Researchers in Prof. William Dally's laboratory have designed a dragonfly topology that reduces the cost of high-radix networks by reducing the number of long, global cables.
Stanford researchers have developed an efficient and low-cost device which increases the energy harvest of a system by recovering these losses through module-level maximum power point tracking (MPPT).
Stanford researchers have developed a depletion-mode MOSFET-based phototransistor with sub-wavelength dimensions, extremely high responsivity and a low dark current.
The performance of most digital systems today is limited more by their communication or interconnection rather than their logic or memory. To increase the entire system's efficacy, the focus is on improving the system's interconnection network.
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.
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 includes at least one optical waveguide including a plurality of elongate portions. Light propagates sequentially and generally along the elongate portions.
Stanford researchers developed and patented a receiver-based playout scheduling scheme in conjunction with improved playout algorithms to reduce packet buffering delay and packet loss for VoIP communication.
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.
An optical sensor includes an optical coupler configured to receive a first optical signal and to split the first optical signal into a second optical signal and a third optical signal.