Title :
A Distributed Robot Garden System
Author :
Sanneman, Lindsay ; Ajilo, Deborah ; DelPreto, Joseph ; Mehta, Ankur ; Miyashita, Shuhei ; Poorheravi, Negin Abdolrahim ; Ramirez, Cami ; Sehyuk Yim ; Sangbae Kim ; Rus, Daniela
Abstract :
Computational thinking is an important part of a modern education, and robotics provides a powerful tool for teaching programming logic in an interactive and engaging way. The robot garden presented in this paper is a distributed multi-robot system capable of running autonomously or under user control from a simple graphical interface. Over 100 origami flowers are actuated with LEDs and printed pouch motors, and are deployed in a modular array around additional swimming and crawling folded robots. The garden integrates state-of-the-art rapid design and fabrication technologies with distributed systems software techniques to create a scalable swarm in which robots can be controlled individually or as a group. The garden can be used to teach basic algorithmic concepts through its distributed algorithm demonstration capabilities and can teach programming concepts through its education-oriented user interface.
Keywords :
computer aided instruction; control engineering computing; distributed algorithms; educational robots; graphical user interfaces; multi-robot systems; teaching; LEDs; computational thinking; crawling folded robots; design technology; distributed algorithm; distributed multirobot system; distributed robot garden system; distributed system software techniques; education-oriented user interface; fabrication technology; graphical interface; printed pouch motors; programming logic teaching; swimming folded robots; Bluetooth; Cranes; Fabrication; Graphical user interfaces; Insects; Light emitting diodes; Robots;
Conference_Titel :
Robotics and Automation (ICRA), 2015 IEEE International Conference on
Conference_Location :
Seattle, WA
DOI :
10.1109/ICRA.2015.7140058
