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公开(公告)号:WO2014084875A3
公开(公告)日:2014-08-21
申请号:PCT/US2013028484
申请日:2013-03-01
Applicant: MICROSOFT CORP
Inventor: PANAY PANOS C , STRANDE HAKON , GOH CHUN BENG , MANTOOTH HAROLD F , SIDDIQUI KABIR , JENSEN DARRYL I , DIGHDE RAJESH MANOHAR , CADY ANDREW N , SCHULTZ BERNARD MAURICE , WHITT III DAVID OTTO , SCHNEIDER SUMMER L , DRASNIN SHARON , BELESIU JIM TOM , ISHIHARA JAMES ALEC , WANG HUA , GROENE RALF , STOUMBOS CHRISTOPHER HARRY , PELLEY JOEL LAWRENCE , KASSELS JAY SCOTT , SPOONER RICHARD PETER , SHAW TIMOTHY C , MICKELSON MATTHEW DAVID , AAGAARD KARSTEN , HUALA ROB , DIETZ PAUL HENRY , MATHIAS DENNIS J , VANDERVOORT DAVID C , PLEAKE TODD DAVID , LUTZ MOSHE R , MAIL SCOTT MITCHEL , WHITMAN CHRISTOPHER A , WAHL ERIC JOSEPH , MCLAUGHLIN ROBYN REBECCA REED , WISE JAMES H , LEON CAMILO , OLIVER THOMAS CHARLES , OLER VAN WINSTON , UMENO HIROO , PEREK DAVID R , SCHWAGER MICHAEL A , SEILSTAD MARK J , REED ANTHONY CHRISTIAN , CUMMINGS STEPHAN ALEXANDER , MARSHALL JAMES CHARLES , PEDERSEN MATTHEW G , YOUNG ROBERT D , SHERMAN NATHAN C , GIBSON SCOTT K , SYKES SHANE AARON , LANE DAVID M , OBIE GENE ROBERT , GIAIMO III EDWARD C , NEFF DAVID , SOUSA JOSE R
CPC classification number: H01H13/79 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , G06F1/166 , G06F1/1662 , G06F1/1669 , G06F1/1681 , G06F1/1683 , G06F1/1684 , G06F1/1686 , G06F3/002 , G06F3/01 , G06F3/0202 , G06F3/0219 , G06F3/023 , G06F3/0414 , G06F3/0416 , G06F3/0487 , G06F3/0488 , G06F3/04886 , G06F9/541 , G06F11/3089 , G06F13/102 , H01H9/26 , H01H11/00 , H01H13/14 , H01H13/702 , H01H13/703 , H01H13/704 , H01H13/78 , H01H13/785 , H01H13/807 , H01H13/82 , H01H2201/036 , H01H2203/02 , H01H2203/036 , H01H2203/058 , H01H2205/006 , H01H2211/004 , H01H2211/006 , H01H2213/016 , H01H2217/004 , H01H2217/006 , H01H2217/01 , H01H2227/032 , H04M1/0216 , H04M1/0245 , H04M1/0254 , H04M1/72527 , H05K5/0226 , H05K5/0234 , Y02B60/1228 , Y02D10/14 , Y10T16/5401 , Y10T16/551 , Y10T29/49826
Abstract: Techniques for device camera angle are described. In one or more implementations, a camera is mounted in a computing device at an angle based on an orientation of the computing device. For example, when the computing device is positioned on a surface and at an angle to the surface (such as when supported by a kickstand), the mounting angle of the camera is such that an optical axis of the camera points forward, and not towards the surface. In at least some implementations, a computing device includes a camera that is physically adjustable to support different orientations of the computing device. In at least some implementations, images that are captured via a camera on a computing device can be manipulated based on an orientation of the computing device.
Abstract translation: 描述了设备摄像机角度的技术。 在一个或多个实施方式中,相机基于计算设备的取向以一定角度安装在计算设备中。 例如,当计算设备定位在表面上并且与表面成角度时(例如当被支架支撑时),照相机的安装角度使得照相机的光轴指向前方而不朝向 表面。 在至少一些实施方式中,计算设备包括物理可调节的照相机以支持计算设备的不同定向。 在至少一些实现中,可以基于计算设备的取向来操纵经由计算设备上的相机捕获的图像。
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公开(公告)号:WO2014084878A3
公开(公告)日:2014-08-07
申请号:PCT/US2013028488
申请日:2013-03-01
Applicant: MICROSOFT CORP
Inventor: PEREK DAVID R , SCHWAGER MICHAEL A , DRASNIN SHARON , SEILSTAD MARK J , DIGHDE RAJESH MANOHAR , CADY ANDREW N , SCHULTZ BERNARD MAURICE , WHITT III DAVID OTTO , SCHNEIDER SUMMER L , SIDDIQUI KABIR , BELESIU JIM TOM , ISHIHARA JAMES ALEC , WANG HUA , GROENE RALF , STOUMBOS CHRISTOPHER HARRY , PELLEY JOEL LAWRENCE , KASSELS JAY SCOTT , SPOONER RICHARD PETER , SHAW TIMOTHY C , MICKELSON MATTHEW DAVID , AAGAARD KARSTEN , HUALA ROB , DIETZ PAUL HENRY , MATHIAS DENNIS J , VANDERVOORT DAVID C , PLEAKE TODD DAVID , LUTZ MOSHE R , MAIL SCOTT MITCHEL , WHITMAN CHRISTOPHER A , WAHL ERIC JOSEPH , MCLAUGHLIN ROBYN REBECCA REED , WISE JAMES H , LEON CAMILO , OLIVER THOMAS CHARLES , OLER VAN WINSTON , UMENO HIROO , REED ANTHONY CHRISTIAN , CUMMINGS STEPHAN ALEXANDER , JENSEN DARRYL I , PANAY PANOS C , STRANDE HAKON , GOH CHUN BENG , MANTOOTH HAROLD F , MARSHALL JAMES CHARLES , PEDERSEN MATTHEW G , YOUNG ROBERT D , SHERMAN NATHAN C , GIBSON SCOTT K , SYKES SHANE AARON , LANE DAVID M , OBIE GENE ROBERT , GIAIMO III EDWARD C , NEFF DAVID , SOUSA JOSE R
IPC: G06F3/00
CPC classification number: H01H13/79 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , G06F1/166 , G06F1/1662 , G06F1/1669 , G06F1/1681 , G06F1/1683 , G06F1/1684 , G06F1/1686 , G06F3/002 , G06F3/01 , G06F3/0202 , G06F3/0219 , G06F3/023 , G06F3/0414 , G06F3/0416 , G06F3/0487 , G06F3/0488 , G06F3/04886 , G06F9/541 , G06F11/3089 , G06F13/102 , H01H9/26 , H01H11/00 , H01H13/14 , H01H13/702 , H01H13/703 , H01H13/704 , H01H13/78 , H01H13/785 , H01H13/807 , H01H13/82 , H01H2201/036 , H01H2203/02 , H01H2203/036 , H01H2203/058 , H01H2205/006 , H01H2211/004 , H01H2211/006 , H01H2213/016 , H01H2217/004 , H01H2217/006 , H01H2217/01 , H01H2227/032 , H04M1/0216 , H04M1/0245 , H04M1/0254 , H04M1/72527 , H05K5/0226 , H05K5/0234 , Y02B60/1228 , Y02D10/14 , Y10T16/5401 , Y10T16/551 , Y10T29/49826
Abstract: Sensor fusion algorithm techniques are described. In one or more embodiments, behaviors of a host device and accessory devices are controlled based upon an orientation of the host device and accessory devices, relative to one another. A combined spatial position and/or orientation for the host device may be obtained based on raw measurements that are obtained from at least two different types of sensors. In addition, a spatial position and/or orientation for an accessory device is ascertained using one or more sensors of the accessory device. An orientation (or position) of the accessory device relative to the host computing device may then be computed based on the combined spatial position/orientation for the host computing device and the ascertained spatial position/orientation for the accessory device. The relative orientation that is computed may then be used in various ways to control behaviors of the host computing device and/or accessory device.
Abstract translation: 描述传感器融合算法技术。 在一个或多个实施例中,主机设备和辅助设备的行为基于主机设备和辅助设备相对于彼此的方向被控制。 可以基于从至少两种不同类型的传感器获得的原始测量获得主机设备的组合空间位置和/或取向。 此外,使用附件装置的一个或多个传感器确定辅助装置的空间位置和/或取向。 然后可以基于主机计算设备的组合的空间位置/方向以及辅助设备的确定的空间位置/方向来计算辅助设备相对于主计算设备的定向(或位置)。 然后可以以各种方式使用计算的相对取向来控制主计算设备和/或附件设备的行为。
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公开(公告)号:CA2862621A1
公开(公告)日:2014-06-05
申请号:CA2862621
申请日:2013-03-01
Applicant: MICROSOFT CORP
Inventor: PEREK DAVID R , SCHWAGER MICHAEL A , DRASNIN SHARON , SEILSTAD MARK J , DIGHDE RAJESH MANOHAR , CADY ANDREW N , SCHULTZ BERNARD MAURICE , SCHNEIDER SUMMER L , SIDDIQUI KABIR , BELESIU JIM TOM , ISHIHARA JAMES ALEC , WANG HUA , GROENE RALF , STOUMBOS CHRISTOPHER HARRY , PELLEY JOEL LAWRENCE , KASSELS JAY SCOTT , SPOONER RICHARD PETER , SHAW TIMOTHY C , MICKELSON MATTHEW DAVID , AAGAARD KARSTEN , HUALA ROB , DIETZ PAUL HENRY , MATHIAS DENNIS J , VANDERVOORT DAVID C , PLEAKE TODD DAVID , LUTZ MOSHE R , MAIL SCOTT MITCHEL , WHITMAN CHRISTOPHER A , WAHL ERIC JOSEPH , MCLAUGHLIN ROBYN REBECCA REED , WISE JAMES H , LEON CAMILO , OLIVER THOMAS CHARLES , OLER VAN WINSTON , UMENO HIROO , REED ANTHONY CHRISTIAN , CUMMINGS STEPHAN ALEXANDER , JENSEN DARRYL I , PANAY PANOS C , STRANDE HAKON , GOH CHUN BENG , MANTOOTH HAROLD F , MARSHALL JAMES CHARLES , PEDERSEN MATTHEW G , SHERMAN NATHAN C , GIBSON SCOTT K , SYKES SHANE AARON , LANE DAVID M , OBIE GENE ROBERT , GIAIMO EDWARD C III , NEFF DAVID , SOUSA JOSE R , WHITT DAVID OTTO III , YOUNG ROBERT D
Abstract: A device kickstand is described. In at least some implementations, a kickstand is rotatably attached to a mobile computing device. The kickstand can be rotated to various positions to provide support for different orientations of the computing device. In at least some implementations, hinges are employed to attach a kickstand to a mobile computing device. One example hinge utilizes preset hinge stops that enable the kickstand to be placed at different preset positions. Another example hinge exerts pressure on an edge of the kickstand, providing stability and vibration dampening to the kickstand.
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公开(公告)号:MX2014010532A
公开(公告)日:2014-11-03
申请号:MX2014010532
申请日:2013-03-01
Applicant: MICROSOFT CORP
Inventor: WANG HUA , PEREK DAVID R , SCHWAGER MICHAEL A , DRASNIN SHARON , SEILSTAD MARK J , DIGHDE RAJESH MANOHAR , CADY ANDREW N , SHULTZ BERNARD MAURICE , WHITT DAVID OTTO III , SCHNEIDER SUMMER L , SIDDIQUI KABIR , BELESIU JIM TOM , ISHIHARA JAMES ALEC , GROENE RALF , STOUMBOS CHRISTOPHER HARRY , PELLEY JOEL LAWRENCE , KASSELS JAY SCOTT , SPOONER RICHARD PETER , SHAW TIMOTHY C , MICKELSON MATTHEW DAVID , AAGAARD KARSTEN , HUALA ROB , DIETZ PAUL HENRY , MATHIAS DENNIS J , VANDERVOORT DAVID C , PLEAKE TODD DAVID , LUTZ MOSHE R , MAIL SCOTT MITCHEL , WHITMAN CHRISTOPHER A , WAHL ERIC JOSEPH , MCLAUGHLIN ROBYN REBECCA REED , WISE JAMES H , LEON CAMILO , OLIVER THOMAS CHARLES , OLER WINSTON VAN , UMENO HIROO , REED ANTHONY CHRISTIAN , CUMMINGS STEPHAN ALEXANDER , JENSEN DARRYL I , PANAY PANOS C , STRANDE HAKON , GOH CHUN BENG , MANTOOTH HAROLD F , MARSHALL JAMES CHARLES , PEDERSEN MATTHEW G , YOUNG ROBERT D , SHERMAN NATHAN C , GIBSON SCOTT K , SYKES SHANE AARON , LANE DAVID M , OBIE GENE ROBERT , GIAIMO EDWARD C III , NEFF DAVID , SOUSA JOSE R
IPC: G06F1/16
Abstract: Se describen técnicas de algoritmo de fusión de sensor. En una o más modalidades, los comportamientos de un dispositivo anfitrión y dispositivos de accesorio se controlan basándose en una orientación del dispositivo anfitrión y dispositivos de accesorio, con relación entre sí. Una posición y/u orientación espacial combinadas para el dispositivo anfitrión pueden obtenerse basándose en medidas incompletas que se obtienen desde al menos dos diferentes tipos de sensores. Además, se evalúa una posición y/u orientación espacial para un dispositivo de accesorio utilizando uno o más sensores del dispositivo de accesorio. Una orientación (o posición) del dispositivo de accesorio con relación al dispositivo de cómputo anfitrión entonces puede calcularse basándose en la posición/orientación espacial combinadas para el dispositivo de cómputo anfitrión y la posición/orientación espacial evaluada para el dispositivo de accesorio. La orientación relativa que se calcula entonces puede utilizarse en varias formas para controlar comportamientos del dispositivo de cómputo anfitrión y/o dispositivo de accesorio.
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公开(公告)号:NO20085023L
公开(公告)日:2008-12-12
申请号:NO20085023
申请日:2008-12-03
Applicant: MICROSOFT CORP
Inventor: CROSS DAVID B , SCHUTZ KLAUS U , LEACH PAUL J , YOUNG ROBERT D , SHERMAN NATHAN C
Abstract: Use of a biometric identification device in a client computer system to subsequently access an authentication system includes receiving biometric sample data which is digitally signed and combining the data with a user ID and PIN. This package of data is then securely transmitted to a biometric matching server to validate the user and the biometric sample. Once validated, the biometric matching server return the data package plus a temporary certificate and a public/private key pair to the client computer. The client computer may then use this information to access an authentication system to subsequently gain access to a secure resource.
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Patent Agency Ranking
公开(公告)号:AU2004200463A1
公开(公告)日:2004-09-09
申请号:AU2004200463
申请日:2004-02-10
Applicant: MICROSOFT CORP
Inventor: SHERMAN NATHAN C
Abstract: One aspect of the disclosure relates to an out-of-band communication system and associated process. The out-of-band communication system includes an encrypted data path that is configured to convey encrypted data. The out-of-band communication system includes an optical out-of-band channel that is physically distinct from the encrypted data path. The encrypted data path extends between an optical transmitter and an optical receiver. The optical out-of-band channel is configured to transmit key information from the optical transmitter to the optical receiver.
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公开(公告)号:CA2456260A1
公开(公告)日:2004-08-19
申请号:CA2456260
申请日:2004-01-19
Applicant: MICROSOFT CORP
Inventor: SHERMAN NATHAN C
Abstract: One aspect of the disclosure relates to an out-of-band communication system and associated process. The out-of-band communication system includes an encrypted data path that is configured to convey encrypted data. The out-of-band communication system includes an optical out-of-band channel that is physically distinct from the encrypted data path. The encrypted data path extends between an optical transmitter and an optical receiver. The optical out-of-band channel is configured to transmit key information from the optical transmitter to the optical receiver.
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公开(公告)号:WO2014088617A3
公开(公告)日:2014-08-28
申请号:PCT/US2013028772
申请日:2013-03-02
Applicant: MICROSOFT CORP
Inventor: HUALA ROB , SCHNEIDER SUMMER L , SHAW TIMOTHY C , WHITT DAVID OTTO III , WAHL ERIC JOSEPH , VANDERVOORT DAVID C , PLEAKE TODD DAVID , MCLAUGHLIN ROBYN REBECCA REED , MICKELSON MATTHEW DAVID , PELLEY JOEL LAWRENCE , GROENE RALF , WANG HUA , STOUMBOS CHRISTOPHER HARRY , AAGAARD KARSTEN , WISE JAMES H , LEON CAMILO , OLIVER THOMAS CHARLES , CADY ANDREW N , SCHULTZ BERNARD MAURICE , DIGHDE RAJESH MANOHAR , DRASNIN SHARON , SIDDIQUI KABIR , BELESIU JIM TOM , ISHIHARA JAMES ALEC , KASSELS JAY SCOTT , SPOONER RICHARD PETER , DIETZ PAUL HENRY , MATHIAS DENNIS J , LUTZ MOSHE R , MAIL SCOTT MITCHEL , WHITMAN CHRISTOPHER A , OLER VAN WINSTON , UMENO HIROO , PEREK DAVID R , SCHWAGER MICHAEL A , SEILSTAD MARK J , REED ANTHONY CHRISTIAN , CUMMINGS STEPHAN ALEXANDER , JENSEN DARRYL I , PANAY PANOS C , STRANDE HAKON , GOH CHUN BENG , MANTOOTH HAROLD F , MARSHALL JAMES CHARLES , PEDERSEN MATTHEW G , YOUNG ROBERT D , SHERMAN NATHAN C , GIBSON SCOTT K , SYKES SHANE AARON , LANE DAVID M , OBIE GENE ROBERT , GIAIMO EDWARD C III , NEFF DAVID , SOUSA JOSE R
IPC: G06F1/16
CPC classification number: H01H13/79 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , G06F1/166 , G06F1/1662 , G06F1/1669 , G06F1/1681 , G06F1/1683 , G06F1/1684 , G06F1/1686 , G06F3/002 , G06F3/01 , G06F3/0202 , G06F3/0219 , G06F3/023 , G06F3/0414 , G06F3/0416 , G06F3/0487 , G06F3/0488 , G06F3/04886 , G06F9/541 , G06F11/3089 , G06F13/102 , H01H9/26 , H01H11/00 , H01H13/14 , H01H13/702 , H01H13/703 , H01H13/704 , H01H13/78 , H01H13/785 , H01H13/807 , H01H13/82 , H01H2201/036 , H01H2203/02 , H01H2203/036 , H01H2203/058 , H01H2205/006 , H01H2211/004 , H01H2211/006 , H01H2213/016 , H01H2217/004 , H01H2217/006 , H01H2217/01 , H01H2227/032 , H04M1/0216 , H04M1/0245 , H04M1/0254 , H04M1/72527 , H05K5/0226 , H05K5/0234 , Y02B60/1228 , Y02D10/14 , Y10T16/5401 , Y10T16/551 , Y10T29/49826
Abstract: Flexible hinge and removable attachment techniques are described. In one or more implementations, a flexible hinge is configured to communicatively and physically couple an input device to a computing device and may implement functionality such as a support layer and minimum bend radius. The input device may also include functionality to promote a secure physical connection between the input device and the computing device. One example of this includes use of one or more protrusions that are configured to be removed from respective cavities of the computing device along a particular axis but mechanically bind along other axes. Other techniques include use of a laminate structure to form a connection portion of the input device.
Abstract translation: 描述了灵活的铰链和可拆卸的附件技术。 在一个或一个以上实施方案中,柔性铰链经配置以将输入装置通信且物理地耦合到计算装置且可实施例如支撑层和最小弯曲半径的功能性。 输入设备还可以包括用于促进输入设备和计算设备之间的安全物理连接的功能。 其中一个例子包括使用一个或多个突起,该突起被配置为沿着特定轴从计算设备的相应空腔移除,但是沿着其他轴机械地绑定。 其他技术包括使用层压结构来形成输入装置的连接部分。
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公开(公告)号:WO2014088612A3
公开(公告)日:2014-08-28
申请号:PCT/US2013028485
申请日:2013-03-01
Applicant: MICROSOFT CORP
Inventor: OLER VAN WINSTON , UMENO HIROO , WHITT III DAVID OTTO , SCHNEIDER SUMMER L , DRASNIN SHARON , SIDDIQUI KABIR , DIGHDE RAJESH MANOHAR , BELESIU JIM TOM , ISHIHARA JAMES ALEC , WANG HUA , GROENE RALF , STOUMBOS CHRISTOPHER HARRY , PELLEY JOEL LAWRENCE , KASSELS JAY SCOTT , SPOONER RICHARD PETER , PEREK DAVID R , SCHWAGER MICHAEL A , SEILSTAD MARK J , WHITMAN CHRISTOPHER A , MARSHALL JAMES CHARLES , PEDERSEN MATTHEW G , YOUNG ROBERT D , SHERMAN NATHAN C , GIBSON SCOTT K , MAIL SCOTT MITCHEL , SYKES SHANE AARON , LANE DAVID M , OBIE GENE ROBERT , GIAIMO III EDWARD C , NEFF DAVID , SOUSA JOSE R
Abstract: Multi-stage power adapter techniques are described in which a power adapter for a device is configured to selectively switch between a relatively low power supply and a relatively high power supply. The low power supply may be employed upon initial connection of the adapter to a host device to ensure that the adapter is safe when disconnected and does not supply full power before the device is ready to receive the high power supply. The low power supply may supply enough power for the host device to detect the connection of the adapter and establish initial communication with the adapter. A switch to the high power supply by the adapter may then occur in response to a notification from the host device that indicates the host device is ready for the high power supply. The switch to high power supply enables normal operation of the host device.
Abstract translation: 描述了多级电源适配器技术,其中用于设备的电源适配器被配置为选择性地在相对低的电源和相对高的电源之间切换。 在适配器初始连接到主机设备时可以使用低电源,以确保适配器在断开时是安全的,并且在设备准备好接收高电源之前不提供全功率。 低电源可以为主机设备提供足够的电力来检测适配器的连接并建立与适配器的初始通信。 然后,响应于来自主机设备的指示主机设备准备好高电源供应的通知,由适配器切换到高电力供应。 切换到高电源可以使主机设备正常工作。
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公开(公告)号:WO2014084879A3
公开(公告)日:2014-08-28
申请号:PCT/US2013028489
申请日:2013-03-01
Applicant: MICROSOFT CORP
Inventor: BELESIU JIM TOM , DRASNIN SHARON , SCHWAGER MICHAEL A , STOUMBOS CHRISTOPHER HARRY , SEILSTAD MARK J , DIGHDE RAJESH MANOHAR , CADY ANDREW N , SCHULTZ BERNARD MAURICE , WHITT III DAVID OTTO , SCHNEIDER SUMMER L , SIDDIQUI KABIR , ISHIHARA JAMES ALEC , WANG HUA , GROENE RALF , PELLEY JOEL LAWRENCE , KASSELS JAY SCOTT , SPOONER RICHARD PETER , SHAW TIMOTHY C , MICKELSON MATTHEW DAVID , AAGAARD KARSTEN , HUALA ROB , DIETZ PAUL HENRY , MATHIAS DENNIS J , VANDERVOORT DAVID C , PLEAKE TODD DAVID , LUTZ MOSHE R , MAIL SCOTT MITCHEL , WHITMAN CHRISTOPHER A , WAHL ERIC JOSEPH , MCLAUGHLIN ROBYN REBECCA REED , WISE JAMES H , LEON CAMILO , OLIVER THOMAS CHARLES , OLER VAN WINSTON , UMENO HIROO , PEREK DAVID R , REED ANTHONY CHRISTIAN , CUMMINGS STEPHAN ALEXANDER , JENSEN DARRYL I , PANAY PANOS C , STRANDE HAKON , GOH CHUN BENG , MANTOOTH HAROLD F , MARSHALL JAMES CHARLES , PEDERSEN MATTHEW G , YOUNG ROBERT D , SHERMAN NATHAN C , GIBSON SCOTT K , SYKES SHANE AARON , LANE DAVID M , OBIE GENE ROBERT , GIAIMO III EDWARD C , NEFF DAVID , SOUSA JOSE R
CPC classification number: H01H13/79 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , G06F1/166 , G06F1/1662 , G06F1/1669 , G06F1/1681 , G06F1/1683 , G06F1/1684 , G06F1/1686 , G06F3/002 , G06F3/01 , G06F3/0202 , G06F3/0219 , G06F3/023 , G06F3/0414 , G06F3/0416 , G06F3/0487 , G06F3/0488 , G06F3/04886 , G06F9/541 , G06F11/3089 , G06F13/102 , H01H9/26 , H01H11/00 , H01H13/14 , H01H13/702 , H01H13/703 , H01H13/704 , H01H13/78 , H01H13/785 , H01H13/807 , H01H13/82 , H01H2201/036 , H01H2203/02 , H01H2203/036 , H01H2203/058 , H01H2205/006 , H01H2211/004 , H01H2211/006 , H01H2213/016 , H01H2217/004 , H01H2217/006 , H01H2217/01 , H01H2227/032 , H04M1/0216 , H04M1/0245 , H04M1/0254 , H04M1/72527 , H05K5/0226 , H05K5/0234 , Y02B60/1228 , Y02D10/14 , Y10T16/5401 , Y10T16/551 , Y10T29/49826
Abstract: Techniques for mobile device power state are described. In one or more implementations, a mobile device includes a computing device that is flexibly coupled to an input device via a flexible hinge. Accordingly, the mobile device can operate in a variety of different power states based on a positional orientation of the computing device to an associated input device. In one or more implementations, an application that resides on a computing device can operate in different application states based on a positional orientation of the computing device to an associated input device. In one or more implementations, techniques discussed herein can differentiate between vibrations caused by touch input to a touch functionality, and other types of vibrations. Based on this differentiation, techniques can determine whether to transition between device power states.
Abstract translation: 描述移动设备功率状态的技术。 在一个或多个实施方式中,移动设备包括经由柔性铰链灵活地耦合到输入设备的计算设备。 因此,基于计算设备到相关联的输入设备的位置方位,移动设备可以以各种不同的功率状态进行操作。 在一个或多个实施方式中,驻留在计算设备上的应用程序可以基于计算设备相关联的输入设备的位置方位而在不同的应用程序状态下操作。 在一个或多个实施方式中,本文讨论的技术可以区分触摸输入对触摸功能引起的振动和其他类型的振动。 基于这种区别,技术可以确定是否在设备功率状态之间转换。
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