Stanford researchers have patented a new method for Compressed Sensing (CS) which reconstructs signals and images from significantly fewer measurements than current standards while maintaining high reconstruction accuracy.
Engineers in Prof. Shan Wang's laboratory have developed a CMOS-compatible fabrication method to integrate compact, tunable magnetic components into mainstream semiconductor electronic devices.
Stanford researchers developed a device that converts microwave signals (quantum logic) to optical signals using a silicon-on-lithium-niobate photonic crystal cavity.
Researchers in Prof. Sachin Katti's laboratory have developed WiDeo, a motion tracing camera using WiFi signals as the light source. This patented, high resolution system accurately traces human motion in indoor environments using WiFi signals and compact WiFi radios.
Researchers at Stanford University have over come some of the critical challenges for wireless broadband users to remain connected in highly mobile environments.
Unlike traditional anti-malware products that enforce one narrow definition of security, this flexible, policy-based Android application management platform enables customized enterprise-specific security, privacy, and compliance policy enforcement.
Stanford researchers have developed novel systems and methods for power-controlled shared channel access in wireless networks supporting packetized data traffic.
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 researchers in John Cioffi's lab have developed a method and apparatus for controlling the data rate in the uplink of a Code Division Multiple Access (CDMA)/ Orthogonal Frequency Division Multiplexing (OFDM) system.