Self Driving RC Car/2020

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Revision as of 14:32, 24 June 2019 by Wf (talk | contribs) (→‎Screen)
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Parts-List as Excel File

# picture part example sources documents ~ price
1 RC Car Chassis 2019-06-07.jpeg 1:10 RC Car chassis
  1. 1:10 elektro tourenwagen chassis ARR
  2. TAMIYA 57986" 1:10 RC TT-02-Chassis First Try On-Road 
  1. de/en/fr/nl
  2. Tamiya 57986
70 €
2 SpeedControl 2019-06-06.jpg Speed Control Modelcraft Carbon Series Speed Control "20 Turns" de/en/fr/nl 21 €
3 RC Car Servo 2019-06-06.jpg RC-Car servo  
  1. RC-Car servo 4519
  2. Carson 500502036 - Servo CS-6 - 6 kg/JR-Stecker
de/en 10 €
4 TopFuel-LiPo-25C-ECO-X-1300mAh-3S-21300341 b 0.JPG 
  1. TopFuel LiPo 25C-ECO-X 1300mAh 3S 
  2. NiMH 7.2V 3500 mAh
  16 €
5 Absima CB 1S BatteryCharger 2019-06-06.jpg Battery Charger
  1. Ansmann NiMH Charger
27 €
6 713LX1Z383L. SL1500 .jpg Raspberry PI 3 B+ Raspberry PI 3 B+ en  35 €
7 81UBu4aoQHL. SL1500 .jpg  microSD Card SanDisk 16 GB 7 €
8 61Z5yEYfnAL. SL1426 .jpg Raspberry PI Camera 1080 p Camera Module 23 €
9  41smcErJNjL.jpg DC/DC Converter 12 V-> 5V 12 V->5 V Converter Module    7 €
10 31pzC7A3D3L.jpg Micro USB Connector Delock USB 2.0 Micro USB   6 €
        Total  199 €
a 71AYEqpWHcL. SL1500 .jpg Breadbord Kit MB102 Breadbord Kit 7 €
b 714Ep9LpwoL. SL1200 .jpg Ulrasound Sensor 5 x HC-SR04 + Cables 10 €
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DCC-DCC converter

To run the Raspberry PI from the 7.4 Volt Battery of the car the DC-DC converter has to be soldered into the voltage supply chain.

Camera mount

Servo and LED

RcCarWiring2019-06-22.png

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For a start a 3D Printed case for the Raspberry PI was used:

2094b280ac54121f9dad5fc172b1a3eb_preview_featured.jpg 081727802f13879a77f4b8bfbd0277d1_preview_featured.jpg

RaspberryWithCaseIMG 0025.JPG

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Raspbian

Raspbian Stretch with desktop and recommended software

  1. Download Zip File from https://www.raspberrypi.org/downloads/raspbian/
  2. Create SD Card as described in https://www.raspberrypi.org/documentation/installation/installing-images/
  3. Insert SD Card into Raspberry PI
  4. Connect Keyboard, Mouse, HDMI-Monitor and 5 Volt Mini USB (2.5 Amps recommended)
  5. Setup Country, pi user password etc. and connect to your WIFI network - after the setup you'll be asked to restart your pi

WebCam Interface

cd /usr/local/src
sudo git clone https://github.com/silvanmelchior/RPi_Cam_Web_Interface.git
cd RPi_Cam_Web_Interface/
./install.sh

WebCamInterface2019-06-21.png

In case of error

A message like:

#mmal: mmal_component_create_core: could not create component 'vc.ril.camera' (1)
sh: 1: /var/www/html/macros/error_hard.sh: Permission denied

Indicates that you might have a cabling problem.

In case of success

http://<yourpi>/html should show the cam interface: RpiCamControl2019-06-21.png

Servo Interface - Servoblaster

wf@pibee:~ $ cd /usr/local/src
wf@pibee:/usr/local/src $ sudo git clone https://github.com/srcshelton/servoblaster
cd servoblaster
sudo make install
sudo reboot

OpenJDK

sudo apt-get install openjdk-8-jdk

Screen

sudo apt-get install screen
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Deploying to your Raspberry is done by compiling e.g. on a laptop and then transferring the results to your PI.

You need to configure your targetHost and targetUser in a file ~/dukes/dukes.ini

Example Configuration

#
# rc-dukes configuration file
# see https://github.com/rc-dukes/dukes
#
targetHost=10.9.8.7
targetUser=pi

The deploy script as a help option that shows how it can be used:

./deploy.sh -h
deploy.sh [-d|-h|-m|-s]

  -d |--debug             : debug this script
  -m |--maven             : run maven install
  -h |--help              : show this usage
  -s |--start             : deploy and start duke-farm fat jar
  • deploy -m will create the duke-farm fat jar
  • deploy -s will send the jar to your PI using rsync and start it