Stanford researchers in John Cioffi's lab have developed a method for allocating resources (bit rate and transmit power) in multi-user, multi-carrier communication systems. The invention provides the optimal power allocation algorithm for the equal-length DSL loops.
Stanford scientists in Dr. Liqun Luo's laboratory have developed a patented method for site-directed somatic cell recombination and concurrent labeling of "knock in" cells.
This invention is from the Pritzker Neuropsychiatric Disorders Research Consortium, a collaborative research enterprise comprised of several leading academic institutions and based on a long-term relationship between the Pritzker family and scientists at the various institutio
Researchers in the laboratory of Michael Cleary at Stanford University have developed a mouse that lacks the transcription factor Pbx1. Pbx1 is a proto-oncogene that was originally discovered at the site of chromosomal translocations in pediatric acute leukemia.
This software system acquires panoramic video footage and makes the data viewable on a Web browser. The system enables a human editor to select specific subsequences of the data, and organize it, and have others view it.
A Stanford University student wrote and illustrated a soft cover book to teach young children about how it feels to be excluded and how to change that behavior.
Stanford researchers have created software to view panoramic videos from arbitrary viewpoints from separate non-overlapping geo-referenced panoramic video streams. Ths system can also synthesize missing panoramic images to provide the user with a full sequence.
This user interface enables a user to define tags within virtual tour applications that label objects in panoramic images and video – a process that has been very difficult to achieve prior to this invention.
Researchers in Dr. Mark Kay's laboratory at Stanford University have designed a new liver-specific expression cassette for inserting genes into double-stranded AAV (adeno-associated virus) vectors for gene therapy.
Stanford researchers have developed a novel method of fabricating one-dimensional and two-dimensional capacitive micromachined ultrasonic transducer (CMUT) arrays.
The market for wireless sensor networks is quickly expanding. It is estimated that within a few years there could be 100 million wireless sensors in use in a billion-dollar worldwide market.