Stanford engineers have prototyped and tested a flexible, soft growing robot that can deploy sensor networks for investigation in constrained spaces (see video below). Existing sensors for growing robots have focused on moving with the tip of the robot.
Engineers in Prof. Mark Cutkosky's laboratory have developed patented electrostrictive elements that can support high loads over a long lifetime when used as variable suspension systems for robots, autonomous vehicles or prosthetics.
Stanford researchers at the Cutkosky Lab have patented a method of towing or pushing an object using a micro-robot. This micro-robot can drag loads almost 2000x its weight by using controllable dry adhesive for robotic "feet" that can develop huge amounts of shear force.
Stanford researchers at the Cutkosky Lab have patented a low cost, passively activated gripper that can grasp large curved, textured or delicate objects using an adhesive film.
Stanford researchers have developed a new manufacturing method for creating inexpensive, directional dry adhesive materials, suitable for applications such as climbing robots, human climbing and manufacturing applications.