Diferencia entre revisiones de «Training on modular snake robots»

Revisión del 05:21 19 feb 2011

A 12 modules caterpillar robot (click to enlarge)

Introduction

Programme

Day 1

• Session 1: Introduction
  • About ourselves
  • Introduction to modular robotics
  • Overview of the training on modular snake robots

• Session 2: Building the MY1 modules
  • All the 30 modules will be built
  • Preparing the battery holders (some cables have to be soldered)
  • Preparing the download cables
  • Building 10 Unimods (Unimod = one module + electronics + batteries)
  • Testing everything

Day 2

• Session 3: Software installation
  • All the software tools will be installed: PIC C compiler, IDE for programming (Codeblock), Software for downloading (pydownloader)
  • Examples of downloading into the electronics boards
  • "Hello world" programming example: compile, download and test the blinking led program

• Session 4: Servo controlling
  • Introduction to servo controlling
  • Test the C programs for positioning the servos
  • Control model: Sinusoidal generators
  • Experiment 1: "The big wave". 10 isolated modules on the ground will oscillate generating a wave. The shape of the emerging wave depend on the local oscillator parameters

Day 3

• First Challenge! Building a 30 module catepillar

• Session 5: Locomotion in 1D (I)
  • Building the PP minimal configuration (We will build 10 robots)
  • Experiments on the locomotion of the PP minimal configuration
  • Building the PPP configuration
  • Locomotion experiments

• Session 6: Locomotion in 1D (II)
  • Challenge!: To build
  • Build the 6 module pitch-pitch configurations (by joining the two PPP configurations)
  • Locomotion experiments
  • Build a 12 modules pitch-pitch configuration
  • Experiments
  • Build a 24 module configuration
  • Experiments
  • Build the 30 modules catepillar

DAY 4

• Second challenge! Building a 30-module snake!!

• Session 7: Locomotion in 2D (I)
  • Building the PYP PYP minimal configuration
  • Explanation of all the locomotion gaits and how to achieve them
  • Building a 6 modules pitch-yaw configuration
  • Locomotion experiments

• Session 8:
  • Building a 9 module pitch-yaw snake (there will be three of them)
  • Locomotion experiments
  • Building a 18 pitch-yaw snake
  • Experiments
  • Building a 30 pitch-yaw snake!

DAY 5

• Session 9: Pending task, resolve questions, complete the unfinished experiments

• Session 10: Conclusions and future work

Authors

• Prof. Dr. Houxiang Zhang. University of Hamburg, Germany
• Dr. Juan Gonzalez-Gomez. Robotics Lab. Universidad Carlos III de Madrid. Spain
• Andres Prieto-Moreno. Universidad Autonoma de Madrid. Spain

References

• Juan Gonzalez-Gomez, "Modular Robotics and Locomotion: Application to Limbless robots". PhD dissertation. Universidad Autonoma de Madrid. Nov/2008. (More information)

• Juan Gonzalez-Gomez, Houxiang Zhang and Eduardo Boemo, "Locomotion Principles of 1D Topology Pitch and Pitch-Yaw-Connecting Modular Robots". Chapter 24 of the Book: Bioinspiration and Robotics: Walking and Climbing Robots, pp. 403-428. Published by Advanced Robotics Systems International and I-Tech Education and Publishing. Vienna, Austria. September 2007. (More Information)

News

• Feb/19th/2011: This page is started