Using values outside these ranges kills kittens. For the hex values that define these values, see /Trimming.

• 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 and tyres, 2.2" hubs to suit a 3/16" axle - f*** these were expensive -- BobAdamson

• USB power adapter for the bifferboard (for testing)

• Webcam, which should be sufficient to display a 640x480 image

• BEC and ESC, this one is on order

• FT232 converter (MAX232 works, but need a usb adapter for the bifferboard-gps connection anyway) - on order from sparkfun
• 4 port usb hub for the bifferboard - this will allow us to have a usb stick, a webcam, and gps connected all at the same time.
• A buggy kit, with wheels. chassis, motor, steering assembly. (We now have extra parts!)
• Ni-MH battery charger
• USB to serial adapter (sparkfun, 3v version)
• Webcam Mount.

Parts still to get or make

• Motor pod/mount (if we choose to put existing motor into the buggy kits)
• USB broadband dongle (borrow off of Adrian for the moment!)
• serial GPS module

Other info

• Control trimming

• The Oxinabox Lightweight Serial Protocol for AVR mega169 explained

• The Desktop FrontEnd, gen1,

Some programs we are probably going to need

• openWRT (is evil) Debian

• 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.
• pyserial

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

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