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公开(公告)号:US20140012401A1
公开(公告)日:2014-01-09
申请号:US14018286
申请日:2013-09-04
Applicant: Microsoft Corporation
Inventor: David R. Perek , Michael A. Schwager , Sharon Drasnin , Mark J. Seilstad
IPC: G05B11/01
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , 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 , H01H13/79 , 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 , 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机计算设备和/或附件设备的行为。
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2.发明授权Computer device and an apparatus having sensors configured for measuring spatial information indicative of a position of the computing devices 有权计算机设备和具有被配置用于测量指示计算设备的位置的空间信息的传感器的设备公开(公告)号:US08903517B2
公开(公告)日:2014-12-02
申请号:US14018286
申请日:2013-09-04
Applicant: Microsoft Corporation
Inventor: David R. Perek , Michael A. Schwager , Sharon Drasnin , Mark J. Seilstad
IPC: G05B19/18 , G06F1/16 , H04M1/725 , H05K5/02 , H01H13/82 , H04M1/02 , G06F3/02 , G06F3/041 , H01H13/704 , G05B11/01
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , 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 , H01H13/79 , 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 , 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机计算设备和/或附件设备的行为。
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Patent Agency Ranking
公开(公告)号:US20130229568A1
公开(公告)日:2013-09-05
申请号:US13651976
申请日:2012-10-15
Applicant: MICROSOFT CORPORATION
Inventor: Jim Tom Belesiu , Sharon Drasnin , Michael A. Schwager , Christopher Harry Stoumbos , Mark J. Seilstad
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , 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 , H01H13/79 , 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 , 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: 描述了移动设备电源状态的技术。 在一个或多个实现中,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,移动设备可以基于计算设备对相关联的输入设备的位置取向在各种不同的功率状态下操作。 在一个或多个实现中,驻留在计算设备上的应用可以基于计算设备对相关联的输入设备的位置取向在不同的应用状态中操作。 在一个或多个实现中,本文所讨论的技术可以区分由触摸功能的触摸输入引起的振动和其它类型的振动。 基于这种区别,技术可以确定是否在设备电源状态之间转换。
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公开(公告)号:US20130231755A1
公开(公告)日:2013-09-05
申请号:US13651272
申请日:2012-10-12
Applicant: MICROSOFT CORPORATION
Inventor: David R. Perek , Michael A. Schwager , Sharon Drasnin , Mark J. Seilstad
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , 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 , H01H13/79 , 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 , 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机计算设备和/或附件设备的行为。
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公开(公告)号:US09047207B2
公开(公告)日:2015-06-02
申请号:US13651976
申请日:2012-10-15
Applicant: Microsoft Corporation
Inventor: Jim Tom Belesiu , Sharon Drasnin , Michael A. Schwager , Christopher Harry Stoumbos , Mark J. Seilstad
IPC: G06F1/26 , G06F1/32 , G06F13/10 , G06F3/02 , G06F1/16 , H05K5/02 , H04M1/02 , H04M1/725 , G05B11/01 , G06F3/041 , H01H13/704 , H01H13/82 , G06F3/00 , G06F3/01 , H01H13/702 , H01H13/14 , H01H13/703 , G06F9/54 , G06F11/30
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , 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 , H01H13/79 , 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 , 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: 描述了移动设备电源状态的技术。 在一个或多个实现中,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,移动设备可以基于计算设备对相关联的输入设备的位置取向在各种不同的功率状态下操作。 在一个或多个实现中,驻留在计算设备上的应用可以基于计算设备对相关联的输入设备的位置取向在不同的应用状态中操作。 在一个或多个实现中,本文所讨论的技术可以区分由触摸功能的触摸输入引起的振动和其它类型的振动。 基于这种区别,技术可以确定是否在设备电源状态之间转换。
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6.发明申请Computing Device and an Apparatus Having Sensors Configured for Measuring Spatial Information Indicative of a Position of the Computing Devices 有权计算设备和具有配置用于测量表示计算设备的位置的空间信息的传感器的设备公开(公告)号:US20140379942A1
公开(公告)日:2014-12-25
申请号:US14482983
申请日:2014-09-10
Applicant: Microsoft Corporation
Inventor: David R. Perek , Michael A. Schwager , Sharon Drasnin , Mark J. Seilstad
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , 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 , H01H13/79 , 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 , 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机计算设备和/或附件设备的行为。
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公开(公告)号:US08543227B1
公开(公告)日:2013-09-24
申请号:US13651272
申请日:2012-10-12
Applicant: Microsoft Corporation
Inventor: David R. Perek , Michael A. Schwager , Sharon Drasnin , Mark J. Seilstad
IPC: G05B19/18
CPC classification number: G06F1/166 , E05D11/1064 , E05F5/08 , F16M11/38 , G05B11/01 , G06F1/1616 , G06F1/1618 , G06F1/1637 , G06F1/1654 , G06F1/1656 , 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 , H01H13/79 , 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 , 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.
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