Content area
Abstract
Segmented myriapod-like bodies may offer performance benefits over more common fixed body morphologies for ambulation. Here, the design of a segmented ambulatory microrobot with a flexible backbone is presented. A dynamic model describing the motion of the microrobot is used to determine body parameters. A three-segment microrobot was fabricated using the Smart Composite Microstructures process and piezoelectric bimorph actuators, and forward locomotion on a flat surface was demonstrated. The footprint of the 750 mg microrobot is 3.5 by 3.5 cm, and it has potential advantages over rigid body hexapedal microrobots in climbing, versatility, and stability.
Details
Title
Myriapod-like ambulation of a segmented microrobot
Author
Hoffman, Katie L 1 ; Wood, Robert J 1
1 Harvard University, Cambridge, MA, USA
1 Harvard University, Cambridge, MA, USA
Pages
103-114
Publication year
2011
Publication date
Jul 2011
ISSN
09295593
e-ISSN
15737527
Source type
Scholarly Journal
Language of publication
English
ProQuest document ID
869069436
Copyright
Autonomous Robots is a copyright of Springer, (2011). All Rights Reserved.