Embedded Motion Control 2017 Group 9: Difference between revisions

From Control Systems Technology Group
Jump to navigation Jump to search
Line 63: Line 63:


=== Components ===
=== Components ===
drive control
drive control <br>
‐Holonomic base (omni‐wheels) <br>
Holonomic base (omni‐wheels)  
‐Pan‐tilt unit for head <br><br>
Pan‐tilt unit for head  
detection  
detection  
‐170◦ wide‐angle camer <br>
170◦ wide‐angle camer  
‐Laser Range Finder (LRF) <br>
‐Wheel encoders (odometry) <br>
Laser Range Finder (LRF)  
‐Asus Xtion Depth sensor <br><br>
world model <br>
Wheel encoders (odometry)  
computer <br>
‐Intel I7 <br>
Asus Xtion Depth sensor  
‐Ubuntu 14.04
world model
computer  
Intel I7  
Ubuntu 14.04


=== Specifications ===
=== Specifications ===

Revision as of 19:11, 15 May 2017

Group Members

Name: Student id:
Mian Wei X
Zhihao Wu X
Petrus Teguh Handoko X
Bo Deng X
Bo Cong X
Jian Wen Kok X
Nico Huebel Tutor


Initial Design

File:Assignment-for-week1.pdf

Requirements

➢ PICO drives autonomously through maze
➢ PICO should find the exit and the whole robot is across the finish line within 5 minutes.
➢ PICO is able to deal with approximately axis‐aligned walls, open spaces and loops in the maze.
➢ The task has to be finished within 2 attempts in 7 minutes.
➢ PICO should not stand still for 30 seconds which counts as an attempt
➢ PICO may not touch the wall
➢ The whole PICO should stop within 1.3m to a dead end, and detect whether the dead end is a door.
➢ PICO should detect every dead it meet
➢ At the exit PICO should drive forward for 40 cm
➢ The software is easy to set‐up

Functions

Functionsg9.jpeg

Components

drive control
‐Holonomic base (omni‐wheels)
‐Pan‐tilt unit for head

detection ‐170◦ wide‐angle camer
‐Laser Range Finder (LRF)
‐Wheel encoders (odometry)
‐Asus Xtion Depth sensor

world model
computer
‐Intel I7
‐Ubuntu 14.04

Specifications

The goal and the requirements will be achieved with the following specifications:

Robot

  • The maximum transnational speed of the robot is 0.5 m/s
  • The maximum rotational speed equals 1.2 rad/s
  • The corridor challenge has to be solved in 5 minutes
  • The maze challenge has to be solved in 7 minutes
  • Both challenges have a maximum of two trials
  • The laser range finder (LRF) has a range of 270 degrees
  • The wheel encoders have an unknown accuracy
  • The robot must not be idle for more than 30 seconds

Maze

  • The corners will be approximately 90 degrees
  • The wall distance is 0.5-1.5 meter
  • There is only 1 door in the maze
  • The door starts opening in 2 seconds
  • The door opens if the robot is within 1.3 meter of the door
  • The door is open in 5 seconds
  • The number of rings must not be larger than the number of potential doors
  • The maze may contain loops
  • The maze can contain dead ends


Interfaces

Interfaces for Pico/Taco robot in EMC Maze Challenge

The main relations between the interfaces are colored red and can be described as follows:

World model -> Task:The world model can give information about taken paths to the Task
World model -> Skill:The stored observations in the world model are used for movement skills
World model -> Motion:The world model can give data to the actuators
World model -> User interface: The user interface needs the data from the world model to visualize the world model to the human
Task -> World model:The task needs to store information about paths in world model
Skill -> World model :The world model is build from observations
Motion -> World model :The motion can give sensor data about the position to the world model