1
Hirak Chanda
Kenta Mineo, Hirak Chanda: Electronic stability control system indicator. Robert Bosch, Michael Best & Friedrich, March 10, 2015: US08977430 (1 worldwide citation)

An electronic stability control indication system including a bar-graph-type display, a processor, and a memory. The memory stores instructions that, when executed by the processor, control the operation of the electronic stability control indication system. The system receives a first signal from a ...


2
James Kraemer Ph.D.
Robert R Friedlander, James R Kraemer: Facilitating the more natural aiming of telescopes. International Business Machines Corporation, Duke W Yee, July 1, 2010: US20100165457-A1

The illustrative embodiments provide for a computer implemented method, computer readable medium, and data processing system for adjusting a perceived image seen through an optical observation device. The azimuth-elevation-rotation of the optical observation device is measured relative to an observe ...


3
Serge Le Gonidec
Bornert Pierre, Le Gonidec Serge: Device for validating measurements of a kinematic dimension.. Snecma, March 11, 2009: EP2034275-A1

L'invention concerne un dispositif de validation de mesures d'une grandeur cinématique x émanant d'un objet (3) sur lequel sont disposés, selon trois axes principaux, des capteurs principaux (5a,5b,5c) pour mesurer des composantes (V 1 ,V 2 ,V 3 ) de cette grandeur cinématique x , le dispositif comp ...


4
Brian J Glynn: Computer apparatus input device for three-dimensional information. Triton Technologies, Burns Doane Swecker & Mathis, January 19, 1993: US05181181 (394 worldwide citation)

A mouse which senses six degrees of motion arising from movement of the mouse within three dimensions. A hand-held device includes three accelerometers for sensing linear translation along three axes of a Cartesian coordinate system and three angular rate sensors for sensing angular rotation about t ...


5
Kenneth Richard Fyfe: Motion analysis system. Governors of the University of Alberta, C A Rowley, September 21, 1999: US05955667 (375 worldwide citation)

A device comprised of at least a pair of accelerometers and a tilt sensor mounted in fixed relation to a datum defining plane (sole of a shoe) maybe used for extracting kinematic variables including linear and rotational acceleration, velocity and position. These variables may be resolved into a sel ...


6
William C Tang, Roger T Howe: Laterally driven resonant microstructures. Regents of the University of California, Owen Wickersham & Erickson, June 18, 1991: US05025346 (339 worldwide citation)

A microbridge device for use as a sensor or an actuator is driven parallel to a substrate as a resonant microstructure. The microstructure comprises a stationary thin-film electrode secured to the substrate and located in a plane above it. A movable plate overlaying the substrate is suspended above ...


7
Lawrence J Hutchings: Rotational sensor system. Aeceleron Technologies, Sofer & Haroun, October 23, 2001: US06305221 (248 worldwide citation)

A device that measures the distance traveled, speed, and height jumped of a person while running or walking. Accelerometers and rotational sensors are placed in the sole of one shoe along with an electronic circuit that performs mathematical calculations to determine the distance and height of each ...


8
Robert M Boysel, Jeffrey B Sampsell: Micro-machined accelerometer array with shield plane. Texas Instruments Incorporated, Charles A Brill, James C Kesterson, Richard L Donaldson, September 3, 1996: US05551293 (230 worldwide citation)

An accelerative force may be measured using a plurality of deflection elements (102), each deflection element (102) comprising an inertial mass (104), and at least one hinge (104) supporting the inertial mass (104) in a normal position. Application of a force to inertial mass (104) will result in th ...


9
Kenneth R Fyfe, James K Rooney, Kipling W Fyfe: Motion analysis system. DyhaStream Innovations, Cesari and McKenna, October 16, 2001: US06301964 (217 worldwide citation)

A device comprised of at least a pair of accelerometers and a tilt sensor mounted in fixed relation to a datum plane defining surface (sole of a shoe) may be used for extracting kinematic variables including linear and rotational acceleration, velocity and position. These variables may be resolved i ...


10
Robert M Boysel, Jeffrey B Sampsell: Digital flexure beam accelerometer and method. Texas Instruments Incorporated, Charles A Brill, James C Kesterson, Richard L Donaldson, June 18, 1996: US05526688 (217 worldwide citation)

An accelerative force may be measured using a plurality of deflection elements (102), each deflection element (102) comprising an inertial mass (104), and at least one hinge (104) supporting the inertial mass (104) in a normal position. Application of a force to inertial mass (104) will result in th ...



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