Towards insect-scale autonomous locomotion in cluttered terrains

Join us for our upcoming Future Computing Seminar Series

Speaker: Dr. Kaushik Jayaram (University of Colorado Boulder)

Date: April 15th, 2025, 17:00 CET

Where: GLC E29.2 & external page Online

Abstract:

Animals such as mice, cockroaches and spiders have the  remarkable ability to maneuver through challenging cluttered natural terrain and have been inspiration for adaptable legged robotic systems. We hypothesize that animals vary their body geometry and mechanics to overcome the adaptability-agility tradeoffs which limit the performance of traditional soft robots. Inspired by locomotion strategies of cockroaches and spiders, we present our results related to the above using Compliant Legged Autonomous Robotic Insect (CLARI), our insect-scale, origami-based quadrupedal robot capable of passive shape morphing and active shape shifting, and demonstrate novel behaviors such as omnidirectional confined legged locomotion. While the distributed compliance of such soft-legged robots enables them adapt to explore complex environments, their gait design, control, and motion planning enable agile locomotion. However, this is often challenging due to a large number of unactuated/underactuated degrees of freedom. Towards addressing this issue, we present a geometric motion planning framework for autonomous, closed kinematic chain articulated systems that is computationally effective and has a promising potential for onboard and real-time gait generation. Finally, combining experimental and modeling efforts, we will present the beginning of a framework that enables us to quantify tradeoffs associated with shape change notably with respect to agility and adaptability.

Bio:
Dr. Kaushik Jayaram is presently an Assistant Professor in Robotics at  the Paul M Rady Department of Mechanical Engineering at the University of Colorado Boulder. Previously, he was a post-doctoral scholar in Prof. Rob Wood's Microrobotics lab at Harvard University. He obtained his doctoral degree in Integrative Biology in 2015 from the University of California Berkeley mentored by Prof. Bob Full and undergraduate degree in Mechanical Engineering from the Indian Institute of Technology Bombay in 2009, with interdisciplinary research experiences at the University of Bielefeld, Germany, and Ecole Polytechnique Federale de Lausanne, Switzerland. Dr. Jayaram's research combines biology and robotics to, uncover the principles of robustness that make animals successful at locomotion in natural environments, and, in turn, inspire the design of the next generation of novel robots for effective real-world operation. His work has been published in a number of prestigious journals and gained significant popular media attention and supported various funding agencies (NSF, AFRL, ARO, DARPA) and industry partners (Meta, Rolls-Royce). He is a recipient of multiple early career awards including the NSF CAREER. Dr. Jayaram is an editorial board member for the journal Soft Robotics, and active member of IEEE and SICB. Besides academic research, Dr. Jayaram’s group is actively involved in several outreach activities that strive toward achieving diversity, equity and inclusivity in STEM and he currently leads the K12 Outreach group from Mechanical engineering and the Outreach and Inclusion group from Robotics at CU.