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COLONY Introduction September 10, 2010. Outline. Motivation Brief Introduction to the Robots Recent Colony Work Current Research Administrative Things. Motivation. Create a colony of robots that does cool stuff Interesting research platform Emergent behaviors Robotic cooperation
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COLONY Introduction September 10, 2010
Outline • Motivation • Brief Introduction to the Robots • Recent Colony Work • Current Research • Administrative Things
Motivation • Create a colony of robots that does cool stuff • Interesting research platform • Emergent behaviors • Robotic cooperation • Multi-agent interaction • Distributed algorithms • Simultaneous Localization and Mapping (SLAM) • …
Why Colonies? • Many successful organisms organize themselves into groups
Why a Colony of Robots? • Robustness • Single robot + single failure = game over • Colony of robots + single failure = one robot down • Distributed intelligence and sensing • One robot cannot be everywhere at once • Colonies can collect and communicate data across distant points within an environment • Collective behavior • Cooperation between robots to accomplish complex tasks • Robots are awesome • More robots are more awesome
Goals Many low-cost robots Open, usable platform Capable hardware Robust open-source code base Research Multi-robot applications Distributed algorithms Emergent behaviors Fun Stuff 6
Brief Colony History • Project started in 2003 by Steve Shamlian • Robots • Firefly I, II • Dragonfly • Scout • BOM, BOM 1.5 • Many research grants • URO - Over 11 Small Undergraduate Research Grants • Ford Motor Company • Robotics Institute • 2 Papers / Conferences • NCUR – National Conferences on Undergraduate Research • AAAI – Association for the Advancement of Artificial Intelligence
Project Leaders John Sexton Ben Wasserman Alex Zirbel Current Members Chris Mar Dan Shope Megan Dority Evan Mullinix Abe Levkoy Nico Paris Ben Poole Hanzhang Hu Distinguished Alumni Austin Buchan Bradford Neuman David Schultz Emily Hart James Carroll Joseph Lee Daniel Jacobs VinayVemuri DevendraGurjar Active Members
Dragonfly 10
Dragonfly – Front View Front IR Rangefinders 11
Dragonfly – Back View Side IR Rangefinders 12
Communication Bearing and Orientation Module (BOM) Localization sensor IR emitter/detector array Relative angle measurements to other robots 13
Communication XBee wireless module 30m indoor range / 100m outdoor range IEEE 802.15.4 (ZigBee) 2.4 GHz Low-cost, low-power Open industry standard 14
Behaviors • Individual and multiple robot behaviors • Simple local interactions can yield complex global actions • Emergent behavior • Use sensor data to control actions
Behaviors • Past Projects: • Obstacle Avoidance • Cooperative Maze Solving • “Follow the Leader” • “Marching Band” 1.0
Autonomous Recharging • Battery charge is limited • Recharging batteries is a pain • Let the robots charge themselves!
Mapping • Autonomous wall following • Obstacle detection using rangefinders • Position estimation using encoders • Wireless data collection
Simulator • Test robot behaviors quickly • Develop behaviors independently of hardware problems • Develop code even when robots are out of reach • Simulating 100 robots is a lot cheaper than having 100 robots
Diagnostic Station • Inconsistent sensors are consequence of inexpensive colony • Calibrate and characterize sensors for every robot • Automate colony maintenance
Formation Control • Make robots form and maintain a spatial relationship • Stay in formation while moving as a group
Current + Future Work • Dynamic Traffic Navigation (SURG Grant) • Make robots drive around on roads autonomously while communicating with each other to simulate and improve traffic systems. • Applications • Self driving cars • Warehouse robots • Automated driving systems • <Your Idea Here>
Colony Scout: System Overview • 4WD all-terrain platform • High speed, high torque motors (200rpm, 45oz-in) • Integrated quadrature encoders (~3mm linear accuracy) • Enhanced Sensor Package • Sonar rangefinders • Digital cliff sensors • Side proximity sensors • Front bumper switches • Yaw rate gyroscope • 3 axis accelerometer (optional) • Integrated charging contacts & homing
Colony Scout: What can you do? • Prototype and test Gumstix board design • Compile OpenEmbedded Linux using bitbake and gcc • Develop AVRARM9 interface • Autonomous Charging Station • Power distribution design, homing beacons • Accessories • Have a cool idea? Make it a reality! For more information and videos: www.ColonyScout.com
FAQ • Why should I join Colony? • Experience with robots • Learn about all phases of research • Proposals (i.e. SURG) • Robotics (design, programming) • Presentation • Awesome long-term project • Experience with motivated, talented team • Exposure to embedded systems, sensors, wireless communication, mobile robotics
FAQ Cont’d • Do I need to know (skill) ? • No! • But you are expected to take an active role in learning • Club members will provide assistance • How much time will this take? • Expect at least 3-10 solid hours per week • The more you put in, the more you get out of it
FAQ • How do I get started? • Make sure we can contact you • Get added to the email list:rc-colony@lists.andrew.cmu.edu • Email jsexton@andrew.cmu.edu to get added • Attend work meetings • First five weeks of meetings will be geared towards getting you up to speed
Meetings • Project Meetings • Fridays, 4:30pm. NSH 1109 • Cookies! • Everyone. Every time. • Status updates, administrative matters • Work Meetings • Monday, Tuesday, Wednesday or Thursday, 6:30pm – 8:30pm in the Club Room
Work Meetings • First few weeks are special! • Hands-on labs to bring you up to speed • Labs will be released online • Can work independently if unable to make work meetings • Members will be in the Club during work meeting hours • Bring your laptops! • Available computers are limited
Colony Introduction Schedule • Lab0 - Dance Competition • [Release date: 9/10/10] [Demo date: 9/24/10] • Lab1 - Dead Reckoning • [Release date: 9/24/10] [Demo date: 10/8/10] • Lab2 - Hunter-Prey • [Release date: 10/8/10] [Checkpoint date: 10/14/10][Demo date: 10/22/10]
Things You Should Look At • C Programming Tutorial • http://www.eskimo.com/~scs/cclass/notes/top.html • Chapters 1 – 3 • Don’t worry about compiling; we’ll show you that • WinAVR • Compiler, linker, loader package for programming our robots • Programmer’s Notepad • Code (text) editor bundled with WinAVR for convenient programming • SVN – Subversion • Source control • Redmine • Wiki • Task management system
Advisor • George Kantor • RI Project Scientist • Teaches several RI classes • Controls, sensor networks, … • Knows a thing or two about robots • Busy guy
Important Emails/Web • Colony list • rc-colony@lists.andrew.cmu.edu – new people • Project Leaders: • jsexton@andrew.cmu.edu • bwasserm@andrew.cmu.edu • azirbel@andrew.cmu.edu • Web: • www.robotcolony.org