Embedded Motion Control 2014 Group 5: Difference between revisions
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== Week 4 == | == Week 4 == | ||
- Everyone has finished the tutorials | - Everyone has finished the tutorials<br> | ||
- Working on program for the robot (we started too complex and therefore we have to build a more simple program for the corridor challenge) | - Working on program for the robot (we started too complex and therefore we have to build a more simple program for the corridor challenge)<br> | ||
- Setting up program for corridor challenge<br> | - Setting up program for corridor challenge<br> | ||
- Second test robot (unfortunately, we didn't manage to test with the robot)<br> | - Second test robot (unfortunately, we didn't manage to test with the robot)<br> |
Revision as of 19:16, 19 May 2014
Group 5
Name | Student | |
Paul Blatter | 0825425 | p dot blatter at student dot tue dot nl |
Kevin van Doremalen | 0797642 | k dot p dot j dot v dot doremalen at student dot tue dot nl |
Robin Franssen | 0760374 | r dot h dot m dot franssen at student dot tue dot nl |
Geert van Kollenburg | 0825558 | g dot o dot m dot v dot kollenburg at student dot tue dot nl |
Niek Wolma | 0 | n dot a dot wolma at student dot tue dot nl |
Planning
Week 1
- Instal Ubuntu
- Instal ROS
- Setup SVN
- Tutorials
Week 2
- Continu tutorials
- Setting up program for first test
Week 3
- Finishing tutorials
- Continu on program first test
- First test robot
- Program architecture
Week 4
- Everyone has finished the tutorials
- Working on program for the robot (we started too complex and therefore we have to build a more simple program for the corridor challenge)
- Setting up program for corridor challenge
- Second test robot (unfortunately, we didn't manage to test with the robot)
- Corridor challenge (PICO did the job with our program, which wasn't tested before!)
Week 5
Week 6
Week 7
Week 8
Week 9
- Maze challenge
Introduction
The goal of this course is to implement (embedded) software design (with C++ and ROS) to let a humanoid robot navigate autonomously. The humanoid robot Pico is programmed to find its way through a maze, without user intervention.
This wiki page contains the approach and choices that were made by group 5.
Corridor Challenge
Program Architecture
Laser data
The robot contains a laser, which has a view of 270 degrees.
Odometry
Odometry is the use of data of the angular positions of the robot wheels. This data is used to estimate the position of the robot relative to a starting point. The angular positions are converted into Carthesian coordinates (x-, y- and theta-direction). This data is never fully accurate, inter alia due to wheel slip.