For designing Soft-bodied robots inspired by living organisms
Tenacious and adaptive behaviors of simple organisms are produced by their high deformable bodies and limited computational cost of their nervous system. Mechanical softness and interaction with a complex environment are key to understanding such behaviors. From the perspective of how to control the soft-bodies, biological research reveals that some simple organisms rely on decentralized control and exploit internal and external mechanical interactions (e.g., central pattern generators in vertebrates, distributed nervous systems in insects, starfish, and jellyfish). These features are in sharp contrast to the conventional robots that use hard/rigid bodies and centralized controllers.
We consider the "mechanical softness" to be an essential difference between machines and organisms, and are developing and investigating intelligence that can be emerged from the mechanical softness.
There are many more examples of research, robots, sensors, and actuators under development and yet to be published. We can show you when you stop by the lab.