Researchers in the Collaborative Haptics and Robotics in Medicine Lab at Stanford University have developed a monolithically 3D printed haptic device that provides skin pressure, linear and rotational shear, and vibration feedback.
A researcher at Stanford has developed a system for providing location-specific haptic feedback to users in a manner that greatly reduces the number of haptic drivers or motors required.
Researchers at the Stanford Robotics Lab have developed new methods for modeling multi-contact collisions and steady physical interactions between multiple rigid bodies.
Researchers at Stanford have developed technology to bring new dimensions to wearable haptic devices and better reflect the breadth of haptic interactions in our lives.
Researchers in the Stanford Robotics Lab have developed a dynamically adaptive workspace mapping control method that adjusts remote task resolution to keep haptic-robot (in real-world applications) or haptic-avatar (in virtual environment) interactions within the device works
Researchers in the Stanford Robotics Lab have developed a compact high-fidelity haptic teleoperation system which shows accurate and isotropic behavior in translation and rotation.
The Dionne lab has developed ultrathin and compact devices for electrically driven beamsteering that fit on a semiconductor chip. These devices rely on resonant dielectric nanostructured surfaces known as "high quality factor" (high-Q) metasurfaces.
Stanford researchers have developed a method called KleinPAT, for creating sound models in seconds, making it cost effective to simulate sounds for many different objects in a virtual environment.
Stanford researchers at the Salisbury Lab have prototyped a wearable, articulated robotic device that can be attached to a person at the hip or other location to augment human task productivity. This mechanical "third arm" has many uses such as assisting abled users (e.g.
Researchers in the Collaborative Haptics and Robotics in Medicine Lab at Stanford University have patented a haptic device that simulates a stroking sensation.
Stanford researchers have patented the "Wolverine," a mobile, wearable haptic device designed for simulating the grasping of rigid objects in virtual reality.