41
Eleftherios M Logothetis, William J Kaiser, William C Vassell: Method of fabrication of air/fuel sensors based on electrochemical pumping and sensors made thereby. Ford Motor Company, Lorraine S Melotik, Roger L May, December 13, 1988: US04790924 (1 worldwide citation)

A method is disclosed for making planar oxygen-solid electrolyte sensors. The method involves coating the several layers onto a support, selectively etching an etchable layer to form areas wherein the electrode layers and electrolyte layers may be formed thereon and, finally, etching the etchable la ...


42
David C Gelvin, Lewis D Girod, William J Kaiser, Fredric Newberg, Gregory J Pottie, Anton I Sipos, Sandeep Vardhan, William M Merrill: Apparatus for internetworked wireless integrated network sensors (WINS). BENHOV, April 18, 2017: US09628365

The Wireless Integrated Network Sensor Next Generation (WINS NG) nodes provide distributed network and Internet access to sensors, controls, and processors that are deeply embedded in equipment, facilities, and the environment. The WINS NG network is a new monitoring and control capability for appli ...


43
William J Kaiser, Lawrence Au, Maxim A Batalin, Alexander A Bui, Bruce H Dobkin, Xiaoyu Xu, Brett Jordan, Seth Thomas: Exercise promotion, measurement, and monitoring system. THE REGENTS OF THE UNIVERSITY OF CALIFORNIA, Foley & Lardner, Cliff Z Liu, February 5, 2019: US10195483

An exercise system comprising: an exercise cycle comprising a crank, wherein the crank is configured to be rotated by a user; and a sensing unit coupled to the exercise cycle, wherein the sensing unit is configured to sense information related to at least one crank measurement and to transmit the in ...


44
William J Kaiser, Lars Fredric Newberg, Gregory J Pottie: Autonomous tracking wireless imaging sensor network. Shemwell Gregory & Courtney, August 14, 2003: US20030154262-A1

A wireless integrated network sensor (WINS) system is provided that integrates articulating tracking systems with WINS network components including visual or infrared sensors and imaging devices to enable precise tracking and targeting of objects moving through a sensor field or past a single integr ...


45
Jeremy Elson, Lewis D Girod, William J Kaiser, Josef Kriegl, Gregory J Pottie, Guillaume Francois Rava: Open platform architecture for shared resource access management. Shemwell & Gregory, January 16, 2003: US20030014521-A1

An open platform architecture and methods for shared resource access management are provided. A redirection module in kernel space receives requests for access to resources from applications in user space. The redirection module routes signals representative of the received requests to a device driv ...


46
Jeremy Elson, Lewis D Girod, William J Kaiser, William Merrill, Lars Fredric Newberg, Brian Schiffer, Katayoun Sohrabi: Low-latency multi-hop ad hoc wireless network. Shemwell & Gregory, January 16, 2003: US20030012168-A1

A multi-radio sensor node is provided that includes two or more communication devices. The communication devices include radio frequency (RF) devices like radios. Each communication device supports simultaneous communications among multi-radio sensor nodes of respective independent network clusters. ...


47
Jeremy Elson, Lewis D Girod, William J Kaiser, William Merrill, Lars Fredric Newberg, Brian Schiffer, Katayoun Sohrabi: Low-latency multi-hop ad hoc wireless network. Courtney Staniford & Gregory, September 27, 2007: US20070223497-A1

A multi-radio sensor node is provided that includes two or more communication devices. The communication devices include radio frequency (RF) devices like radios. Each communication device supports simultaneous communications among multi-radio sensor nodes of respective independent network clusters. ...


48
William J Kaiser, Lars Fredric Newberg, Gregory J Pottie: Autonomous tracking wireless imaging sensor network. Greenberg Traurig, February 7, 2008: US20080031213-A1

A wireless integrated network sensor (WINS) system is provided that integrates articulating tracking systems with WINS network components including visual or infrared sensors and imaging devices to enable precise tracking and targeting of objects moving through a sensor field or past a single integr ...


49
David C Gelvin, Lewis D Girod, William J Kaiser, William M Merrill, Fredric Newberg, Gregory J Pottie, Anton I Sipos, Sandeep Vardhan: Apparatus for Compact Internetworked Wireless Integrated Network Sensors (WINS). Mcdonnell Boehnen Hulbert & Berghoff, August 12, 2010: US20100201516-A1

The Wireless Integrated Network Sensor Next Generation (WINS NG) nodes provide distributed network and Internet access to sensors, controls, and processors that are deeply embedded in equipment, facilities, and the environment. The WINS NG network is a new monitoring and control capability for appli ...


50
David C Gelvin, Lewis D Girod, William J Kaiser, Fredric Newberg, Gregory J Pottie: Method for Vehicle Internetworks. Mcdonnell Boehnen Hulbert & Berghoff, February 3, 2011: US20110029644-A1

Vehicle internetworks provide for communications among diverse electronic devices within a vehicle, and for communications among these devices and networks external to the vehicle. The vehicle internetwork comprises specific devices, software, and protocols, and provides for security for essential v ...