Difference between revisions of "GettingTheGCSRunningonAGumstixBoard"

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= Intro =
= Introduction =


Please take note that the page is in work at the moment and that I am doing my best to have it updated as soon as possible.
Would it not be great to have your small UAS in your backpack, throw it in the air and monitor and even adjust the flight via a small device in your pocket? If you think this would be awesome, read on, since that is what this page is all about. It is the first attempt and will not be about iPad, Android Phones, Amazon Kindles or the likes as a ground station. For this we have other wiki pages. No, we will use a trusted solution; A Gumstix board with Linux on it connected to a small screen.
 
Would it not be great to have your small UAS in your backpack, throw it in the air and monitor and even adjust the flight via a small device in your pocket? If you think this would be awesome, read on, since that is what this page is all about. It is the first attempt and will not be about iPad, Android Phones, Amazon Kindles or the likes as a ground station. For this we have other wiki pages. No, we will use a thrusted solution; A Gumstix with Linux on it.
[[Image:GumstixBoard_OpenUAS.jpg|right|Gumstix carrier board and touchscreen]]


= Outcome =
= Outcome =


Have the Paparazzi GCS monitoring and adjusting a UA via an small Gumstix based device.
The outcome of our efforts will be to:
 
#Have the Paparazzi GCS running on a small [https://www.gumstix.com Gumstix] computer board so we can monitoring and adjust the flight of our unmanned aircraft with just a small simple device.
#Have fully correct instructions on how to get it to work on this wiki page.
 
{TODO add screenshot of working setup}


= Hardware =
= Hardware =


What do you need to get this working:
What do you need to get your groundstation up and running:


# A gumstix board
# A [http://www.gumstix.com/ gumstix] board with a power supply
# Camera
# 8 GB or higher capacity micro SD card, the faster the better
#3.5" screen (such as the LCD panel with the Chestnut) or 4.3"
# USB to mini-USB cable
# Regular UTP network cable
# A small, or big screen, preferably with touch such as the 4.3" LCD panel that comes with the Chestnut board kit or this [https://www.gumstix.com/store/product_info.php?products_id=344 fully integrated Gumstix board]
# Micro-SD to USB adapter or card reader
# A computer that runs Linux OS


= Software =
= Software =


Needed softwares to run this application:
We will install the following on the micro SD card


#Paparazzi software
#Ubuntu OS for Gumstix
#Kivy library
#Support libraries
#Ubuntu kernel on your Gumstix
#Paparazzi main software
#Driver for the camera in order to be used with the Gumstix


= How to start =
==Conventions==
Note: You can just copy the line(s) in the box and paste them in your terminal.
'''But do not copy the $ or # sign at the beginning of a line'''. This symbol is just added on this page to show that the command is to be pasted at a terminal prompt as regular user($) or root user(#).
$  this is an example of how a regular user command for your terminal looks
 
= Get the Operating System =


Well, we have some tutorials on this wiki about how to install Paparazzi. If you need any help to install Kivy, please look at their website, you will find there a good tutorial about how to get started.
= Create an OS =
Pre-requisites
Pre-requisites


    4GB SD card or larger
Have the micro SD card at hand and download this custom OS with everything already installed for a gumstix board and Chestnut43 with touchscreen.
    Download the pre-built image from [[http://releases.linaro.org/12.07/android/images/vexpress-ics-gcc47-armlt-staging-alt-open/vexpress-ics-gcc47-armlt-staging-alt-open.img.gz vexpress-ics-gcc47-armlt-staging-alt-open.img.gz]]


Installation Steps
{TODO: provide an image with everything already fully installed}


    unzip the downloaded pre-build image
==Installation Steps==
    Insert SD card and note the assigned '/dev/sdX'


    $ dmesg
===I'm in ahurry===
    $ SDCARD=/dev/sdX  (sdcard found from dmesg above)
    $ sudo dd bs=64k if=vexpress-ics-gcc47-armlt-staging-alt-open.img of=$SDCARD   


    Continue with the instructions below to Configure your TC2 board to boot the image [link].
If you are eager to start and do not want to install everything thant download [this file] and follow the steps of how to copy it ont an microSD card


Once you have the image written on your sd card you can insert it in the Gumstix and boot up.
Unzip the downloaded OS via
Then type the following in the CuteCom command prompt:
 
    printenv
$ gunzip gcsStix.img.gz
    setenv defaultdisplay lcd43
 
    saveenv
Insert micro SD card in an SD reader and plug it in a USB port of your PC, then on the terminal type:  
    run mmcboot
After that you can reboot your system.


= Connecting peripherals=
$ dmesg
When you have a Linux version running on your Gumstix, you can add a LCD, or a mouse, or a keyboard.
<nowiki>
[170074.104194] sd 7:0:0:0: [sdb] Write Protect is off
[170074.104199] sd 7:0:0:0: [sdb] Mode Sense: 0b 00 00 08
[170074.104999] sd 7:0:0:0: [sdb] No Caching mode page present
[170074.105005] sd 7:0:0:0: [sdb] Assuming drive cache: write through
[170074.107904] sd 7:0:0:0: [sdb] No Caching mode page present
[170074.107911] sd 7:0:0:0: [sdb] Assuming drive cache: write through
[170074.109282]  sdb: sdb1 sdb2
[170074.112159] sd 7:0:0:0: [sdb] No Caching mode page present
[170074.112165] sd 7:0:0:0: [sdb] Assuming drive cache: write through
[170074.112169] sd 7:0:0:0: [sdb] Attached SCSI removable disk
[170074.904553] kjournald starting.  Commit interval 5 seconds
[170074.916813] EXT3-fs (sdb2): using internal journal
[170074.916823] EXT3-fs (sdb2): recovery complete
[170074.916826] EXT3-fs (sdb2): mounted filesystem with ordered data mode
</nowiki>
Note: for my local machine the micro SD card was mounted on /dev/sdb as shown in the code above. Be aware of what you are doing at the next steps, as dd can completely overwrite your hard drive or other devices.
Where sdX is the SD reader device found with the command above, replace sdX with your specific device in the following commands and /path/to/file with the path to your previously downloaded Gumstix image file.


To set up your LCD you must follow these steps:
$ SDCARD=/dev/sdX
$ sudo dd if=/path/to/file/gcsStix.img of=$SDCARD bs=64k


Connect trough CuteCom to the Gumstix
This will take several minutes depending on your configuration and when this is done, safely remove the micro SD card from your computer by right clicking on it and select eject. Then, insert the micro SD card into the Gumstix micro SD slot.
Restart the board and hit a key within 5 seconds:


    Hit any key to stop autoboot: 5
== Connecting peripherals==
When you have a Linux version running on your Gumstix, you can add a LCD, or a mouse, or a keyboard. First, install CuteCom on your local machine running on a terminal:


Then type the following in the CuteCom command prompt:
To set up your LCD you must follow these steps:
#Connect LCD flex cable to Gumstix connector
#Attach USB-to-mini-USB cable to both your local machine and Gumstix board.
#Power up Gumstix board
#Install and start cutecom
$ sudo apt-get install cutecom
$ cutecom
A window will pop up and you must adjust the pull-down menu settings as follows:
Device will usually be either /dev/ttyUSB0 or /dev/ttyUSB1 . You can figure this out by typing on your command prompt:
dmesg|tail
Note: This command lists the last connected devices.
Baud rate must be set to 115200, data bits to 8, stop bits to 1, parity to none, handshake none checked, open for both reading and writing checked, apply settings when opening checked, choose "CR,LF end line" and Char delay 1ms.


    setenv defaultdisplay lcd43
Click on Open device and your connection should start. If you encounter any problems, but you are sure you did everything right, check if your Gumstix board overheated or restart it.


Connect through CuteCom to the Gumstix, restart the board and hit a key within 5 seconds:
Hit any key to stop autoboot: 5
Then type the following in the CuteCom command prompt:
setenv defaultdisplay lcd43
Or, if you are using a 3.5" screen (such as the LCD panel with the Palo35):
Or, if you are using a 3.5" screen (such as the LCD panel with the Palo35):
setenv defaultdisplay lcd35
You can save this setting for future boots by saving it:
saveenv
Finally, continue with the boot process by typing in CuteCom command prompt:
boot


    setenv defaultdisplay lcd35
==Connect to the Gumstix through the network==


You can save this setting for future boots by saving it:
If you want to send files to the Gumstix, you can do it via a ssh connection. In order to do this, both devices, your computer and the Gumstix must be connected to the same network. Once you've done this, you can start setting up the connection.
In order to do so you need to know the IP address of the  Gumstix.


    saveenv
The first thing you need in order to get rid of the USB to mini-USB cable and its physical limitations is to create a user and set a password for it and install openssh.
Please feel free to replace "sergiu" with whatever username you choose, but keep in mind that you must replace it everywhere you encounter "sergiu".
useradd -c "Sergiu S" -m -s "/bin/bash" -G sudo sergiu
Note: -G option will add the user to the specified group.
$ passwd sergiu
You will be asked to enter a password and confirm it. Type your password, then hit CTRL + Enter key combination and then retype your password. If successful, you will get this message:
passwd: password updated successfully


Finally, continue with the boot process by typing in CuteCom command prompt:
$ sudo apt-get install openssh-server
Once you have accomplished this, you must discover the Gumstix ip address, typing on CuteCom:
$ ifconfig -a
Note: if you can't use this command for any reason you can get a list with all the IP addresses on the network using 'arp -a' on your machine.
Among the data returned, you will see something like this:
<nowiki>
eth0      Link encap:Ethernet  HWaddr 00:15:c9:28:c9:ff 
          inet addr:192.168.0.100  Bcast:192.168.0.255  Mask:255.255.255.0
          inet6 addr: fe80::215:c9ff:fe28:c9ff/64 Scope:Link
          UP BROADCAST RUNNING MULTICAST  MTU:1500  Metric:1
          RX packets:3960 errors:0 dropped:0 overruns:0 frame:0
          TX packets:727 errors:0 dropped:0 overruns:0 carrier:0
          collisions:0 txqueuelen:1000
          RX bytes:3734905 (3.7 MB)  TX bytes:63765 (63.7 KB)
          Interrupt:80
</nowiki>


    boot
Now you should be able to connect using:
$ ssh sergiu@192.168.0.100 {TODO USERNAME change}
You will be asked to type the password you previously set for the user.


==Working With Gumstix==
Note: You may get some errors during this installation. This depends on how well you are cooling down your system, how much RAM you have on your platform and so on.  If you get errors when trying install a large number of packages/libraries at once, try to divide them into smaller groups.


=Connect to the Gumstix trought the network=
1. Add a swap file
Due to lack of RAM memory it is possible to see errors like this:
==== ERROR [while installing ocamlfind.1.3.3] ====


Internal error:
  # opam-version    1.0.1 (1.0.0-84-g9b3ff34)
# os              linux
opam: "fork" failed: Cannot allocate memory
'opam install ocamlfind' failed.
The solution to this problem is to create a swap file. For this case I created a 512 MB swap file, but you should adapt its size to the size of your SD card and the needed memory size.


If you want to send files to the Gumstix, you can do it via a ssh connection. In order to do this, both devices, your computer and the Gumstix must be connected to the same same network. Once you did this, you can start setting up the connection.
Execute these commands to create and mount a swap file:
Fistly, you need to know the IP address of the  Gumstix. Start by opening CuteCom and connect to the device.
sudo dd if=/dev/zero of=/swapfile1 bs=1024 count=524288 (will create 512 MB swap file)
When the system loaded, type into CuteCom command prompt:
sudo mkswap /swapfile1
sudo chown root:root /swapfile1
sudo chmod 0600 /swapfile1
sudo swapon /swapfile1
Note: this will remove the swap file each time you shutdown. If you need the file, you have to repeat the swapon command after each boot. An alternative would be to have it mounted every time you boot the system.
For more explanations you can go to [http://www.cyberciti.biz/faq/linux-add-a-swap-file-howto/ this website]


ifconfig -a (if you can't use this command from any reason you can get a list with all the ips on the network using 'arp -a')
2. Autologin


Among the data returned, you will see something like this:
Remove the login prompt


    <nowiki>eth0     
You may want to set your OS to auto-login. Why? Because there may be times you don't have a keyboard for the Gumstix around. You can find a good explanation of this [http://www.liberiangeek.net/2012/03/automatically-login-to-ubuntu-12-04-precise-pangolin/ here] .
    Link encap:Ethernet  HWaddr 00:15:c9:28:c9:ff 
    inet addr:169.16.29.3</nowiki>


Now enter into the command prompt:
$ sudo locale-gen en_US.UTF-8
    sudo dhclient eth1 169.16.29.3
$ sudo apt-get install vim nano # (or use your favorite editor)


When this is done, install on the Gumstix openssh write into the command prompt:
Note: if you get an error at this step, use the --fix-missing option as recommended.
    sudo apt-get install openssh-server
Set a password:
    sudo passwd username
    password  (replace password with any string you want as password)
    password  (retype the password you chose)
Now you should be able to connect using:
    ssh root@169.16.29.3


= Remove the login prompt=
$ sudo vim /etc/lightdm/lightdm.conf
You may want to set your OS to auto-login. Why? Because you may not have at any time a keyboard for the Gumstix around. It is explained [http://www.liberiangeek.net/2012/03/automatically-login-to-ubuntu-12-04-precise-pangolin/ here] very well how to do it.
You have to write in your command prompt:


    sudo vi /etc/lightdm/lightdm.conf
Edit the autologin-user line by replacing the username with your own


and then modify the lines as indicated on the webpage above.
autologin-user=sergiu


There is a chance to get an error like this "Gtk-WARNING **: Locale not supported by C library.". To solve this write into your command prompt:
and add this line:


    sudo locale-gen en_US.UTF-8
autologin-user-timeout=0


or the right locale for your keyboard. If this didn't solve your problem, you may want to read [https://help.ubuntu.com/community/Locale here] more about it.
or the right locale for your keyboard. If this didn't solve your problem, you may want to read [https://help.ubuntu.com/community/Locale here] more about it.


= Remove the Lightdm GUI for freeing memory=
3. More Memory


    sudo apt-get remove lightdm
Remove the Lightdm GUI manager in order to free memory
After this step you must reboot.
$ sudo apt-get remove lightdm
After this step you '''must''' reboot.


= Install paparazzi on the gumstix=
4. More speed
Errors:
W: Failed to fetch http://www.cl.cam.ac.uk/~lpw25/ocaml-rpi/dists/wheezy/main/binary-armel/Packages  404  Not Found


W: Failed to fetch http://paparazzi.enac.fr/debian/dists/wheezy/main/binary-armel/Packages  404  Not Found
Remove processes not needed
$ sudo killall -9 NetworkManager  #(for faster system), {TODO in start the config? still needed?}
Because the size of the original image was 4.3 GB, you have to execute the following set of instructions to resize the partition to 8 GB:


E: Some index files failed to download. They have been ignored, or old ones used instead.
E: dpkg was interrupted, you must manually run 'sudo dpkg --configure -a' to correct the problem.
root@linaro-ubuntu-desktop:~# sudo dpkg --configure -a


#Install Ocaml 4.0
5. Add more space
wget -O ocaml-4.00.0.tar.gz http://caml.inria.fr/pub/distrib/ocaml-4.00/ocaml-4.00.0.tar.gz
cd ocaml-4.00.0
./configure
make world
make opt
umask 022
sudo make install
git clone https://github.com/OCamlPro/opam.git
cd opam
./configure
make (because of overheating you may get some errors, but keep doing 'make')
sudo make install


opam init
#Insert the micro SD card in your local machine´s card reader
eval `opam config env
#Use gparted to increase the size of the partition
=Attempt 10=
$ sudo apt-get install gparted
$ sudo gparted


    sudo add-apt-repository ppa:paparazzi-uav/ppa
==Install the prerequsites==
    (press enter as you will be asked)
Installing one package at a time is the best path to succes since it is likely during installation that you will be asked to re-run some of the commands with the "--fix-missing" option.  
    sudo apt-get install ocaml-findlib libxml-light-ocaml-dev liblablgtk2-ocaml-dev liblablgtk2-gnome-ocaml-dev libocamlnet-ocaml-dev libsdl-ocaml-dev libpcre-ocaml-dev gtk2-engines-pixbuf make gcc g++ libgsl0-dev gnuplot libgnomecanvas2-dev bzip2 git libusb-dev speech-dispatcher glade imagemagick libpcre3-dev
    sudo apt-get install bzip2 git-core make gcc g++ gnuplot glade imagemagick libpcre3-dev libusb-dev python-usb python-lxml python-wxgtk2.8 speech-dispatcher libgnomecanvas2-dev m4
    sudo apt-get install python-lxml, python-wxgtk2.8, python-usb, python-yaml
    sudo apt-get update
sudo apt-get install libocamlnet-ocaml
  sudo apt-get install libocamlnet-ocaml-dev
  could not install  sudo apt-get install liblablgtk-extras-ocaml-dev


Note: because of an error that occured, I installed the packages one by one and the process was succesfully.
$ sudo apt-get install gtk2-engines-pixbuf
$ sudo apt-get install make #already latest
$ sudo apt-get install gcc #already latest
$ sudo apt-get install g++ #already latest
$ sudo apt-get install libgsl0-dev
$ sudo apt-get install gnuplot
$ sudo apt-get install libgnomecanvas2-dev
$ sudo apt-get install bzip2
$ sudo apt-get install git
$ sudo apt-get install libusb-dev
$ sudo apt-get install speech-dispatcher
$ sudo apt-get install glade
$ sudo apt-get install imagemagick
$ sudo apt-get install libpcre3-dev
$ sudo apt-get install git-core
$ sudo apt-get install python-usb
$ sudo apt-get install python-lxml
$ sudo apt-get install python-wxgtk2.8
$ sudo apt-get install m4
$ sudo apt-get install python-yaml
$ sudo apt-get install subversion
$ sudo apt-get install libglade2-dev libgnomeui-dev libgnomecanvas2-dev librsvg2-dev libgtkspell-dev libcanberra-gtk-dev --fix-missing
$ sudo apt-get install libsdl1.2-dev
Create a subdirectory where you will download and install all the libraries and other software tools needed. To keep your home dir tidy use a ''develop'' directory to store all the relevant downloads.


  git clone https://github.com/paparazzi/paparazzi-portability-support.git
  $ mkdir ~/develop
  cd paparazzi-portability-support/linux
  $ cd ~/develop/
sudo ./develenv.sh
sudo apt-get install libxt-dev tcl8.4-dev


==OCAML==


 
$ wget http://caml.inria.fr/pub/distrib/ocaml-4.00/ocaml-4.00.1.tar.gz
  75 sudo apt-get install libocamlnet-ocaml-dev
$ tar -xvzf ocaml-4.00.1.tar.gz
$ cd ocaml-4.00.1
$ ./configure
$ make world
$ make opt
  $ make ocamldoc
$ make ocamlbuild.native
$ make ocamlbuild.byte
$ sudo make install
$ sudo make installopt
$ ocaml -version  #(make sure you have the right version, meaning 4.00.1)
$ cd ~/develop


  83  git clone https://github.com/paparazzi/paparazzi-portability-support.git
==Opam tool==
  84  cd paparazzi-portability-support/linux
#Install the OCAML '''Opam''' tool
  85  sudo ./develenv.sh
  86  sudo apt-get install libxt-dev tcl8.4-dev
  87  cd ~/paparazzi-portability-support/linux/ivy/ivy-c
  88  cd ../../
  89  mv paparazzi-portability-support/ ../
  90  cd ../paparazzi-portability-support/
  91  pwd
  92  cd linux
  93  cd ivy/ivy-c/
  94  fakeroot debian/rules get-orig-source


  97 sudo apt-get install subversion
  $ git clone https://github.com/OCamlPro/opam.git
  98 fakeroot debian/rules get-orig-source
$ cd opam
  99 tar -xvzf ivy-c_3.12.1.orig.tar.gz
  $ ./configure
  100 cd ivy-c-3.12.1/
$ make (because of overheating you may get some errors, but keep doing 'make')
  101 rm -rf debian/
  $ sudo make install
  102 cp -r ../debian .
  $ cd ~/develop
  103 dpkg-buildpackage -rfakeroot -us -uc
  $ mkdir ~/.opam
  104 cd ..
$ opam init
  105 sudo dpkg -i ivy-c_3.12.1-1_armel.deb ivy-c-dev_3.12.1-1_armel.deb
  $ eval `opam config env`
  128 cd ~/paparazzi-portability-support/linux/ivy/ivy-c
Please select yes.
  $ sudo opam install ocamlfind
  $ sudo opam install lablgtk
  $ sudo opam install pcre-ocaml
$ sudo opam install ocamlnet
  $ sudo opam install xml-light


  130  ivy-c-3.12.1/
=portability-support=
  131  cd ivy-c-3.12.1/


  137  make install
#Get paparazzi-portability-support related files
  140  cd ~/paparazzi-portability-support/linux/ivy/ivy-ocaml
  141  fakeroot debian/rules get-orig-source
  142  cd ivy-ocaml-1.1/
  143  cp -r ../debian .
  144  make
  145  svn checkout http://svn.tls.cena.fr/svn/ivy/ivy-ocaml/trunk/ ivy-ocaml


  156 mv ivy-ocaml/ _ivy-ocaml.old
  $ sudo apt-get install  debhelper devscripts fakeroot build-essential autoconf automake autotools-dev dh-make xutils lintian pbuilder dh-ocaml tcl-dev libxt-dev libXt-devel
  157 svn checkout http://svn.tls.cena.fr/svn/ivy/ivy-ocaml/trunk/ ivy-ocaml
$ cd ~/develop
  158 cd ivy-ocaml/
$ <nowiki>git clone https://github.com/paparazzi/paparazzi-portability-support.git</nowiki>
  166  make
$ cd paparazzi-portability-support/linux/
  170  make install
$ sudo ./develenv.sh
  171  dpkg-buildpackage -rfakeroot -us -uc
  $ cd ivy/
$ svn checkout http://svn.tls.cena.fr/svn/ivy/ivy-c/trunk ivy-c
  $ cd ivy-c/src/


    1  dpkg-buildpackage -rfakeroot -us -uc
Patchthe Makefile with :
    2  ll
Patch content:
    3  cd src/
  --- Makefile.orig 2013-05-23 16:36:45.000000000 +0000
    4 ll
  +++ Makefile 2013-05-23 16:32:22.000000000 +0000
    5  cd ..
  @@ -28,6 +28,11 @@
    6  cd ~
FPIC=
    7  ll
  endif
    8  mk develop
   
    9  mkdir develop
  +MACHINE = $(shell uname -m)
  10  cd develop/
  +ifeq ("$(MACHINE)", "armv7l")
  11  ll
  + FPIC = -fPIC
  12  git clone https://github.com/paparazzi/paparazzi-portability-support.git
  +endif
  13  cd paparazzi-portability-support/linux
  +
  14  sudo ./develenv.sh
   
  15  sudo adduser test sudo
  ifndef PREFIX
  16  sudo adduser sergiu sudo
export PREFIX=/usr/local
  17  su root
 
  18  cd paparazzi-portability-support/linux
  $ make all
  19  sudo ./develenv.sh
  $ sudo make install
  20  su root
 
  21  logout
== IVY ==
  22  exit
  23 dpkg-buildpackage -rfakeroot -us -uc
  24  sudo dpkg-buildpackage -rfakeroot -us -uc
  25  login
  26  su login
  27  su root
  28  exit
  29  sudo dpkg -i ivy-c_3.12.1-1_arm**.deb ivy-c-dev_3.12.1-1_arm**.deb
  30  su root
  31  exit
  32  fakeroot debian/rules get-orig-source
  33  su root
  34  exit
  35  sudo cd rules
  36 ls
  37  su root
  38  exit
  39  fakeroot debian/rules get-orig-source
  40  ls
  41  cd debian
  42  ls
  43  cd rules
  44  sudo cd rules
  45 sudo passwd sergiu
  46  su root
  47  exit
  48  cd develop/
  49  ll
  50  cd paparazzi-portability-support/
  51  ll
  52  cd linux
  53  ll
  54  sudo develenv.sh
  55 ./develenv.sh
  56  sudo ./develenv.sh
  57  sudo apt-get install libxt-dev tcl8.4-dev
  58  cd ..
  59  cd linux/ivy/ivy-c
  60 ll
  61  fakeroot debian/rules get-orig-source
  62  tar -xvzf ivy-c_3.12.1.orig.tar.gz
  63  cd ivy-c-3.12.1/
  64 rm -rf debian/
  65 cp -r ../debian .
  66 dpkg-buildpackage -rfakeroot -us -uc
  67 find replace-mkdirhier.patch
  68 find -iname  replace-mkdirhier.patch
  69 ll
  70 cd debian/
  71 ll
  72 rm patches/
  73  rmdir patches/
  74  rm -rf patches/
  75  rmdir patches/
  76  ll
  77  dpkg-buildpackage -rfakeroot -us -uc
  78  touch changelog
  79  dpkg-buildpackage -rfakeroot -us -uc
  80 ll
  81  cd ..
  82  dpkg-buildpackage -rfakeroot -us -uc
  83  sudo dpkg-buildpackage -rfakeroot -us -uc
  84  history
  85  dpkg-buildpackage -rfakeroot -us -uc
  86  top
  87  dpkg-buildpackage -rfakeroot -us -uc
  88  sudo make clean
  89  cat Makefile
  90  ll
  91  cd ..
  92  ll
  93  cd ivy-c-3.12.1/
  94  ll
  95  cd src/
  96  ll
  97  ivy-c-3.12.1/make clean
  98  make
  99 sudo make install
  100  cd ..
  101  cd ../../
  102  cd ivy-ocaml/
  103  ll
  104  fakeroot debian/rules get-orig-source
  105  cd ivy-ocaml-1.1/
  106  ll
  107  make
  108  cd ../../ivy-c/
  109  ll
  110  cd ivy-c-3.12.1/
  111  ll
  112  cd src/
  113  ll
  114  cat Makefile
  115  grep -Ri fPIC Makefile
  116  cd ../../
  117  cd ../
  118  cd ivy-ocaml/
  119  ll
  120  cd ivy-ocaml-1.1/
  121  ll
  122 grep -Ri fPIC Makefile


IVY is a simple protocol and a set of open-source libraries and programs that allows applications to broadcast information through text messages, with a subscription mechanism based on regular expressions. The project can be found at: http://www2.tls.cena.fr/products/ivy/ 


= Experimental steps =
In the paparazzi project, Ivy is used to send telemetry data to where ever you want.


# Remove LightDM GUI to preserver Gumstix memory
NOTE: Do not confuse this IVY with the Apache Ivy project.


{TODO: Describe STEPS}
== Ivy-OCAML ==


{install python}
The Ivy-ocaml is a Library that make it possible to use Ivy via the Ocaml language.
{install ivy python}
{install kivy}


Compile example
$ cd ~/develop/paparazzi-portability-support/linux/ivy/
$ <nowiki>svn checkout http://svn.tls.cena.fr/svn/ivy/ivy-ocaml/trunk ivy-ocaml</nowiki>
$ cd ivy-ocaml/
$ make
$ sudo PATH=$PATH make install


Source of Example


X11 server to display on LCD
=== Ivy-python ===
   
 
= Installing =
The ivy-python package makes it possible to use the IVY libraries from within the Python programming language. The ivy-python package is architecture independent, so it can be downloaded from the Ubuntu or Debian paparazzi repository. However since this is the from scratch page we will download it from the official source repository via
 
$ cd ~/develop/paparazzi-portability-support/linux/ivy/
$ <nowiki>svn co http://svn.tls.cena.fr/svn/ivy/ivy-python/trunk ivy-python</nowiki>
$ cd ivy-python/
$ sudo python setup.py install
 
== Main sourcecode ==
Now all the prequisites are installed, finally we can grab a copy of the full Paparazzi project
 
$ cd ~
$ <nowiki>git clone https://github.com/paparazzi/paparazzi.git</nowiki>
$ cd paparazzi
$ export PPRZ_HOME=~/paparazzi/
$ export PAPARAZZI_HOME=~/paparazzi/
$ export PAPARAZZI_SRC=~/paparazzi/
$ make ground_segment
 
Calibrate your touchsreen
$ sudo apt-get install xinput_calibrate
$ X &
$ export DISPLAY=:0
$ xinput_calibrate
You will have to touch the center of the  four circles. When you will have touched all four points, you will get a similar message on your command prompt.
 
--> Making the calibration permanent <--
  copy the snippet below into '/etc/X11/xorg.conf.d/99-calibration.conf'
Section "InputClass"
<nowiki> Identifier "calibration" </nowiki>
<nowiki> MatchProduct "ADS7846 Touchscreen" </nowiki>
<nowiki> Option "Calibration" "147 3917 3783 251" </nowiki>
EndSection
 
Note: each time you reboot you will need to start X server. Now, because we already started it to calibrate the screen, you can skip the next two commands. Only this time!
 
Fine, now lets start the X server.
$ X &
 
And make a display setting
 
$ export DISPLAY=:0
 
Finally, it's time to party, let's run the Paparazzi center
 
$ cd ~/paparazzi
$ ./paparazzi
 
Add this to the session
 
$ sw/ground_segment/cockpit/gcs -b 192.168.1:2010
 
= Testing =
= Telemetry =
Hardware list:
#Laptop with paparazzi softaware
#Gumstix board
#XBee module
#USB power hub
#UAV with RC transceiver and xbee module
#internet connection
 
Note: from the tests made, the xbee module won't be seen by the Gumstix board if it is not connected before you power up the system.
For this tests, it was used this drone:
 
{TODO provide pictures}
You can find here all the configuration files. Download them and copy them as it follows:
$ cd ~/paparazzi/conf/system/udev/rules/
$ sudo cp -av *rules /etc/udev/rules.d/
$ mkdir conf/radios/sergiu
$ cp conf/radios/sergiu ~Downloads/sergiu_mx22_pprz-ap.xml {TODO change the names with something more appropriate}
$ git remote -v
$ mkdir conf/airframes/sergiu
$ cp conf/airframes/sergiu ~/Downloads/orange.xml {TODO change file name}
$ cp conf/ ~/Downloads/conf.xml
$ cp conf/airframes/sergiu/ ~/Downloads/orange.xml
  $ ./paparazzi
 
Download this tarball {TODO provide tarball} and extract it in /home/user/paparazzi/var/ . Inside you will find all the files needed to run paparazzi GCS with datalink.
 
{TODO provide files orange.xml,radio...xml, udev rules, config.xml; set datalink properly and
explain how to build, upload, execute + print screens}
 
= Add a joystick =
{TODO add calibration steps}
 
$ cd ~/paparazzi/sw/ground_segment/joystick
$ make clean
$ make
In Paparazzi Center select Tool>>Joystick and make sure that the line looks like this:
/home/sergiu/paparazzi/sw/ground_segment/joystick/input2ivy -ac orange2 extreme_3d_pro.xml
where '/sergiu' must be replaced with your user, 'orange2' with the name of your A/C and 'extreme_3d_pro.xml' with the name of your joystick.
 
Edited ~/paparazzi/conf/conf.xml .


<nowiki>opened tools:
server  /home/sergiu/paparazzi/sw/ground_segment/tmtc/server
gcs    /home/sergiu/paparazzi/sw/ground_segment/cockpit/gcs
data link  /home/sergiu/paparazzi/sw/ground_segment/tmtc/link  -udp
joystick  /home/sergiu/paparazzi/sw/ground_segment/joystick/input2ivy  -ac ardrone2_sdk  extreme_3d_pro.xml
messages  /home/sergiu/paparazzi/sw/ground_segment/tmtc/messages
real-time plotter  /home/sergiu/paparazzi/sw/logalizer/plotter
</nowiki>
Notes: wireless connection in between the drone and laptop is required for data link.


= Testing =
= Testing =
{TODO: Describe here a first run with Paparazzi Sim}
=onboard video=


= Next =
System identification
$ cat /proc/bus/input/devices
output
I: Bus=0019 Vendor=0000 Product=0006 Version=0000
N: Name="Video Bus"
P: Phys=LNXVIDEO/video/input0
S: Sysfs=/devices/LNXSYSTM:00/LNXSYBUS:00/PNP0A08:00/LNXVIDEO:00/input/input4
U: Uniq=
H: Handlers=kbd event4
B: PROP=0
B: EV=3
B: KEY=3e000b 0 0 0 0 0 0 0


The next step will be to make onboard video work in the GCS.
Install mplayer
$ sudo apt-get install mplayer2
to make sure that the program is working properly type
$ mplayer
and you are supposed to get a list of the options available.
 
Get image using mplayer, Terratec Grabby digitizer, 2.4GHz receiver, and a camera with 2.4 GHz transmitter:
$ dmesg
and look if your digitizer is registered as /dev/video0 which is the default or otherwise and replace bellow
$  mplayer tv:// -tv driver=v4l2:width=320:height=240:norm=NTSC:input=0:device=/dev/video0:noaudio
where
  inputs: 0 = Composite1; 1 = S-Video;
If 0 doesn't work for you, try with value 1.
{TODO: video receiver connect description }
{TODO: video digitizer a description }


= Links =
= Links =
Links to related information


* [[OMAP]]
* [[OMAP]]
* https://www.gumstix.com/
* https://www.gumstix.com/
* [[Dev/Caspa]]
* [[Dev/Caspa]]
* https://github.com/paparazzi/paparazzi-portability-support

Latest revision as of 10:24, 14 August 2013

Introduction

Would it not be great to have your small UAS in your backpack, throw it in the air and monitor and even adjust the flight via a small device in your pocket? If you think this would be awesome, read on, since that is what this page is all about. It is the first attempt and will not be about iPad, Android Phones, Amazon Kindles or the likes as a ground station. For this we have other wiki pages. No, we will use a trusted solution; A Gumstix board with Linux on it connected to a small screen.

Gumstix carrier board and touchscreen

Outcome

The outcome of our efforts will be to:

  1. Have the Paparazzi GCS running on a small Gumstix computer board so we can monitoring and adjust the flight of our unmanned aircraft with just a small simple device.
  2. Have fully correct instructions on how to get it to work on this wiki page.

{TODO add screenshot of working setup}

Hardware

What do you need to get your groundstation up and running:

  1. A gumstix board with a power supply
  2. 8 GB or higher capacity micro SD card, the faster the better
  3. USB to mini-USB cable
  4. Regular UTP network cable
  5. A small, or big screen, preferably with touch such as the 4.3" LCD panel that comes with the Chestnut board kit or this fully integrated Gumstix board
  6. Micro-SD to USB adapter or card reader
  7. A computer that runs Linux OS

Software

We will install the following on the micro SD card

  1. Ubuntu OS for Gumstix
  2. Support libraries
  3. Paparazzi main software

Conventions

Note: You can just copy the line(s) in the box and paste them in your terminal. But do not copy the $ or # sign at the beginning of a line. This symbol is just added on this page to show that the command is to be pasted at a terminal prompt as regular user($) or root user(#).

$  this is an example of how a regular user command for your terminal looks

Get the Operating System

Pre-requisites

Have the micro SD card at hand and download this custom OS with everything already installed for a gumstix board and Chestnut43 with touchscreen.

{TODO: provide an image with everything already fully installed}

Installation Steps

I'm in ahurry

If you are eager to start and do not want to install everything thant download [this file] and follow the steps of how to copy it ont an microSD card

Unzip the downloaded OS via

$ gunzip gcsStix.img.gz

Insert micro SD card in an SD reader and plug it in a USB port of your PC, then on the terminal type:

$ dmesg 

[170074.104194] sd 7:0:0:0: [sdb] Write Protect is off
[170074.104199] sd 7:0:0:0: [sdb] Mode Sense: 0b 00 00 08
[170074.104999] sd 7:0:0:0: [sdb] No Caching mode page present
[170074.105005] sd 7:0:0:0: [sdb] Assuming drive cache: write through
[170074.107904] sd 7:0:0:0: [sdb] No Caching mode page present
[170074.107911] sd 7:0:0:0: [sdb] Assuming drive cache: write through
[170074.109282]  sdb: sdb1 sdb2
[170074.112159] sd 7:0:0:0: [sdb] No Caching mode page present
[170074.112165] sd 7:0:0:0: [sdb] Assuming drive cache: write through
[170074.112169] sd 7:0:0:0: [sdb] Attached SCSI removable disk
[170074.904553] kjournald starting.  Commit interval 5 seconds
[170074.916813] EXT3-fs (sdb2): using internal journal
[170074.916823] EXT3-fs (sdb2): recovery complete
[170074.916826] EXT3-fs (sdb2): mounted filesystem with ordered data mode

Note: for my local machine the micro SD card was mounted on /dev/sdb as shown in the code above. Be aware of what you are doing at the next steps, as dd can completely overwrite your hard drive or other devices. Where sdX is the SD reader device found with the command above, replace sdX with your specific device in the following commands and /path/to/file with the path to your previously downloaded Gumstix image file.

$ SDCARD=/dev/sdX
$ sudo dd if=/path/to/file/gcsStix.img of=$SDCARD bs=64k

This will take several minutes depending on your configuration and when this is done, safely remove the micro SD card from your computer by right clicking on it and select eject. Then, insert the micro SD card into the Gumstix micro SD slot.

Connecting peripherals

When you have a Linux version running on your Gumstix, you can add a LCD, or a mouse, or a keyboard. First, install CuteCom on your local machine running on a terminal:

To set up your LCD you must follow these steps:

  1. Connect LCD flex cable to Gumstix connector
  2. Attach USB-to-mini-USB cable to both your local machine and Gumstix board.
  3. Power up Gumstix board
  4. Install and start cutecom
$ sudo apt-get install cutecom
$ cutecom

A window will pop up and you must adjust the pull-down menu settings as follows: Device will usually be either /dev/ttyUSB0 or /dev/ttyUSB1 . You can figure this out by typing on your command prompt:

dmesg|tail

Note: This command lists the last connected devices. Baud rate must be set to 115200, data bits to 8, stop bits to 1, parity to none, handshake none checked, open for both reading and writing checked, apply settings when opening checked, choose "CR,LF end line" and Char delay 1ms.

Click on Open device and your connection should start. If you encounter any problems, but you are sure you did everything right, check if your Gumstix board overheated or restart it.

Connect through CuteCom to the Gumstix, restart the board and hit a key within 5 seconds:

Hit any key to stop autoboot: 5

Then type the following in the CuteCom command prompt:

setenv defaultdisplay lcd43

Or, if you are using a 3.5" screen (such as the LCD panel with the Palo35):

setenv defaultdisplay lcd35

You can save this setting for future boots by saving it:

saveenv

Finally, continue with the boot process by typing in CuteCom command prompt:

boot

Connect to the Gumstix through the network

If you want to send files to the Gumstix, you can do it via a ssh connection. In order to do this, both devices, your computer and the Gumstix must be connected to the same network. Once you've done this, you can start setting up the connection. In order to do so you need to know the IP address of the Gumstix.

The first thing you need in order to get rid of the USB to mini-USB cable and its physical limitations is to create a user and set a password for it and install openssh. Please feel free to replace "sergiu" with whatever username you choose, but keep in mind that you must replace it everywhere you encounter "sergiu".

useradd -c "Sergiu S" -m -s "/bin/bash" -G sudo sergiu

Note: -G option will add the user to the specified group.

$ passwd sergiu

You will be asked to enter a password and confirm it. Type your password, then hit CTRL + Enter key combination and then retype your password. If successful, you will get this message:

passwd: password updated successfully
$ sudo apt-get install openssh-server

Once you have accomplished this, you must discover the Gumstix ip address, typing on CuteCom:

$ ifconfig -a 

Note: if you can't use this command for any reason you can get a list with all the IP addresses on the network using 'arp -a' on your machine. Among the data returned, you will see something like this:

eth0      Link encap:Ethernet  HWaddr 00:15:c9:28:c9:ff  
          inet addr:192.168.0.100  Bcast:192.168.0.255  Mask:255.255.255.0
          inet6 addr: fe80::215:c9ff:fe28:c9ff/64 Scope:Link
          UP BROADCAST RUNNING MULTICAST  MTU:1500  Metric:1
          RX packets:3960 errors:0 dropped:0 overruns:0 frame:0
          TX packets:727 errors:0 dropped:0 overruns:0 carrier:0
          collisions:0 txqueuelen:1000 
          RX bytes:3734905 (3.7 MB)  TX bytes:63765 (63.7 KB)
          Interrupt:80 

Now you should be able to connect using:

$ ssh sergiu@192.168.0.100 {TODO USERNAME change}

You will be asked to type the password you previously set for the user.

Working With Gumstix

Note: You may get some errors during this installation. This depends on how well you are cooling down your system, how much RAM you have on your platform and so on. If you get errors when trying install a large number of packages/libraries at once, try to divide them into smaller groups.

1. Add a swap file Due to lack of RAM memory it is possible to see errors like this:

==== ERROR [while installing ocamlfind.1.3.3] ====
Internal error:
  # opam-version    1.0.1 (1.0.0-84-g9b3ff34)
# os              linux
opam: "fork" failed: Cannot allocate memory
'opam install ocamlfind' failed.

The solution to this problem is to create a swap file. For this case I created a 512 MB swap file, but you should adapt its size to the size of your SD card and the needed memory size.

Execute these commands to create and mount a swap file:

sudo dd if=/dev/zero of=/swapfile1 bs=1024 count=524288 (will create 512 MB swap file)
sudo mkswap /swapfile1
sudo chown root:root /swapfile1
sudo chmod 0600 /swapfile1
sudo swapon /swapfile1

Note: this will remove the swap file each time you shutdown. If you need the file, you have to repeat the swapon command after each boot. An alternative would be to have it mounted every time you boot the system. For more explanations you can go to this website

2. Autologin

Remove the login prompt

You may want to set your OS to auto-login. Why? Because there may be times you don't have a keyboard for the Gumstix around. You can find a good explanation of this here .

$ sudo locale-gen en_US.UTF-8
$ sudo apt-get install vim nano # (or use your favorite editor)

Note: if you get an error at this step, use the --fix-missing option as recommended.

$ sudo vim /etc/lightdm/lightdm.conf

Edit the autologin-user line by replacing the username with your own

autologin-user=sergiu

and add this line:

autologin-user-timeout=0

or the right locale for your keyboard. If this didn't solve your problem, you may want to read here more about it.

3. More Memory

Remove the Lightdm GUI manager in order to free memory

$ sudo apt-get remove lightdm

After this step you must reboot.

4. More speed

Remove processes not needed

$ sudo killall -9 NetworkManager  #(for faster system), {TODO in start the config? still needed?}

Because the size of the original image was 4.3 GB, you have to execute the following set of instructions to resize the partition to 8 GB:


5. Add more space

  1. Insert the micro SD card in your local machine´s card reader
  2. Use gparted to increase the size of the partition
$ sudo apt-get install gparted
$ sudo gparted

Install the prerequsites

Installing one package at a time is the best path to succes since it is likely during installation that you will be asked to re-run some of the commands with the "--fix-missing" option.

$ sudo apt-get install gtk2-engines-pixbuf
$ sudo apt-get install make #already latest
$ sudo apt-get install gcc #already latest
$ sudo apt-get install g++ #already latest
$ sudo apt-get install libgsl0-dev
$ sudo apt-get install gnuplot
$ sudo apt-get install libgnomecanvas2-dev
$ sudo apt-get install bzip2
$ sudo apt-get install git
$ sudo apt-get install libusb-dev
$ sudo apt-get install speech-dispatcher
$ sudo apt-get install glade
$ sudo apt-get install imagemagick 
$ sudo apt-get install libpcre3-dev
$ sudo apt-get install git-core
$ sudo apt-get install python-usb
$ sudo apt-get install python-lxml
$ sudo apt-get install python-wxgtk2.8
$ sudo apt-get install m4
$ sudo apt-get install python-yaml 
$ sudo apt-get install subversion
$ sudo apt-get install libglade2-dev libgnomeui-dev libgnomecanvas2-dev librsvg2-dev libgtkspell-dev libcanberra-gtk-dev --fix-missing
$ sudo apt-get install libsdl1.2-dev

Create a subdirectory where you will download and install all the libraries and other software tools needed. To keep your home dir tidy use a develop directory to store all the relevant downloads.

$ mkdir ~/develop
$ cd ~/develop/

OCAML

$ wget http://caml.inria.fr/pub/distrib/ocaml-4.00/ocaml-4.00.1.tar.gz
$ tar -xvzf ocaml-4.00.1.tar.gz 
$ cd ocaml-4.00.1
$ ./configure
$ make world
$ make opt
$ make ocamldoc
$ make ocamlbuild.native
$ make ocamlbuild.byte
$ sudo make install
$ sudo make installopt
$ ocaml -version  #(make sure you have the right version, meaning 4.00.1)
$ cd ~/develop

Opam tool

  1. Install the OCAML Opam tool
$ git clone https://github.com/OCamlPro/opam.git
$ cd opam
$ ./configure 
$ make (because of overheating you may get some errors, but keep doing 'make')
$ sudo make install
$ cd ~/develop
$ mkdir ~/.opam
$ opam init
$ eval `opam config env`

Please select yes.

$ sudo opam install ocamlfind
$ sudo opam install lablgtk 
$ sudo opam install pcre-ocaml
$ sudo opam install ocamlnet
$ sudo opam install xml-light

portability-support

  1. Get paparazzi-portability-support related files
$ sudo apt-get install  debhelper devscripts fakeroot build-essential autoconf automake autotools-dev dh-make xutils lintian pbuilder dh-ocaml tcl-dev libxt-dev libXt-devel
$ cd ~/develop
$ git clone https://github.com/paparazzi/paparazzi-portability-support.git
$ cd paparazzi-portability-support/linux/
$ sudo ./develenv.sh
$ cd ivy/
$ svn checkout http://svn.tls.cena.fr/svn/ivy/ivy-c/trunk ivy-c
$ cd ivy-c/src/

Patchthe Makefile with : Patch content:

--- Makefile.orig	2013-05-23 16:36:45.000000000 +0000
+++ Makefile	2013-05-23 16:32:22.000000000 +0000
@@ -28,6 +28,11 @@
	FPIC=
endif

+MACHINE = $(shell uname -m)
+ifeq ("$(MACHINE)", "armv7l")
+	FPIC = -fPIC
+endif
+

ifndef PREFIX
	export PREFIX=/usr/local
$ make all
$ sudo make install

IVY

IVY is a simple protocol and a set of open-source libraries and programs that allows applications to broadcast information through text messages, with a subscription mechanism based on regular expressions. The project can be found at: http://www2.tls.cena.fr/products/ivy/

In the paparazzi project, Ivy is used to send telemetry data to where ever you want.

NOTE: Do not confuse this IVY with the Apache Ivy project.

Ivy-OCAML

The Ivy-ocaml is a Library that make it possible to use Ivy via the Ocaml language.

$ cd ~/develop/paparazzi-portability-support/linux/ivy/
$ svn checkout http://svn.tls.cena.fr/svn/ivy/ivy-ocaml/trunk ivy-ocaml
$ cd ivy-ocaml/
$ make
$ sudo PATH=$PATH make install


Ivy-python

The ivy-python package makes it possible to use the IVY libraries from within the Python programming language. The ivy-python package is architecture independent, so it can be downloaded from the Ubuntu or Debian paparazzi repository. However since this is the from scratch page we will download it from the official source repository via

$ cd ~/develop/paparazzi-portability-support/linux/ivy/
$ svn co http://svn.tls.cena.fr/svn/ivy/ivy-python/trunk ivy-python
$ cd ivy-python/
$ sudo python setup.py install

Main sourcecode

Now all the prequisites are installed, finally we can grab a copy of the full Paparazzi project

$ cd ~
$ git clone https://github.com/paparazzi/paparazzi.git
$ cd paparazzi
$ export PPRZ_HOME=~/paparazzi/
$ export PAPARAZZI_HOME=~/paparazzi/
$ export PAPARAZZI_SRC=~/paparazzi/
$ make ground_segment

Calibrate your touchsreen

$ sudo apt-get install xinput_calibrate
$ X &
$ export DISPLAY=:0
$ xinput_calibrate

You will have to touch the center of the four circles. When you will have touched all four points, you will get a similar message on your command prompt.

--> Making the calibration permanent <--
 copy the snippet below into '/etc/X11/xorg.conf.d/99-calibration.conf'
Section "InputClass"

Identifier "calibration" MatchProduct "ADS7846 Touchscreen" Option "Calibration" "147 3917 3783 251"

EndSection

Note: each time you reboot you will need to start X server. Now, because we already started it to calibrate the screen, you can skip the next two commands. Only this time!

Fine, now lets start the X server.

$ X &

And make a display setting

$ export DISPLAY=:0

Finally, it's time to party, let's run the Paparazzi center

$ cd ~/paparazzi
$ ./paparazzi

Add this to the session

$ sw/ground_segment/cockpit/gcs -b 192.168.1:2010

Testing

Telemetry

Hardware list:

  1. Laptop with paparazzi softaware
  2. Gumstix board
  3. XBee module
  4. USB power hub
  5. UAV with RC transceiver and xbee module
  6. internet connection

Note: from the tests made, the xbee module won't be seen by the Gumstix board if it is not connected before you power up the system. For this tests, it was used this drone:

{TODO provide pictures} You can find here all the configuration files. Download them and copy them as it follows:

$ cd ~/paparazzi/conf/system/udev/rules/
$ sudo cp -av *rules /etc/udev/rules.d/
$ mkdir conf/radios/sergiu
$ cp conf/radios/sergiu ~Downloads/sergiu_mx22_pprz-ap.xml {TODO change the names with something more appropriate}
$ git remote -v
$ mkdir conf/airframes/sergiu
$ cp conf/airframes/sergiu ~/Downloads/orange.xml {TODO change file name}
$ cp conf/ ~/Downloads/conf.xml
$ cp conf/airframes/sergiu/ ~/Downloads/orange.xml
$ ./paparazzi

Download this tarball {TODO provide tarball} and extract it in /home/user/paparazzi/var/ . Inside you will find all the files needed to run paparazzi GCS with datalink.

{TODO provide files orange.xml,radio...xml, udev rules, config.xml; set datalink properly and explain how to build, upload, execute + print screens}

Add a joystick

{TODO add calibration steps}

$ cd ~/paparazzi/sw/ground_segment/joystick
$ make clean
$ make

In Paparazzi Center select Tool>>Joystick and make sure that the line looks like this:

/home/sergiu/paparazzi/sw/ground_segment/joystick/input2ivy -ac orange2 extreme_3d_pro.xml 

where '/sergiu' must be replaced with your user, 'orange2' with the name of your A/C and 'extreme_3d_pro.xml' with the name of your joystick.

Edited ~/paparazzi/conf/conf.xml .

opened tools: server /home/sergiu/paparazzi/sw/ground_segment/tmtc/server gcs /home/sergiu/paparazzi/sw/ground_segment/cockpit/gcs data link /home/sergiu/paparazzi/sw/ground_segment/tmtc/link -udp joystick /home/sergiu/paparazzi/sw/ground_segment/joystick/input2ivy -ac ardrone2_sdk extreme_3d_pro.xml messages /home/sergiu/paparazzi/sw/ground_segment/tmtc/messages real-time plotter /home/sergiu/paparazzi/sw/logalizer/plotter Notes: wireless connection in between the drone and laptop is required for data link.

Testing

{TODO: Describe here a first run with Paparazzi Sim}

onboard video

System identification

$ cat /proc/bus/input/devices

output

I: Bus=0019 Vendor=0000 Product=0006 Version=0000
N: Name="Video Bus"
P: Phys=LNXVIDEO/video/input0
S: Sysfs=/devices/LNXSYSTM:00/LNXSYBUS:00/PNP0A08:00/LNXVIDEO:00/input/input4
U: Uniq=
H: Handlers=kbd event4 
B: PROP=0
B: EV=3
B: KEY=3e000b 0 0 0 0 0 0 0

Install mplayer

$ sudo apt-get install mplayer2

to make sure that the program is working properly type

$ mplayer

and you are supposed to get a list of the options available.

Get image using mplayer, Terratec Grabby digitizer, 2.4GHz receiver, and a camera with 2.4 GHz transmitter:

$ dmesg

and look if your digitizer is registered as /dev/video0 which is the default or otherwise and replace bellow

$  mplayer tv:// -tv driver=v4l2:width=320:height=240:norm=NTSC:input=0:device=/dev/video0:noaudio

where

 inputs: 0 = Composite1; 1 = S-Video;

If 0 doesn't work for you, try with value 1. {TODO: video receiver connect description } {TODO: video digitizer a description }

Links

Links to related information