This portfolio of inventions provides the tools for an advanced navigational system and panoramic virtual tours – technology that is incorporated in Google Street View.
An optical device, a method of configuring an optical device, and a method of using a fiber Bragg grating is provided. The optical device includes a fiber Bragg grating, a narrowband optical source, and at least one optical detector.
An optical device includes at least one optical waveguide including a plurality of elongate portions. Light propagates sequentially and generally along the elongate portions.
Stanford engineers have created a patented method for fabricating highly sensitive piezoresistors on vertical walls of microstructures by epitaxial growth of doped silicon.
Although tracking has been studied for decades, real-time tracking algorithms often suffer from low accuracy and poor robustness when confronted with difficult, real-world data.
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.
Researchers in Prof. Vijay Pande's laboratory developed a novel computational technique (“SCISSORS”) that affords several orders of magnitude acceleration in chemical library screening.
Stanford Researchers have patented an improved technique for capturing and processing dynamic and high speed scenes using a collection of precisely timed video cameras. This system uses multiple synchronized image sensors with precise time delays to capture high-speed video.
A team of researchers from the Stanford Artificial Intelligence Laboratory have patented a portfolio of innovations that harness depth sensing technology to analyze human motion for touch-free control of devices and motion capture.
5A6 is monoclonal antibody (mAbs) which recognizes human CD81. It was identified by its ability to induce a reversible antiproliferative effect on a human lymphoma B cell line. This mAbs is capable of inducing signal signal transduction and cell adhesion.
A team of researchers from the Stanford Artificial Intelligence Laboratory have developed a portfolio of patented innovations that harness depth sensing technology to analyze human motion for touch-free control of devices and motion capture.
This is a Nogo conditional, targeted KO mouse, conditional KO of Nogo that may be used for research puposes. For example, experimented used the mice in the process of investiating myelin inhibitors and spinal cords.
This antibody is directed against the human LMO2 antigen, which is expressed as a transcription factor in certain lymphomas and leukemias. We have recently shown that it identifies those lymphomas derived from germinal center B cells.