Vizzy: Difference between revisions

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=Tutorials=
=Tutorials=


[[Turning on and off the Vizzy robot]].
*[[Turning on and off the Vizzy robot]].


=Plan=
=Plan=

Revision as of 13:52, 23 September 2011

Vizzy is a nice and new robot.


Tutorials

Plan

1week - 29May

Head cabling done

Motor control board fixation projected

2week

Definition of computation power, check if iCub version is enough

3week

One shoulder/arm + hand cabled to test

Control board supports built and ready

Shell completly projected

4week



Hardware

Motors

Faulhaber motors

Shell

Still missing the project of one connection


Cabling

Where to connect the cameras???? Sensors???

Computation power

Debian Linux installation on the PC104

Due to the constraints of PCAN bus module, the Debian version must be 4.0 (etch)

  Linux version 2.6.24-etchnhalf.1-686

The repositories of this version are not online anymore, so in order to install the system, you should:

  • Download the netinstaller and the DVDs containing the packages, http://www.debian.org/releases/etch/debian-installer/
  • During installation, there will be a problem due to the unavailability of the packages. At this point continue the install procedure and when rebooting the system you will be able to add manually all the packages you need.


Installation of PCAN bus driver

The original installation procedure is on the robotCub wiki, http://eris.liralab.it/wiki/The_Linux_on_the_pc104 and http://eris.liralab.it/wiki/Compilation_on_the_pc104 . We follow the same procedure,

1) In addition to the iCub and YARP environment variables, and depending on the device you use you will also need:

 PLXCANAPI_DIR=/usr/local/src/robot/drivers/plxCanApi

It is recommended to add this variable to the /etc/bash.bashrc (as root)

   export PLXCANAPI_DIR=/usr/local/src/robot/drivers/plxCanApi

2) Uncompress the file http://eris.liralab.it/iCub/downloads/drivers/linux/pc104etchnhalf-bin-1.2.tgz in the folder /usr/local/src/robot/.

3) Compilation of the iCub repository, which it needs to enable the follwing flags:

ENABLE_icubmod_pcan
ENABLE_icubmod_canmotioncontrol
ENABLE_icubmod_dragonfly2
ENABLE_icubmod_logpolarclient
ENABLE_icubmod_logpolargrabber
ENABLE_icubmod_xsensmtx

ToDo: Check the source code provided by IIT in order to compile it against newer or other Linux versions.

Start up script for PCAN bus driver

Add the following lines to /etc/rc.local script:

  declare -x PLX_SDK_DIR=/usr/local/src/robot/drivers/plxCanApi
  bash -c "$PLX_SDK_DIR/Bin/Plx_load 9030"

The lines above allow the PLX module loading during the pc104 boot.

Enviroment variables for running the iCubInterface

Add the following lines to /etc/bash.bashrc (as root)

   export ICUB_DIR=/iCub
   export ICUB_ROOT=/iCub
   export YARP_DIR=/yarp2/build
   export YARP_ROOT=/yarp2

We recommend to add the lines above before the following lines on /etc/bash.bashrc

   # If not running interactively, don't do anything
   [ -z "$PS1" ] && return

The proper placing of the environment variables will allow to access their values on a non-interactive login.

Enviroment variables for remote login

For remote access such as ssh (putty on Windows), you should add the following line to /etc/profile (as root), right at the beginning:

   /source /etc/bash.bashrc

Dragonfly2

The dragonfly2 requires a libdc1394 library with version >= 2.0.0, which needs to be compiled for this debian version. In addition, we added the following line to the /etc/rc.local script:

   chmod a+rw /dev/raw1394

in order to allow all the users to access the firewire devices.

Segway RMP 50

The Player project http://playerstage.sourceforge.net/ includes a driver for all the Segway RMP platforms. The Player version installed is the 3.0.2, which needs the CAN driver from Kvaser http://www.kvaser.com/. After downloading the driver from Kvaser, the CMAKE variable CANLIB_DIR must point to the folder where the Kvaser folder was decompressed.

In order to compile Player properly, you may have to edit /usr/include/canlib.h and comment out the definitions for DWORD, HANDLE, and BOOL.

After installing player, a way to test the installation is to plug an USB joystick for controlling the Segway and define a configuration file for player as follows:

   driver
   (
     name "linuxjoystick"
     provides ["joystick:0" ]
     requires ["position2d:0"]
     alwayson 1
     timeout 0.0
     max_speed [ 3.0 3.0  30 ]
     port "/dev/input/js0"
   )
   driver
   (
     name "segwayrmp"
     provides ["position2d:0" "position3d:0" "power:0"]
     bus "usb"
     usb_device "/dev/ttyUSB0"
     max_xspeed 1.5
     max_yawspeed 80
   )

Then, execute

   player <configFileName>

Motor Control Boards

Head

2x M4C, 1 MCP status electric specification: projected status fixation: done

Torso and Shoulder

status electric specification: projected, one may be short in current status fixation: projected, under verification

Hands

status electric specification: projected status fixation: under project

Battery

Power demand: ???? Supplier: Kokam Typical 25A - 5Kg - 16x30x5 cm

Charger:?


Segway

Software to be developed

Payload is over the limit, check

Sensors

Cameras

Dragonfly2

Inertial sensor

XSens

Expressions

Shapes, aesthetics, done

Under definition supports, electronic, ...


Tactile sensors

Still some parts missing, magnets

Sensors bought

Electronic board, waiting for PCB, ...

Software under development

http://www.pressureprofile.com/products-fingertps

Laser

Kyoko

Fixation: inside front cover Media:Example.ogg