Embedded Motion Control 2013 Group 5

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Group members

Name: Student ID:
Arjen Hamers 0792836
Erwin Hoogers 0714950
Ties Janssen 0607344
Tim Verdonschot 0715838
Rob Zwitserlood 0654389


Tutor:
Sjoerd van den Dries

Planning

DATE TIME PLACE WHAT
September, 16th 15:30 GEM-N 1.15 Meeting
September, 23th 10:00 [unknown] Test on Pico
September, 25th 10:45 GEM-Z 3A08 Corridor competition
October, 23th 10:45 GEM-Z 3A08 Final competition

To do list

DATE WHO WHAT
asap Tim, Erwin Exit detection
asap Rob, Ties, Arjen Move through the corridor

Logbook

Figure 1: Laser data
Figure 2: Line detection
Figure 3: Line detection OpenCV
Figure 4: Structure ROS Corridor

Week 1

  • Installed the following software:
    • Ubuntu
    • ROS
    • SVN
    • Eclipse
    • Gazebo


Week 2

  • Did tutorials for ROS and the Jazz simulator.
  • Get familiar to 'safe_drive.cpp' and use this as base for our program.


Week 3

  • Played with the Pico in the Jazz simulator by adding code to safe_drive.cpp.
  • Translated the laser data to a 2d plot (see Figure 1).
  • Used the Hough transform to detect lines in the laser data. For the best result, the following steps are used:
    • Made an image of the laser data points.
    • Converted the RGB-image to grayscale.
    • Used a binary morphological operator to connect data points which are close to each other. This makes it easier to detect lines.
    • Detected lines using the Hough transform.
  • To implement this algorithm in C++ code OpenCV will be used.
  • The algorithm is implemented in the safe_drive.cpp.
  • The line detection method mentioned above works fine and is tested in the simulation (see figure 3,the green lines are the detected lines).


Week 4

  • During the corridor competition pico failed to leave the maze, this was due to a paramount safety check (close range / collision) in the code. With no time left to edit, we were forced to give up. After this we decided to reorganize our software architecture by means of building seperate communicating nodes. This new scheme is depicted in figure four.




Software architecture

Our current software architecture can be seen in figure four. We have centralized our motion planning in the strategy node. This node

-opencv image -hough transform -sorting -> kies links en rechts

-motionplanning plaatje rob



Some interesting reading

  • A. Alempijevic. High-speed feature extraction in sensor coordinates for laser rangefinders. In Proceedings of the 2004 Australasian Conference on Robotics and Automation, 2004.
  • J. Diaz, A. Stoytchev, and R. Arkin. Exploring unknown structured environments. In Proc. of the Fourteenth International Florida Artificial Intelligence Research Society Conference (FLAIRS-2001), Florida, 2001.
  • B. Giesler, R. Graf, R. Dillmann and C. F. R. Weiman (1998). Fast mapping using the log-Hough transformation. Intelligent Robots and Systems, 1998.
  • Laser Based Corridor Detection for Reactive Navigation, Johan Larsson, Mathias Broxvall, Alessandro Saffiotti http://aass.oru.se/~mbl/publications/ir08.pdf