1
Aleksandar Uzelac, David A Stevens, Weidong Zhao, Takahiro Shigemitsu, Briggs A Willoughby, John Graham Pierce, Pravin Kumar Santiago, Craig S Ranta, Timothy Allen Wright, Jeffrey C Maier, Robert T Perry, Stanimir Naskov Kirilov: Latency measurement. Microsoft Corporation, Tony Azure, Andrew Sanders, Micky Minhas, May 13, 2014: US08725443 (13 worldwide citation)

Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different te ...


2
Aleksandar Uzelac, David A Stevens, Weidong Zhao, Takahiro Shigemitsu, Briggs A Willoughby, John Graham Pierce: Touchscreen testing. Microsoft Technology Licensing, Timothy Churna, Kate Drakos, Micky Minhas, March 24, 2015: US08988087 (9 worldwide citation)

Touchscreen testing techniques are described. In one or more implementations, a conductor is placed proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user by placing the conductor in a grounded state and lack of a touch by the user by placing the conduc ...


3
Aleksandar Uzelac, David A Stevens, Andrey B Batchvarov, Changsin Lee, Takahiro Shigemitsu: Latency measurement. Microsoft Corporation, Timothy Churna, Kate Drakos, Micky Minhas, December 16, 2014: US08914254 (9 worldwide citation)

Panning latency measurement techniques are described. In one or more implementations, a test apparatus includes one or more motors configured to move one or more contacts at least proximal to one or more sensors of a device to be detectable as a movement. The test apparatus also includes one or more ...


4
Weidong Zhao, David A Stevens, Aleksandar Uzelac, Takahiro Shigemitsu, Andrew David Wilson, Nigel Stuart Keam: Angular contact geometry. Microsoft Technology Licensing, Henry Gabryjelski, Kate Drakos, Micky Minhas, March 17, 2015: US08982061 (8 worldwide citation)

In embodiments of angular contact geometry, touch input sensor data is recognized as a touch input on a touch-screen display, such as a touch-screen display integrated in a mobile phone or portable computing device. A sensor map is generated from the touch input sensor data, and the sensor map repre ...


5
Aleksandar Uzelac, David A Stevens, Weidong Zhao, Takahiro Shigemitsu, Briggs A Willoughby, John Graham Pierce, Pravin Kumar Santiago, Craig S Ranta, Timothy Allen Wright, Jeffrey C Maier, Robert T Perry, Stanimir Naskov Kirilov, Andrey B Batchvarov: Probabilistic latency modeling. Microsoft Technology Licensing, Timothy Churna, Kate Drakos, Micky Minhas, May 12, 2015: US09030437 (6 worldwide citation)

Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different te ...


6
Takahiro Shigemitsu, Satoko Okabe: Golf ball. SRI Sports, Birch Stewart Kolasch & Birch, January 8, 2013: US08349958 (6 worldwide citation)

An object of the present invention is to provide a resin composition for the golf ball that suppresses the bleed out of the low molecular weight material component, as well as improves the fluidity and repulsion performance. The present invention provides a golf ball forming resin composition compri ...


7
Aleksandar Uzelac, David A Stevens, Weidong Zhao, Takahiro Shigemitsu, Briggs A Willoughby, John Graham Pierce, Pravin Kumar Santiago, Craig S Ranta, Timothy Allen Wright, Jeffrey C Maier, Robert T Perry, Stanimir Naskov Kirilov, Andrey B Batchvarov: Probabilistic latency modeling. Microsoft Technology Licensing, Timothy Churna, Sergey Lamansky, Micky Minhas, July 19, 2016: US09395845 (3 worldwide citation)

Touchscreen testing techniques are described. In one or more implementations, a piece of conductor (e.g., metal) is positioned as proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user. This technique may be utilized to perform a variety of different te ...


8
Steven Andrew Welch, Takahiro Shigemitsu, Timothy Allen Wright, Mark D Vance, Steven E Wittenberg: Input testing tool. MICROSOFT TECHNOLOGY LICENSING, Tim Churna, Kate Drakos, Micky Minhas, April 19, 2016: US09317147 (3 worldwide citation)

Various embodiments provide an input test tool that promotes precision testing, flexibility and repeatability over a wide variety of functionality tests that are utilized in both touch and near-touch input scenarios. The input test tool enables a variety of degrees of motion, including both linear a ...


9
Aleksandar Uzelac, David A Stevens, Weidong Zhao, Takahiro Shigemitsu, Briggs A Willoughby, John Graham Pierce: Touchscreen testing. MICROSOFT TECHNOLOGY LICENSING, July 18, 2017: US09710105 (2 worldwide citation)

Touchscreen testing techniques are described. In one or more implementations, a conductor is placed proximal to a touchscreen device and the touchscreen device is tested by simulating a touch of a user by placing the conductor in a grounded state and lack of a touch by the user by placing the conduc ...


10
Takahiro Shigemitsu: Golf ball resin composition and golf ball. DUNLOP SPORTS, Birch Stewart Kolasch & Birch, October 20, 2015: US09162111 (1 worldwide citation)

An object of the present invention is to provide a golf ball resin composition containing an ionomer resin with an excellent resilience and fluidity. Another object of the present invention is to provide a golf ball using an ionomer resin for an intermediate layer, with an excellent shot feeling, du ...