Embedded Motion Control 2015 Group 11

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Group Members

Name Student number Email
Changjie Guan 0927222 c.guan@student.tue.nl
Yang Xu 0918430 y.xu.1@student.tue.nl
Bolin Zhao 0925735 b.zhao@student.tue.nl
Zhe Zhao 0815651 z.zhao@student.tue.nl
Fei Chen 0923761 f.chen@student.tue.nl
Yizhou Ye 0925611 y.ye@student.tue.nl
Yiran Liu 0843177 y.liu.1@student.tue.nl

Introduction

Task and goal: Find way out of maze as fast as possible.

Requirement

The requirement analysis base on the problem statement and divide in different level of important as ‘must’,’should’,’could’ and ‘wont'

  • the robot must can get out of the maze
  • the robot must take action by itself
  • the robot should get out of the maze as soon as possible
  • the robot won’t hint the wall

Functions

Ensure all the requirements can be meeted.

  • Move forward and backward, turn around
  • Detect the doors
  • Detec the distance between the front wall and the robot
  • Remember the path and and the door, grid the path and store it with 0 or 1, representing the pass available or not respectively.
  • Each step, select a direction where is available. If the current grid has not been recorded, record it and move on. If the current gird has been recorded as well as its surrounding grids, randomly choose a grid from recorded and move on. If all the maze has been searched, the robot must go out the maze.

Activity model

Port-based interaction.jpg

Behavioural model

Wikipedia encyclopedia

Behavioural model:

  • Environment context
  • Task context
    • Task monitor
    • Task control
  • Skill context (updated to latest version)
    • Find minimum value of sensor (“index”)
    • Save data (including map, robot situation, etc.)
    • Calculate the location and situation of robot (“update”)
    • Align the robot coordinate system (Feedback angle)
    • Turn around & J-turn
    • Judge the robot is in the center of the road
    • Check and judge cross
    • Check exit (Leave the maze)
    • Check dead end (J-turn)
    • Make the robot back to the center of the road (Feedback location)
  • Robot context

Structure model

Wikipedia encyclopedia

Schedule

May. 13: Corridor competition.
June. 10: Final presentation.
June. 17: Maze competition.

Corridor Competition

Our PICO failed at the corridor competiton. Fortunately, we get some feedback from it:

  • The “move ahead” function was executed in open loop, with too accurate drift control.
  • The robot crashed into the wall.
  • The robot slide was not controlled, the judgement condition code needs to be rebuilt.

After some effort in improving code, during the second time test, our program finally works.

PICO.jpg


Algorithms

Moving forward or backward

Turning

Presentations

First presentation is about: Task-skill-motion system architecture and the composition pattern.
Second presentation is more about: Coding and Composition Pattern.
  • Final presentation

Maze Competition