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公开(公告)号:US20130083003A1
公开(公告)日:2013-04-04
申请号:US13250878
申请日:2011-09-30
申请人: Kathryn Stone Perez , Stephen G. Latta , Ben J. Sugden , Benjamin I. Vaught , Kevin A. Geisner , Alex Aben-Athar Kipman , Jennifer A. Karr
发明人: Kathryn Stone Perez , Stephen G. Latta , Ben J. Sugden , Benjamin I. Vaught , Kevin A. Geisner , Alex Aben-Athar Kipman , Jennifer A. Karr
CPC分类号: G06T7/0012 , A63B24/0062 , A63F13/02 , A63F13/216 , A63F13/422 , A63F13/55 , A63F13/65 , A63F13/79 , A63F2300/203 , A63F2300/301 , A63F2300/303 , A63F2300/6676 , G02B27/0172 , G02B2027/0138 , G02B2027/014 , G02B2027/0178 , G06F3/005 , G06F3/011 , G06F3/013 , G06F3/0304 , G06F3/044 , G06K9/00335 , G06K9/52 , G06T7/20 , G06T11/20 , G06T19/006
摘要: The technology described herein incudes a see-through, near-eye, mixed reality display device for providing customized experiences for a user. The system can be used in various entertainment, sports, shopping and theme-park situations to provide a mixed reality experience.
摘要翻译: 本文描述的技术包括透视,近眼,混合现实显示设备,用于为用户提供定制体验。 该系统可用于各种娱乐,体育,购物和主题公园场合,提供混合现实体验。
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公开(公告)号:US09122053B2
公开(公告)日:2015-09-01
申请号:US13443368
申请日:2012-04-10
申请人: Kevin A. Geisner , Brian J. Mount , Stephen G. Latta , Daniel J. McCulloch , Kyungsuk David Lee , Ben J. Sugden , Jeffrey N. Margolis , Kathryn Stone Perez , Sheridan Martin Small , Mark J. Finocchio , Robert L. Crocco, Jr.
发明人: Kevin A. Geisner , Brian J. Mount , Stephen G. Latta , Daniel J. McCulloch , Kyungsuk David Lee , Ben J. Sugden , Jeffrey N. Margolis , Kathryn Stone Perez , Sheridan Martin Small , Mark J. Finocchio , Robert L. Crocco, Jr.
CPC分类号: G02B27/017 , G02B2027/0127 , G02B2027/0138 , G02B2027/014 , G02B2027/0178 , G06F3/011 , G06F3/013 , G06F3/165 , G06F3/167 , G06K9/00214 , G06K9/00335 , G06K9/00671 , G06K9/34 , G06T19/006 , H04S7/304 , H04S7/306 , H04S2400/11 , H04S2400/15 , H04S2420/03
摘要: Technology is described for providing realistic occlusion between a virtual object displayed by a head mounted, augmented reality display system and a real object visible to the user's eyes through the display. A spatial occlusion in a user field of view of the display is typically a three dimensional occlusion determined based on a three dimensional space mapping of real and virtual objects. An occlusion interface between a real object and a virtual object can be modeled at a level of detail determined based on criteria such as distance within the field of view, display size or position with respect to a point of gaze. Technology is also described for providing three dimensional audio occlusion based on an occlusion between a real object and a virtual object in the user environment.
摘要翻译: 描述了技术,用于在由头戴式显示器,增强现实显示系统显示的虚拟对象和通过显示器对用户的眼睛可见的真实物体之间提供逼真的遮挡。 显示器的用户视野中的空间遮挡通常是基于实际和虚拟物体的三维空间映射确定的三维遮挡。 可以以基于诸如视场内的距离,相对于凝视点的显示大小或位置的标准确定的细节级别来建模真实对象和虚拟对象之间的遮挡界面。 还描述了用于基于用户环境中的真实对象和虚拟对象之间的遮挡来提供三维音频遮挡的技术。
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公开(公告)号:US20120206452A1
公开(公告)日:2012-08-16
申请号:US13443368
申请日:2012-04-10
申请人: Kevin A. Geisner , Brian J. Mount , Stephen G. Latta , Daniel J. McCulloch , Kyungsuk David Lee , Ben J. Sugden , Jeffrey N. Margolis , Kathryn Stone Perez , Sheridan Martin Small , Mark J. Finocchio , Robert L. Crocco, JR.
发明人: Kevin A. Geisner , Brian J. Mount , Stephen G. Latta , Daniel J. McCulloch , Kyungsuk David Lee , Ben J. Sugden , Jeffrey N. Margolis , Kathryn Stone Perez , Sheridan Martin Small , Mark J. Finocchio , Robert L. Crocco, JR.
CPC分类号: G02B27/017 , G02B2027/0127 , G02B2027/0138 , G02B2027/014 , G02B2027/0178 , G06F3/011 , G06F3/013 , G06F3/165 , G06F3/167 , G06K9/00214 , G06K9/00335 , G06K9/00671 , G06K9/34 , G06T19/006 , H04S7/304 , H04S7/306 , H04S2400/11 , H04S2400/15 , H04S2420/03
摘要: Technology is described for providing realistic occlusion between a virtual object displayed by a head mounted, augmented reality display system and a real object visible to the user's eyes through the display. A spatial occlusion in a user field of view of the display is typically a three dimensional occlusion determined based on a three dimensional space mapping of real and virtual objects. An occlusion interface between a real object and a virtual object can be modeled at a level of detail determined based on criteria such as distance within the field of view, display size or position with respect to a point of gaze. Technology is also described for providing three dimensional audio occlusion based on an occlusion between a real object and a virtual object in the user environment.
摘要翻译: 描述了技术,用于在由头戴式显示器,增强现实显示系统显示的虚拟对象和通过显示器对用户的眼睛可见的真实物体之间提供逼真的遮挡。 显示器的用户视野中的空间遮挡通常是基于实际和虚拟物体的三维空间映射确定的三维遮挡。 可以以基于诸如视场内的距离,相对于凝视点的显示大小或位置的标准确定的细节级别来建模真实对象和虚拟对象之间的遮挡界面。 还描述了用于基于用户环境中的真实对象和虚拟对象之间的遮挡来提供三维音频遮挡的技术。
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公开(公告)号:US09182815B2
公开(公告)日:2015-11-10
申请号:US13313368
申请日:2011-12-07
CPC分类号: G06T19/006 , G02B27/0093 , G02B27/017 , G02B2027/0138 , G02B2027/014 , G02B2027/0178 , G02B2027/0187 , G06F3/011 , G06F3/013 , G06F3/017 , G06K9/00671
摘要: The technology provides embodiments for making static printed content being viewed through a see-through, mixed reality display device system more dynamic with display of virtual data. A printed content item, for example a book or magazine, is identified from image data captured by cameras on the display device, and user selection of a printed content selection within the printed content item is identified based on physical action user input, for example eye gaze or a gesture. A task in relation to the printed content selection can also be determined based on physical action user input. Virtual data for the printed content selection is displayed in accordance with the task. Additionally, virtual data can be linked to a work embodied in a printed content item. Furthermore, a virtual version of the printed material may be displayed at a more comfortable reading position and with improved visibility of the content.
摘要翻译: 该技术提供了通过具有虚拟数据的显示更动态的透明,混合现实显示设备系统来制作静态打印内容的实施例。 从显示装置上的照相机拍摄的图像数据识别出打印的内容项目,例如书籍或杂志,并且基于物理动作用户输入来识别打印内容项目内的打印内容选择的用户选择,例如眼睛 注视或手势。 关于印刷内容选择的任务也可以基于物理动作用户输入来确定。 根据任务显示打印内容选择的虚拟数据。 此外,虚拟数据可以链接到打印的内容项目中体现的作品。 此外,打印材料的虚拟版本可以以更舒适的阅读位置显示并且改善内容的可视性。
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公开(公告)号:US08602887B2
公开(公告)日:2013-12-10
申请号:US12792961
申请日:2010-06-03
IPC分类号: G06F17/00
CPC分类号: A63F13/63 , A63F13/213 , A63F13/215 , A63F2300/1018 , A63F2300/1087 , A63F2300/6072 , A63F2300/6081
摘要: A system and method are disclosed for synthesizing information received from multiple audio and visual sources focused on a single scene. The system may determine the positions of capture devices based on a common set of cues identified in the image data of the capture devices. As a scene may often have users and objects moving into and out of the scene, data from the multiple capture devices may be time synchronized to ensure that data from the audio and visual sources are providing data of the same scene at the same time. Audio and/or visual data from the multiple sources may be reconciled and assimilated together to improve an ability of the system to interpret audio and/or visual aspects from the scene.
摘要翻译: 公开了一种用于合成从聚焦在单个场景上的多个音频和视频源接收的信息的系统和方法。 系统可以基于在捕获设备的图像数据中识别的一组公共信号来确定捕获设备的位置。 由于场景通常可能使用户和对象进出场景,来自多个捕获设备的数据可能是时间同步的,以确保来自音频和视频源的数据同时提供相同场景的数据。 来自多个源的音频和/或视觉数据可以一起协调和同化,以提高系统从场景中解释音频和/或视觉方面的能力。
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公开(公告)号:US20120278904A1
公开(公告)日:2012-11-01
申请号:US13094444
申请日:2011-04-26
IPC分类号: G06F21/24
CPC分类号: G06F21/10
摘要: A content presentation system and method allowing content providers to regulate the presentation of content on a per-user-view basis. Content is distributed an associated license option on the number of individual consumers or viewers allowed to consume the content. Consumers are presented with a content selection and a choice of licenses allowing consumption of the content. The users consuming the content on a display device are monitored so that if the number of user-views licensed is exceeded, remedial action may be taken.
摘要翻译: 内容呈现系统和方法,允许内容提供者在每个用户视图的基础上调节内容的呈现。 内容被分发了关于允许消费内容的个人消费者或观众的数量的关联许可选项。 向消费者呈现内容选择和允许使用内容的许可证的选择。 监视在显示设备上消费内容的用户,以便如果超过许可的用户视图数量,则可采取补救措施。
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公开(公告)号:US09213163B2
公开(公告)日:2015-12-15
申请号:US13221662
申请日:2011-08-30
申请人: John R. Lewis , Yichen Wei , Robert L. Crocco , Benjamin I. Vaught , Kathryn Stone Perez , Alex Aben-Athar Kipman
发明人: John R. Lewis , Yichen Wei , Robert L. Crocco , Benjamin I. Vaught , Kathryn Stone Perez , Alex Aben-Athar Kipman
IPC分类号: G02B27/14 , G03H1/00 , G02F1/1335 , G03B21/26 , G09G5/00 , A61B3/14 , G02B7/12 , A61B3/113 , G02B27/01
CPC分类号: G02B7/12 , A61B3/113 , G02B27/017 , G02B2027/0127 , G02B2027/014 , G02B2027/0187
摘要: The technology provides for automatic alignment of a see-through near-eye, mixed reality device with an inter-pupillary distance (IPD). A determination is made as to whether a see-through, near-eye, mixed reality display device is aligned with an IPD of a user. If the display device is not aligned with the IPD, the display device is automatically adjusted. In some examples, the alignment determination is based on determinations of whether an optical axis of each display optical system positioned to be seen through by a respective eye is aligned with a pupil of the respective eye in accordance with an alignment criteria. The pupil alignment may be determined based on an arrangement of gaze detection elements for each display optical system including at least one sensor for capturing data of the respective eye and the captured data. The captured data may be image data, image and glint data, and glint data only.
摘要翻译: 该技术提供了透视近眼,混合现实设备与瞳孔间距离(IPD)的自动对准。 确定透视,近眼,混合现实显示设备是否与用户的IPD对准。 如果显示设备未与IPD对齐,则会自动调整显示设备。 在一些示例中,对准确定是基于根据对准标准确定位于通过各个眼睛看到的每个显示光学系统的光轴是否与各个眼睛的瞳孔对齐的确定。 可以基于每个显示光学系统的注视检测元件的布置来确定瞳孔对准,包括用于捕获各个眼睛的数据和捕获的数据的至少一个传感器。 捕获的数据可以仅是图像数据,图像和闪烁数据,以及闪烁数据。
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48.发明授权公开(公告)号:US09025252B2
公开(公告)日:2015-05-05
申请号:US13221707
申请日:2011-08-30
IPC分类号: G02B27/14 , G03H1/00 , G02F1/1335 , G03B21/26 , G09G5/00 , A61B3/14 , G02B7/12 , A61B3/11 , A61B3/113 , G02B27/22 , G06F9/44 , G06T19/00 , G02B27/01 , H04N13/04 , G06T7/00 , G06K9/00
CPC分类号: G02B7/12 , A61B3/111 , A61B3/113 , G02B27/017 , G02B27/0176 , G02B27/2242 , G02B2027/014 , G06F9/451 , G06K9/00604 , G06T7/73 , G06T19/006 , G06T2207/10048 , G06T2207/30201 , H04N13/344 , H04N13/383 , H04N2213/001
摘要: The technology provides for adjusting a see-through, near-eye, mixed reality display device for alignment with an inter-pupillary distance (IPD) of a user by different examples of display adjustment mechanisms. The see-through, near-eye, mixed reality system includes for each eye a display optical system having an optical axis. Each display optical system is positioned to be seen through by a respective eye, and is supported on a respective movable support structure. A display adjustment mechanism attached to the display device also connects with each movable support structure for moving the structure. A determination is automatically made as to whether the display device is aligned with an IPD of a user. If not aligned, one or more adjustment values for a position of at least one of the display optical systems is automatically determined. The display adjustment mechanism moves the at least one display optical system in accordance with the adjustment values.
摘要翻译: 该技术提供了通过显示调整机构的不同示例来调整透视眼睛混合现实显示设备,以与用户的瞳孔间距(IPD)对准。 透视,近眼,混合现实系统包括每个眼睛具有光轴的显示光学系统。 每个显示光学系统定位成通过相应的眼睛看到,并被支撑在相应的可移动支撑结构上。 附接到显示装置的显示调节机构也与用于移动结构的每个可移动支撑结构连接。 自动确定显示设备是否与用户的IPD对齐。 如果不对齐,则自动确定至少一个显示光学系统的位置的一个或多个调整值。 显示调整机构根据调整值移动至少一个显示光学系统。
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49.发明申请公开(公告)号:US20130050833A1
公开(公告)日:2013-02-28
申请号:US13221707
申请日:2011-08-30
IPC分类号: G02B27/01
CPC分类号: G02B7/12 , A61B3/111 , A61B3/113 , G02B27/017 , G02B27/0176 , G02B27/2242 , G02B2027/014 , G06F9/451 , G06K9/00604 , G06T7/73 , G06T19/006 , G06T2207/10048 , G06T2207/30201 , H04N13/344 , H04N13/383 , H04N2213/001
摘要: The technology provides for adjusting a see-through, near-eye, mixed reality display device for alignment with an inter-pupillary distance (IPD) of a user by different examples of display adjustment mechanisms. The see-through, near-eye, mixed reality system includes for each eye a display optical system having an optical axis. Each display optical system is positioned to be seen through by a respective eye, and is supported on a respective movable support structure. A display adjustment mechanism attached to the display device also connects with each movable support structure for moving the structure. A determination is automatically made as to whether the display device is aligned with an IPD of a user. If not aligned, one or more adjustment values for a position of at least one of the display optical systems is automatically determined. The display adjustment mechanism moves the at least one display optical system in accordance with the adjustment values.
摘要翻译: 该技术提供了通过显示调整机构的不同示例来调整透视眼睛混合现实显示设备,以与用户的瞳孔间距(IPD)对准。 透视,近眼,混合现实系统包括每个眼睛具有光轴的显示光学系统。 每个显示光学系统定位成通过相应的眼睛看到,并被支撑在相应的可移动支撑结构上。 附接到显示装置的显示调节机构也与用于移动结构的每个可移动支撑结构连接。 自动确定显示设备是否与用户的IPD对齐。 如果不对齐,则自动确定至少一个显示光学系统的位置的一个或多个调整值。 显示调整机构根据调整值移动至少一个显示光学系统。
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公开(公告)号:US20110314381A1
公开(公告)日:2011-12-22
申请号:US12819983
申请日:2010-06-21
CPC分类号: A63F13/424 , A63F13/10 , A63F13/12 , A63F13/20 , A63F13/21 , A63F13/213 , A63F13/215 , A63F13/47 , A63F2300/1087 , A63F2300/6045 , A63F2300/632 , G06F3/017 , G06F3/167 , G06F17/30056 , G10L15/26
摘要: A system and method are disclosed for combining interactive gaming aspects into a linear story. A user may interact with the linear story via a NUI system to alter the story and the images that are presented to the user. In an example, a user may alter the story by performing a predefined exploration gesture. This gesture brings the user into the 3-D world of the displayed image. In particular, the image displayed on the screen changes to create the impression that a user is stepping into the 3-D virtual world to allow a user to examine virtual objects from different perspectives or to peer around virtual objects.
摘要翻译: 公开了将交互式游戏方面结合成线性故事的系统和方法。 用户可以通过NUI系统与线性故事交互以改变呈现给用户的故事和图像。 在一个示例中,用户可以通过执行预定义的探索手势来改变故事。 该手势使用户进入显示图像的3-D世界。 特别地,显示在屏幕上的图像改变以产生用户正在步入3D虚拟世界的印象,以允许用户从不同的角度检查虚拟对象或者围绕虚拟对象进行对等。
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