By living and moving in groups, fish can gain many benefits, such as heightened predator detection, greater hunting efficiency, more accurate environmental sensing, and energy saving. Although the benefits of hydrodynamic interactions in schooling fish have drawn growing interest in fields such as biology, physics, and engineering, and multiple hypotheses for how such benefits … [Read more...] about RoboTwin: A Platform to Study Hydrodynamic Interactions in Schooling Fish
Hydrodynamics
Controlling Maneuverability of a Bio-Inspired Swimming Robot Through Morphological Transformation
Biology provides many examples of how body adaption can be used to achieve a change in functionality. The feather star, an underwater crinoid that uses feather arms to locomote and feed, is one such system; it releases its arms to distract prey and vary its maneuverability to help escape predators. Using this crinoid as inspiration, we develop a robotic system that can alter … [Read more...] about Controlling Maneuverability of a Bio-Inspired Swimming Robot Through Morphological Transformation