MMR: Difference between revisions
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This page holds information relevant for the Natty Bumpo robot. | This page holds information relevant for the Natty Bumpo robot. | ||
===Natty Bumpo – demo instructions (full version)=== | ===Natty Bumpo – demo instructions (full version)=== | ||
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(name the tabs: laser, cam, mrc, client) | (name the tabs: laser, cam, mrc, client) | ||
'''laser''' tab | |||
jca$ ssh demo@smr16 (the usual demo password) | jca$ ssh demo@smr16 (the usual demo password) | ||
demo$ cd bin | demo$ cd bin | ||
demo$ ulmsserver | demo$ ulmsserver | ||
'''cam''' tab | |||
jca$ ssh demo@smr16 (the usual demo password) | jca$ ssh demo@smr16 (the usual demo password) | ||
demo$ cd bin | demo$ cd bin | ||
demo$ ucamserver | demo$ ucamserver | ||
'''mrc''' tab | |||
jca$ ssh demo@smr16 (the usual demo password) | jca$ ssh demo@smr16 (the usual demo password) | ||
demo$ mrc -t1 | demo$ mrc -t1 | ||
'''client''' tab | |||
jca$ cd replay/mmrlive | jca$ cd replay/mmrlive | ||
jca$ auclient | jca$ auclient | ||
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If the remote control is on and set to "comp" (top-left switch "up), and NØDSTOP is down, then the laser scanner display and coordinate system will follow movement of the MMR (push MMR to demonstrate) | If the remote control is on and set to "comp" (top-left switch "up), and NØDSTOP is down, then the laser scanner display and coordinate system will follow movement of the MMR (push MMR to demonstrate) | ||
* | * try (in the client tab) | ||
>> disp help | >> disp help | ||
for display options | for display options | ||
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---- | |||
===make video from images=== | |||
1. Convert to filenames with sequential numbers and a supported image format (e.g. png) | |||
2. run ffmpeg with appropriate options to convert it to a video (final framerate can not be below 25 fps, so same image can be repeated a number of times. | |||
A script to do so could be: | |||
#! /bin/bash | |||
let COUNTER=1000000 | |||
for f in $( ls *ann_2.bmp ); do | |||
echo convert $f path$COUNTER.png | |||
convert $f path$COUNTER.png | |||
#let PREV=$COUNTER | |||
let COUNTER+=1 | |||
# extra repeat of same image | |||
for n in {1..2} | |||
do | |||
convert $f path$COUNTER.png | |||
let COUNTER+=1 | |||
done | |||
done | |||
for k in {1..50}; do | |||
convert $f path$COUNTER.png | |||
#let PREV=$COUNTER | |||
let COUNTER+=1 | |||
done | |||
# convert to mp4 format | |||
# -r 25 frames per second | |||
# -y betyder overskriv destination | |||
ffmpeg -y -r 25 -i path1%06d.png landing.mp4 | |||
ls -l *.mp4 | |||
---- | ---- | ||
Latest revision as of 13:34, 29 November 2016
This page holds information relevant for the Natty Bumpo robot.
Natty Bumpo – demo instructions (full version)
- updated august 2009 / jca
- to demonstrate sensor capabilities (no autonomous drive - sorry)
Using TOSHIBA PC for control (boot with linux).
Login as jca/******
Connect network cable to MMR (yellow crossed net cable)
Set IP adress (as root)
root$ ifconfig eth0 10.0.2.100
Start a console, and create 4 tabs (name the tabs: laser, cam, mrc, client)
laser tab
jca$ ssh demo@smr16 (the usual demo password) demo$ cd bin demo$ ulmsserver
cam tab
jca$ ssh demo@smr16 (the usual demo password) demo$ cd bin demo$ ucamserver
mrc tab
jca$ ssh demo@smr16 (the usual demo password) demo$ mrc -t1
client tab
jca$ cd replay/mmrlive jca$ auclient
This should show camera images and a laser scanner view - in a demonstration mode
If the remote control is on and set to "comp" (top-left switch "up), and NØDSTOP is down, then the laser scanner display and coordinate system will follow movement of the MMR (push MMR to demonstrate)
- try (in the client tab)
>> disp help
for display options
make video from images
1. Convert to filenames with sequential numbers and a supported image format (e.g. png)
2. run ffmpeg with appropriate options to convert it to a video (final framerate can not be below 25 fps, so same image can be repeated a number of times.
A script to do so could be:
#! /bin/bash let COUNTER=1000000 for f in $( ls *ann_2.bmp ); do echo convert $f path$COUNTER.png convert $f path$COUNTER.png #let PREV=$COUNTER let COUNTER+=1 # extra repeat of same image for n in {1..2} do convert $f path$COUNTER.png let COUNTER+=1 done done for k in {1..50}; do convert $f path$COUNTER.png #let PREV=$COUNTER let COUNTER+=1 done # convert to mp4 format # -r 25 frames per second # -y betyder overskriv destination ffmpeg -y -r 25 -i path1%06d.png landing.mp4 ls -l *.mp4
FAQ
Tilt of laser scanner does not work.
The tilt controller can enter a no-operation mode where it needs a reset to resume operation. Reset can be done through the 'smrd' interface or by hardware action:
Hardware reset of laser scanner tilt controller:
Open plastic box behind the laser scanner (4 screws). The PCB closest to the laser scanner is the tilt controller board. The 2-wire (thick gray and orange wires) is the 24 volt supply, unplug this and reinsert. The tilt function should then find the lower extreme and reset to horizontal position.
If the tilt has passed one of the end-switches, the above reset might fail. In this case disconnect the two wires to the motor (red and black (red closest to scanner)) - screwed to the end of the controller board - and connect an external power supply (+/- 2 to 5 volt) to turn the tilt to a normal angle, then try the reset procedure again.
NB! Do not try to turn the laser scanner by hand - it will damage the axle.
Module will not load -- symbol not found
If the server is not compiled with the same library as the module, there may be "symbol not found" errors. The solution is to recompile their server with the same library as the modules (or vise versa).
Robot documentation
Documentation by Malte and Anders is on kalman:/vhome/ ... ?
hardware
1.2 GHz Via C2 processor with 512 MByte RAM.
Serial IO
The following devices are used:
/dev/ttyUSB0 // Laser scanner using USB/serial device /dev/ttyS4 // symbolic link for old laser scanner server /dev/ttyUSB1 // gps receiver /dev/ttyACM0 // Small laser scanner (URG) /dev/ttyS1 // used by smrd for RS485 interface
With kernel version 2.6.17, these are not the devices created by UDEV, they are now all in /dev/tts/*.
The com1 and com2 ports are swapped relative to ordinary SMRs, to correct for this the devices in the mmr are cross-linked in /etc/rc.d/rc.local as follows:
rm /dev/ttyS0 rm /dev/ttyS1 ln -s /dev/tts/1 /dev/ttyS0 ln -s /dev/tts/0 /dev/ttyS1
Further the devices /dev/tts/USB0 and /dev/tts/USB1 may be swapped after a reboot, to solve for this issue the devices are mapped to /dev/ttyUSB0 for gps and /dev/ttyUSB1 for SICK This is done in /etc/rc.d/rc.local using:
if udevinfo -a -p /class/tty/ttyUSB0 | grep 'DRIVER=="pl2303"'; then echo USB0 is GPS, USB1 is SICK # direct ttyUSB0 to tts/USB0 as it is the gps connection ln -s /dev/tts/USB0 /dev/ttyUSB0 # direct ttyS4 to tts/USB1 as it is the SICK laserscanner ln -s /dev/tts/USB1 /dev/ttyS4 ln -s /dev/tts/USB1 /dev/ttyUSB1 else echo USB0 is SICK, USB1 is GPS # direct ttyUSB0 to tts/USB1 as it is the gps connection ln -s /dev/tts/USB1 /dev/ttyUSB0 # direct ttyS4 and ttyUSB1 to tts/USB0 as it is the SICK laserscanner ln -s /dev/tts/USB0 /dev/ttyS4 ln -s /dev/tts/USB0 /dev/ttyUSB1 fi
RAM disk
A RAM disk is mounted at
/mnt/ram
with write access for all. Remember all content are lost after a reboot. The RAM-disk takes RAM as needed up to a maximum of 300 MByte.
The ram disk size is defined in with the other disk definitions
/etc/fstab
with the line
tmpfs /mnt/ram tmpfs size=300m 0 0
The ram-disk is intended for temporary data (logging), that can be used in areas, where no network connection is available or as a fast logging device. These data can then later be copied to a more permanent place - if needed.
Flash disk
An user area is created on the flash disk for more permanent files at
/rhome
Please make a home directory using your initials or project number. e.g. like:
/rhome/ex39
There is limited space on the flash disk - p.t. approx 150 MByte. (Check disk space with the 'df' command).