Embedded Motion Control 2014 Group 1: Difference between revisions

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== Software architecture ==
== Software architecture ==


Layout:
'''Driving strategy''':
Two different driving strategies are examined:
 
Mid-line: By use of a hough-transform is a visualisation made of the surroundings of pico. By use of this visualisation a centerline trajectory can be determined and used as setpoint trajectory for pico.
 
Wall-tracking: Not the centerline is chosen as the to be controlled setpoint trajectory but the distance to the right wall is chosen as input. Remark: Usefull for the 'always-right'-strategy.
 
<table border="1" cellpadding="5" cellspacing="0" style="width:50%;border-collapse:collapse;">
 
<tr><td>Method</td>
<td>Mid-line</td>
<td>Wall-tracking</td>
</tr>
 
<tr><td>Simplicity</td>
<td>-</td>
<td>+</td>
</tr>
 
<tr><td>Robustness</td>
<td>+</td>
<td>+</td>
</tr>
 
<tr><td>Flexibility</td>
<td>+</td>
<td>-</td>
</tr>
 
<tr><td>CPU time</td>
<td>+/td>
<td>+</td>
</tr>
 
</table>

Revision as of 09:48, 5 May 2014

Group Info

Name: Student id: Email:
Groupmembers (email all)
Sander Hoen 0609581 s.j.l.hoen@student.tue.nl
Marc Meijs 0761519 m.j.meijs@student.tue.nl
Wouter van Buul 0675642 w.b.v.buul@student.tue.nl
Richard Treuren 0714998 h.a.treuren@student.tue.nl
Joep van Putten 0588616 b.j.c.v.putten@student.tue.nl
Tutor
Sjoerd van den Dries n/a s.v.d.dries@tue.nl

Meetings

  1. Meeting - 2014-05-02

Planning

Week 1 (2014-04-25 - 2014-05-02)

  • Installing Ubuntu 12.04
  • Installing ROS
  • Following tutorials on C++ and ROS.
  • Setup SVN
  • Plan a strategy for the corridor challenge

Week 2 (2014-05-03 - 2014-05-09)

  • Finishing tutorials
  • Interpret laser sensor
  • Positioning of PICO


Software architecture

Driving strategy: Two different driving strategies are examined:

Mid-line: By use of a hough-transform is a visualisation made of the surroundings of pico. By use of this visualisation a centerline trajectory can be determined and used as setpoint trajectory for pico.

Wall-tracking: Not the centerline is chosen as the to be controlled setpoint trajectory but the distance to the right wall is chosen as input. Remark: Usefull for the 'always-right'-strategy.

Method Mid-line Wall-tracking
Simplicity - +
Robustness + +
Flexibility + -
CPU time +/td> +