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.
Researchers at Stanford have developed a method to tune power amplifier circuits to directly connect their output power (and adjust the combined output power) without any additional power combiner network.
This invention involved a new methodology using novel targets, TMS stimulation and a hypnosis protocol to modulate traits and help chronic pain, addiction, and mental disorders.
Polymer electrolyte membrane (PEM) fuel cells often underperform due to high overpotentials caused by sluggish kinetics. Specifically, the Pt-catalyzed oxygen reduction reaction at the cathode renders the energy efficiency well below the thermodynamic limit.
Doctors with Stanford Medicine have developed a multi-user, mixed reality medical simulation application. Medical in-situ and simulation training centers cost millions of dollars a year to administer, with limited availability to those in remote areas or the third world.
Researchers at Stanford are advancing a new class of nonlinear optical devices that operate with significantly lower energy requirements than previous platforms.
Stanford researchers have designed and tested an electrochemical gas sensor which can detect volatile organic species in the gas phase and differentiate multiple species with a single chip.
Stanford researchers have applied large-scale proteomic platforms to identify biomarkers that can be used to diagnose uveal melanoma and subtype eye tumors according to their gene expression profile (GEP) class or PRAME status.
Researchers in the Nakauchi lab at Stanford University have shown that the contribution of human donor cells to tissues and organs can be increased in an interspecies host embryo by knocking out insulin growth factor 1 receptor (Igf1r).
Stanford researchers are developing an improved prophylactic against pancreatitis caused by endoscopic retrograde cholangiopancreatography (ERCP), by targeting two key inflammatory pathways.
Psoriasis is a chronic skin inflammatory disease that affects 7.5 million people in the US and accounts for $1.2 billion in annual direct medical costs.