Stanford researchers at the Zhao Lab have developed a wireless, magnetically actuated amphibious origami millirobot that can locomote in narrow spaces and morph their shapes. The researchers have demonstrated that this millirobot can travel on surfaces and through liquid.
Stanford researchers have built a sound powered, wireless medical implant. The implant contains a piezoelectric energy receiver, an integrated circuit chip, and a loop antenna.
Stanford researchers have developed a novel and efficient method for generating real-time 3D volumetric computed tomography (CT) images with 2D single or few-view projections, instead of several hundreds of projections as required in existing CT imaging system.
Stanford researchers in the McNab lab have developed a marker-less neuro-navigation device that only needs to be setup once during the first transcranial magnetic stimulation (TMS) session and by tracking the subjects head, automatically achieves the same accurate coil locatio
Stanford researchers have developed an Exact Dynamic Collision Checker for Animation and CAD/Robotic Applications that is both infallible and efficient.
Stanford researchers have developed a patented method for precisely controlling the force exerted by a permanent magnet for use in medical systems. This system is ideally suited for applications such as robotic catheter placement and endoscopy capsule manipulation.
Stanford researchers in the CamLab have patented a robust, task-space closed-loop controller for continuum manipulators that can be used in constrained environments and does not rely on a model.
Stanford researchers have created a device with defined parallel-oriented fibrillar nanostructure that can control endothelial cell alignment along the direction of the fibrillar nanostructure.