Difference between revisions of "Self Driving RC Car/2020"

Latest revision as of 13:33, 16 March 2021

https://github.com/rc-dukes/dukes

In the javadoc apidocs you'll also find generated uml-diagrams like this one: https://rc-dukes.github.io/dukes/dukes/apidocs/nl/vaneijndhoven/daisy/package.svg

[edit]

Parts-List as Excel File

#	part	example sources	documents	~ price
1	1:10 RC Car chassis	1:10 elektro tourenwagen chassis ARR TAMIYA 57986" 1:10 RC TT-02-Chassis First Try On-Road	de/en/fr/nl Tamiya 57986	70 €
2	Speed Control	Modelcraft Carbon Series Speed Control "20 Turns"	de/en/fr/nl	21 €
3	RC-Car servo	RC-Car servo 4519 Carson 500502036 - Servo CS-6 - 6 kg/JR-Stecker	de/en	10 €
4		TopFuel LiPo 25C-ECO-X 1300mAh 3S NiMH 7.2V 3500 mAh		16 €
5	Battery Charger	Ansmann NiMH Charger		27 €
6	Raspberry PI 3 B+	Raspberry PI 3 B+	en	35 €
7	microSD Card	SanDisk 16 GB		7 €
8	Raspberry PI Camera	1080 p Camera Module		23 €
9	DC/DC Converter 12 V-> 5V	12 V->5 V Converter Module		7 €
10	Micro USB Connector	Delock USB 2.0 Micro USB		6 €
			Total	199 €
a	Breadbord Kit	MB102 Breadbord Kit		7 €
b	Ulrasound Sensor	5 x HC-SR04 + Cables		10 €

[edit]

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. You might want to select a converter with enough power for your usecase

15 Watt 3 A

This configuration works if you only want to run a Raspberry PI and directly control the motor and steering servos of the RC car.

25 Watt 5 A

This configuration is currently tried for running the servos over an Adafruit 16 channel servo controller and using extra servos.

Camera mount

Servo and LED

[edit]

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

[edit]

see Raspberry PI

WebCam Interface

https://github.com/silvanmelchior/RPi_Cam_Web_Interface

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

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:

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

[edit]

Tested on

Mac OS 10.13.6 High Sierra with macports 2.5.4
Ubuntu 18.04.2 LTS

OpenCV

MacOS

If you'd like to generally use OpenCV you can get it e.g. from the macports project:

MacPorts

sudo port install opencv +java
ls /opt/local/share/OpenCV/java
libopencv_java343.dylib opencv-343.jar

For your convenience you'll find these two files in the lib directory.

From Source

install5 in opencvubuntu has the commands for MacOS - but does not work even if you install dpkg with

sudo port install dpkg

Ubuntu 18

You might want to use scripts/opencvubuntu to download the 75 MByte libopencv_java343.so and install the backports libjasper libraries that are not published with Ubuntu 18 by default. You'll find some other links in the script that might also give you hints on how to proceed if you have another environment or different needs. You might want to create an Issue if you run into trouble.

Windows

Help Wanted -please file an issue if you want to try to get things running on Windows.

[edit]

Deploying to your Raspberry is done by compiling e.g. on a laptop and then transferring the results to your PI.

Compile

scripts/install.sh

There is a usage for this script if you call it with scripts/install.sh -h. Essentially this is doing a mvn clean install. The clean part is important to get the platform specific native openCV Library integrated into the server code.

Example Configuration

You need to configure your PI's host address and user in a file ~/dukes/dukes.ini in the remotecar section. Also you need to check your GPIO pins and the servo settings for your car for LED,Engine and Wheels. You might want to try these things out before using the software the first time.

The original wiring is:

MOTOR: GPIO-17 - Servoblaster ID 1
WHEEL: GPIO-18 - Servoblaster ID 2
LED: GPIO-24 - Servolbaster ID 6

The software uses the standard Servoblaster ID's above which are hard-coded at this time. The GPIO configuration will only work with other devices which we intend to support in the future.

#
# WF 2019-06-21
#
# rc-duke configuration file
# remote car raspberry PI configuration
remotecar.host=picaro
remotecar.user=wf
# camera url format
camera.url=http://picaro/html/cam_pic_new.php
# webserver configuration
webcontrol.port=8080
imageview.port=8081
# watchdog
# how often to send a heart beat in milliseconds
watchdog.heartbeat.interval.ms=150
# how many beats may be missed before remote car is forced to stop
watchdog.max.missed.beats=6
# use servoblaster as servo control
servo.command=servoblaster
# be careful with your GPIO configuration
# you might damage your PI with a misconfiguration!
# led configuration
led.gpio=24
led.on=250
led.off=0
# wheel configuration
wheel.gpio=18
# positive - higher values mean go right
wheel.orientation=+
wheel.center=144
wheel.stepsize=1
wheel.max.left=115
wheel.max.left.angle=-18.0
wheel.max.right=158
wheel.max.right.angle=14
# engine configuration
engine.gpio=17
# positive - higher values means going quicker
engine.orientation=+
engine.speed.zero=130
engine.stepsize=1
engine.min.speed.reverse=127
engine.max.speed.reverse=122
engine.min.speed.forward=133
engine.max.speed.forward=138
engine.max.velocity.reverse=-1.0
engine.min.velocity.reverse=-0.5
engine.min.velocity.forward=0.23
engine.max.velocity.forward=1.0

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

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

  -a |--autostart         : configure the remotecar app to autostart on reboot
  -d |--debug             : debug this script
  -m |--maven             : run maven install
  -h |--help              : show this usage
  -s |--start             : deploy and start remotecar (duke) 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
deploy -a will create an autostart configuration that restarts the client on reboot see https://github.com/rc-dukes/dukes/issues/26

Running the server

- start 'CarServer' in module 'rc-server' in IDE - point your browser to http://localhost:8080

Creating a fatjar of the server

../scripts/install.sh -h
usage: install.sh [-d|-f|-j|-q]* [-h]?

  -d |--debug        : debug this script
  -f |--fatjar       : create a fat jar
  -j |--javadoc      : with javadoc (default is without)
  -q |--quick        : no tests, no javadoc

  -h |--help         : show this usage

From the rc-server directory ../scripts/install.sh -f -q should create a fat jar with the maven assembly-plugin

java -jar target/rc-server-0.0.2-jar-with-dependencies.jar

(Please replace 0.0.2 with the current version of the project)

Should then start the server and the web ui should be available by either using

http://localhost:8080 or using the index.html file or detect.html files from the sources in rc-webcontrol/src/main/resources/web/

Starting all together

The start script will let you pick the components you'd like to start.

scripts/start -h
start [-d|-h]

  -a |--all     : run all parts of the software
  -c |--car     : run car software on pi
  -s |--server  : run server software
  -r |--remote  : point webbrowser to remot control
  -w |--web     : point webbrowser to detect.html
  -d |--debug   : debug this script
  -h |--help    : show this usage

So scripts/start -a will start

the car software on the pi
the server software e.g. on you laptop
point your webrowser to the detect.html page (after waiting for the page to get available)

[edit]

These are just some experiments with the Raspberry PI, Ultrasonic Sensors and Servos that might you get warmed up for the real challenge of getting your 1:10 RC self driving car going. You don't need to go thru all theses experiments. The basic car only uses the camera and two servos and no ultrasonic sensors.

Author: Wolfgang Fahl

Difference between revisions of "Self Driving RC Car/2020"

Latest revision as of 13:33, 16 March 2021

Contents

DCC-DCC converter

15 Watt 3 A

25 Watt 5 A

Camera mount

Servo and LED

WebCam Interface

In case of error

In case of success

Servo Interface - Servoblaster

OpenJDK

Screen

OpenCV

MacOS

MacPorts

From Source

Ubuntu 18

Windows

Compile

Example Configuration

Running the server

Creating a fatjar of the server

Starting all together

Navigation menu

Search

@@ Line 2: / Line 2: @@
 <youtube>OL0vg1WmI6I</youtube>
 <youtube>YeUMtQyvZKM</youtube>
 = Presentation =
 <pdf>https://www.doag.org/formes/pubfiles/11143501/2019-NN-Tim_van_Eijndhoven-Building_a_Self-driving_RC_Car-Praesentation.pdf</pdf>
 = Source Code =
 * https://github.com/rc-dukes/dukes
+In the [https://rc-dukes.github.io/dukes/dukes/apidocs/ javadoc apidocs]
+you'll also find generated uml-diagrams like this one:
+https://rc-dukes.github.io/dukes/dukes/apidocs/nl/vaneijndhoven/daisy/package.svg
 = Parts List =
 [http://wiki.bitplan.com/images/wiki/3/35/RCCarPartsList2019-06-07.xlsx Parts-List as Excel File]
@@ Line 69: / Line 73: @@
 == 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.
+into the voltage supply chain. You might want to select a converter with enough power for your usecase
+=== 15 Watt 3 A ===
+This configuration works if you only want to run a Raspberry PI and directly control the motor and steering servos of the RC car.
 <gallery>
 File:RC_IMG_3116.JPG
@@ Line 76: / Line 82: @@
 File:RC_IMG_3122.JPG
 </gallery>
+=== 25 Watt 5 A ===
+This configuration is currently tried for running the servos over an Adafruit 16 channel servo controller and using extra servos.
+[[File:DSC00011-parts.JPG|800px]]
+[[File:DSC00016-connected.JPG|800px]]
 == Camera mount ==
 <gallery>
@@ Line 92: / Line 103: @@
 [[File:RaspberryWithCaseIMG_0025.JPG|800px]]
-= Installation =
+= PI Installation =
+see {{Link|target=Raspberry PI}}
-== Raspbian ==
-Raspbian Stretch with desktop and recommended software
-# Download Zip File from https://www.raspberrypi.org/downloads/raspbian/
-# Create SD Card as described in https://www.raspberrypi.org/documentation/installation/installing-images/
-# Insert SD Card into Raspberry PI
-# Connect Keyboard, Mouse, HDMI-Monitor and 5 Volt Mini USB (2.5 Amps recommended)
-# 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 ==
@@ Line 141: / Line 146: @@
 sudo apt-get install screen
 </source>
+= Server Installation =
+Tested on
+# Mac OS 10.13.6 High Sierra with macports 2.5.4
+# Ubuntu 18.04.2 LTS
+== OpenCV ==
+see also {{Link|target=OpenCV}}
+=== MacOS ===
+If you'd like to generally use OpenCV you can get it e.g. from the macports project:
+==== MacPorts ====
+<source lang='bash'>
+sudo port install opencv +java
+ls /opt/local/share/OpenCV/java
+libopencv_java343.dylib opencv-343.jar
+</source>
+For your convenience you'll find these two files in the lib directory.
+==== From Source ====
+# install5 in opencvubuntu has the commands for MacOS - but does not work even if you install dpkg with
+<source lang='bash'>
+sudo port install dpkg
+</source>
+=== Ubuntu 18 ===
+You might want to use scripts/opencvubuntu to download the 75 MByte libopencv_java343.so and install the backports libjasper libraries that are not published with Ubuntu 18 by default. You'll find
+some other links in the script that might also give you hints on how to proceed if you have another environment or different needs. You might want to create an Issue if you run into trouble.
+=== Windows ===
+Help Wanted -please file an issue if you want to try to get things running on Windows.
 = Deployment =
 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
+== Compile ==
+<source lang='bash'>
+scripts/install.sh
+</source>
+There is a usage for this script if you call it with <nowiki>scripts/install.sh -h</nowiki>.
+Essentially this is doing a <nowiki>mvn clean install</nowiki>. The clean part is important to get the platform specific native openCV Library integrated into the server code.
 == Example Configuration ==
+You need to configure your PI's host address and user in a file ~/dukes/dukes.ini in the remotecar section.
+Also you need to check your GPIO pins and the servo settings for your car for LED,Engine and Wheels. You might want to try these things out before using the software the first time.
+The original wiring is:
+*    MOTOR: GPIO-17 - Servoblaster ID 1
+*    WHEEL: GPIO-18 - Servoblaster ID 2
+*    LED: GPIO-24 - Servolbaster ID 6
+The software uses the standard Servoblaster ID's above which are hard-coded at this time. The GPIO configuration will only work with other devices which we intend to support in the future.
 <source lang='bash'>
 #
-# rc-dukes configuration file
+# WF 2019-06-21
-# see https://github.com/rc-dukes/dukes
 #
-targetHost=10.9.8.7
+# rc-duke configuration file
-targetUser=pi
+# remote car raspberry PI configuration
+remotecar.host=picaro
+remotecar.user=wf
+# camera url format
+camera.url=http://picaro/html/cam_pic_new.php
+# webserver configuration
+webcontrol.port=8080
+imageview.port=8081
+# watchdog
+# how often to send a heart beat in milliseconds
+watchdog.heartbeat.interval.ms=150
+# how many beats may be missed before remote car is forced to stop
+watchdog.max.missed.beats=6
+# use servoblaster as servo control
+servo.command=servoblaster
+# be careful with your GPIO configuration
+# you might damage your PI with a misconfiguration!
+# led configuration
+led.gpio=24
+led.on=250
+led.off=0
+# wheel configuration
+wheel.gpio=18
+# positive - higher values mean go right
+wheel.orientation=+
+wheel.center=144
+wheel.stepsize=1
+wheel.max.left=115
+wheel.max.left.angle=-18.0
+wheel.max.right=158
+wheel.max.right.angle=14
+# engine configuration
+engine.gpio=17
+# positive - higher values means going quicker
+engine.orientation=+
+engine.speed.zero=130
+engine.stepsize=1
+engine.min.speed.reverse=127
+engine.max.speed.reverse=122
+engine.min.speed.forward=133
+engine.max.speed.forward=138
+engine.max.velocity.reverse=-1.0
+engine.min.velocity.reverse=-0.5
+engine.min.velocity.forward=0.23
+engine.max.velocity.forward=1.0
 </source>
 The deploy script as a help option that shows how it can be used:
 <source lang='bash'>
-./deploy.sh -h
+deploy.sh [-a|-d|-h|-m|-s]
-deploy.sh [-d|-h|-m|-s]
+  -a |--autostart         : configure the remotecar app to autostart on reboot
    -d |--debug             : debug this script
    -m |--maven             : run maven install
    -h |--help              : show this usage
-   -s |--start             : deploy and start duke-farm fat jar
+   -s |--start             : deploy and start remotecar (duke) fat jar
 </source>
 * <nowiki>deploy -m</nowiki> will create the duke-farm fat jar
 * <nowiki>deploy -s</nowiki> will send the jar to your PI using rsync and start it
+* <nowiki>deploy -a</nowiki> will create an autostart configuration that restarts the client on reboot see https://github.com/rc-dukes/dukes/issues/26
+== Running the server ==
+- start 'CarServer' in module 'rc-server' in IDE
+- point your browser to http://localhost:8080
+=== Creating a fatjar of the server ===
+<source lang='bash'>
+../scripts/install.sh -h
+usage: install.sh [-d|-f|-j|-q]* [-h]?
+  -d |--debug        : debug this script
+  -f |--fatjar       : create a fat jar
+  -j |--javadoc      : with javadoc (default is without)
+  -q |--quick        : no tests, no javadoc
+  -h |--help         : show this usage
+</source>
+From the rc-server directory <nowiki>../scripts/install.sh -f -q</nowiki>
+should create a fat jar with the maven assembly-plugin
+<source lang='bash'>java -jar target/rc-server-0.0.2-jar-with-dependencies.jar</source>
+(Please replace 0.0.2 with the current version of the project)
+Should then start the server and the web ui should be available by either using
+http://localhost:8080
+or using the index.html file or detect.html files from the sources in rc-webcontrol/src/main/resources/web/
+== Starting all together ==
+The start script will let you pick the components you'd like to start.
+<source lang='bash'>
+scripts/start -h
+start [-d|-h]
+  -a |--all     : run all parts of the software
+  -c |--car     : run car software on pi
+  -s |--server  : run server software
+  -r |--remote  : point webbrowser to remot control
+  -w |--web     : point webbrowser to detect.html
+  -d |--debug   : debug this script
+  -h |--help    : show this usage
+</source>
+So <nowiki>scripts/start -a</nowiki> will start
+# the car software on the pi
+# the server software e.g. on you laptop
+# point your webrowser to the detect.html page (after waiting for the page to get available)
 = First Experiments =
+These are just some experiments with the Raspberry PI, Ultrasonic Sensors and Servos that might you get warmed up for the real
+challenge of getting your 1:10 RC self driving car going. You don't need to go thru all theses experiments. The basic car only uses the camera and two servos and no ultrasonic sensors.
 # {{Link|target=Ultrasonic Sensor}}
 # {{Link|target=SG90-Servo}}
 # {{Link|target=Raspberry PI Camera}}
 # {{Link|target=Raspberry PWM LED Control}}
+# <youtube>2vAoOYF3m8U</youtube>
+Author: {{Link|target=Wolfgang Fahl}}
 <headertabs/>
-[[Category:Raspberry]]
+[[Category:Raspberry]][[Category:Self Driving RC Car]][[Category:frontend]]