Coordinating groups of underwater robots is difficult because communication below the surface is slow and unreliable. GPS ...

New research suggests that a novel method for simulating biologically inspired robots could reduce the design and training ...

BALTIMORE, Md. – In looking for creative inspiration, engineering student Qiyuan Fu finds it in a box, with an interesting occupant. Inside: a real, live snake. “We can definitely learn something from ...

A new approach to simulating biologically inspired robotics can cut the design and training of tactile robots from eighteen months to two weeks, new research suggests. Published in Cyborg & Bionic ...

Bio-inspired underwater robots are engineered to replicate the morphology, movements, and behaviors of aquatic animals, which have evolved amazingly underwater mobility. This interdisciplinary field ...

Advances in robot design, actuation, and control have benefitted from biological inspiration, which has perhaps most influenced the soft robotics community. Furthermore, many scientists interested in ...