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    • 1. 发明授权
    • Real-time preview for panoramic images
    • 实时预览全景图像
    • US07424218B2
    • 2008-09-09
    • US11193091
    • 2005-07-28
    • Patrick BaudischChris PalEric RudolphDrew SteedlyRichard SzeliskiDesney TanMatthew Uyttendaele
    • Patrick BaudischChris PalEric RudolphDrew SteedlyRichard SzeliskiDesney TanMatthew Uyttendaele
    • G03B41/00G03B13/02H04N5/222
    • G03B17/18G03B13/02H04N5/23238H04N5/23293H04N5/262
    • A “Panoramic Viewfinder” provides an intuitive interactive viewfinder display which operates on a digital camera display screen. This interactive viewfinder provides real-time assistance in capturing images for constructing panoramic image mosaics. The Panoramic Viewfinder “brushes” a panorama from images captured in any order, while providing visual feedback to the user for ensuring that desired scene elements will appear in the final panorama. This visual feedback presents real-time stitched previews of the panorama while capturing images. In one embodiment, the viewfinder display of the Panoramic Viewfinder includes a “mosaic preview” which presents a stitched mosaic preview of the captured images; a live display window representing a “current content” of the camera viewfinder, which is mapped to a matching location within the mosaic preview; and an optional panoramic “cropping frame” overlaid onto the mosaic preview which illustrates a section of the mosaic which will survive a rectangular cropping of the mosaic.
    • “全景取景器”提供了直观的交互式取景器显示屏,可在数码相机显示屏幕上进行操作。 该交互式取景器提供实时帮助,捕获构建全景图像镶嵌图像。 全景取景器会以任何顺序捕获的图像“刷”全景图,同时向用户提供视觉反馈,以确保所需场景元素将显示在最终的全景图中。 这种视觉反馈在拍摄图像时呈现全景的实时缝合预览。 在一个实施例中,全景取景器的取景器显示器包括呈现捕获图像的拼接马赛克预览的“马赛克预览” 表示相机取景器的“当前内容”的实时显示窗口,其被映射到马赛克预览中的匹配位置; 以及覆盖在马赛克预览上的可选的全景“裁剪框架”,其示出马赛克的一部分,其将经受马赛克的矩形裁剪。
    • 2. 发明申请
    • Real-time preview for panoramic images
    • 实时预览全景图像
    • US20070025723A1
    • 2007-02-01
    • US11193091
    • 2005-07-28
    • Patrick BaudischChris PalEric RudolphDrew SteedlyRichard SzeliskiDesney TanMatthew Uyttendaele
    • Patrick BaudischChris PalEric RudolphDrew SteedlyRichard SzeliskiDesney TanMatthew Uyttendaele
    • G03B17/18
    • G03B17/18G03B13/02H04N5/23238H04N5/23293H04N5/262
    • A “Panoramic Viewfinder” provides an intuitive interactive viewfinder display which operates on a digital camera display screen. This interactive viewfinder provides real-time assistance in capturing images for constructing panoramic image mosaics. The Panoramic Viewfinder “brushes” a panorama from images captured in any order, while providing visual feedback to the user for ensuring that desired scene elements will appear in the final panorama. This visual feedback presents real-time stitched previews of the panorama while capturing images. In one embodiment, the viewfinder display of the Panoramic Viewfinder includes a “mosaic preview” which presents a stitched mosaic preview of the captured images; a live display window representing a “current content” of the camera viewfinder, which is mapped to a matching location within the mosaic preview; and an optional panoramic “cropping frame” overlaid onto the mosaic preview which illustrates a section of the mosaic which will survive a rectangular cropping of the mosaic.
    • “全景取景器”提供了直观的交互式取景器显示屏,可在数码相机显示屏幕上进行操作。 该交互式取景器提供实时帮助,捕获构建全景图像镶嵌图像。 全景取景器会以任何顺序捕获的图像“刷”全景图,同时向用户提供视觉反馈,以确保所需场景元素将显示在最终的全景图中。 这种视觉反馈在拍摄图像时呈现全景的实时缝合预览。 在一个实施例中,全景取景器的取景器显示器包括呈现捕获图像的拼接马赛克预览的“马赛克预览” 表示相机取景器的“当前内容”的实时显示窗口,其被映射到马赛克预览中的匹配位置; 以及覆盖在马赛克预览上的可选的全景“裁剪框架”,其示出马赛克的一部分,其将经受马赛克的矩形裁剪。
    • 4. 发明申请
    • Displaying 2D graphic content using depth wells
    • 使用深井显示2D图形内容
    • US20070113198A1
    • 2007-05-17
    • US11280635
    • 2005-11-16
    • George RobertsonDaniel RobbinsDesney TanKenneth HinckleyManeesh AgrawalaMary CzerwinskiPatrick BaudischGonzalo Ramos
    • George RobertsonDaniel RobbinsDesney TanKenneth HinckleyManeesh AgrawalaMary CzerwinskiPatrick BaudischGonzalo Ramos
    • G06F9/00
    • G06T11/60G06F3/0481G06T15/40
    • Displaying the relative depth of 2D image objects while preserving the visual attributes of the objects is disclosed. After an object group is determined, the members of the object group are temporarily moved away from a center location while preserving the object group members' positions relative to each other in the X-Y plane. A depth well is displayed at the center location and each object group member is connected to a ring-beam in the depth well. In response to a control action indicating a relative depth adjustment of an object group member relative to the remaining object group members, the depth of the object relative to the remaining object group members is changed. In response to a control action indicating the depth adjustment is complete, object group members are returned to their original positions in the X-Y plane with the adjusted object displayed at the object's new relative depth. Dragging object group member into the upper or lower part of another group member are control actions indicating a relative depth adjustment of an object group member.
    • 公开了显示2D图像对象的相对深度,同时保留对象的视觉属性。 在确定对象组之后,对象组的成员临时移动远离中心位置,同时在X-Y平面中保持对象组成员相对于彼此的位置。 在中心位置显示深度井,并且每个物体组件连接到深井中的环形梁。 响应于指示对象组成员相对于剩余对象组成员的相对深度调整的控制动作,相对于剩余对象组成员的对象的深度被改变。 响应于指示深度调整完成的控制动作,将对象组成员返回到其在X-Y平面中的原始位置,其中被调整的对象以对象的新相对深度显示。 将对象组成员拖到另一个组成员的上部或下部是控制动作,指示对象组成员的相对深度调整。
    • 5. 发明申请
    • Supporting user multi-tasking with clipping lists
    • 支持用户多任务剪裁列表
    • US20070162866A1
    • 2007-07-12
    • US11328005
    • 2006-01-09
    • Tara MatthewsGeorge RobertsonMary CzerwinskiDesney Tan
    • Tara MatthewsGeorge RobertsonMary CzerwinskiDesney Tan
    • G06F9/00
    • G06F3/0481
    • A method for managing windows in a display is disclosed. The method comprises forming clippings for windows located in a focal region of a display; displaying the clippings in a peripheral region of the display; hiding the windows in the focal region of the display; indicating the states of the clippings; and in response to a user action, displaying the windows and hiding the clippings. A clipping comprises an image of a region of a window and an icon. A clipping is formed when a window is dragged from the focal region into the peripheral region or when the minimize button of a window is clicked. A clipping list is formed when a clipping is moved near another clipping. A clipping moved near a clipping list is inserted into the clipping list. Indicating the change state of a clipping comprises detecting that the contents of the clipping are changing; providing a visual cue for the clipping; changing the appearance of the visual cue in response to detecting that the contents of the clipping are no longer changing; and removing the visual cue in response to a user action. The change state of a clipping in a clipping list is propagated to the clipping list.
    • 公开了一种用于管理显示器中的窗口的方法。 该方法包括形成位于显示器的焦点​​区域中的窗口的剪切; 在显示器的外围区域中显示剪辑; 将窗户隐藏在显示屏的焦点区域; 指示剪报的状态; 并响应于用户动作,显示窗口并隐藏剪辑。 剪辑包括窗口区域和图标的图像。 当窗口从焦点区域拖动到外围区域时或当窗口的最小化按钮被点击时,形成剪辑。 当剪辑移动到另一个剪辑附近时,形成剪辑列表。 在剪辑列表附近移动的剪辑被插入到剪辑列表中。 指示剪辑的改变状态包括检测剪辑的内容正在改变; 提供剪辑的视觉提示; 响应于检测到剪辑的内容不再改变而改变视觉提示的外观; 以及响应于用户动作去除视觉提示。 剪辑列表中剪辑的改变状态被传播到剪辑列表。
    • 7. 发明授权
    • Wearable electromyography-based human-computer interface
    • 可穿戴肌电图人机界面
    • US09037530B2
    • 2015-05-19
    • US13433845
    • 2012-03-29
    • Desney TanT. Scott SaponasDan MorrisJim Turner
    • Desney TanT. Scott SaponasDan MorrisJim Turner
    • G06F15/00G06F15/18G06F3/01A61B5/0488A61B5/00G06N5/00G06N99/00
    • G06F3/017A61B5/0488A61B5/6824A61B5/6828G06F3/015G06N5/00G06N99/005
    • A “Wearable Electromyography-Based Controller” includes a plurality of Electromyography (EMG) sensors and provides a wired or wireless human-computer interface (HCI) for interacting with computing systems and attached devices via electrical signals generated by specific movement of the user's muscles. Following initial automated self-calibration and positional localization processes, measurement and interpretation of muscle generated electrical signals is accomplished by sampling signals from the EMG sensors of the Wearable Electromyography-Based Controller. In operation, the Wearable Electromyography-Based Controller is donned by the user and placed into a coarsely approximate position on the surface of the user's skin. Automated cues or instructions are then provided to the user for fine-tuning placement of the Wearable Electromyography-Based Controller. Examples of Wearable Electromyography-Based Controllers include articles of manufacture, such as an armband, wristwatch, or article of clothing having a plurality of integrated EMG-based sensor nodes and associated electronics.
    • “可佩戴的基于肌电图的控制器”包括多个电子照相术(EMG)传感器,并提供有线或无线人机界面(HCI),用于通过由用户的肌肉的特定运动产生的电信号与计算系统和附属设备进行交互。 在初始自动自校准和位置定位过程之后,肌肉产生的电信号的测量和解释是通过从可穿戴电子照相系统的控制器的EMG传感器采集信号来实现的。 在操作中,可佩戴的基于肌电图的控制器由使用者穿戴并且放置在使用者皮肤表面上的粗略近似位置。 然后将自动提示或指令提供给用户,以微调可穿戴电子照相系统的控制器的布置。 基于可穿戴电子照相的控制器的示例包括具有多个集成的基于EMG的传感器节点和相关联的电子设备的制品,例如臂带,手表或服装。
    • 8. 发明申请
    • RECOGNIZING GESTURES FROM FOREARM EMG SIGNALS
    • 从FOREARM EMG信号识别GESTURES
    • US20090327171A1
    • 2009-12-31
    • US12146471
    • 2008-06-26
    • Desney TanDan MorrisScott SaponasRavin Balakrishnan
    • Desney TanDan MorrisScott SaponasRavin Balakrishnan
    • G06F15/18
    • G06N99/005G06F3/015G06F3/017
    • A machine learning model is trained by instructing a user to perform proscribed gestures, sampling signals from EMG sensors arranged arbitrarily on the user's forearm with respect to locations of muscles in the forearm, extracting feature samples from the sampled signals, labeling the feature samples according to the corresponding gestures instructed to be performed, and training the machine learning model with the labeled feature samples. Subsequently, gestures may be recognized using the trained machine learning model by sampling signals from the EMG sensors, extracting from the signals unlabeled feature samples of a same type as those extracted during the training, passing the unlabeled feature samples to the machine learning model, and outputting from the machine learning model indicia of a gesture classified by the machine learning model.
    • 通过指示用户执行禁止的手势,从前臂中的肌肉位置任意布置的EMG传感器的采样信号,从采样信号中提取特征样本,按照根据 指示执行相应的手势,并用标记的特征样本训练机器学习模型。 随后,可以使用经过训练的机器学习模型,通过对来自EMG传感器的信号进行采样,从信号提取与训练期间提取的相似类型的未标记的特征样本,将未标记的特征样本传递到机器学习模型, 从机器学习模型标记输出由机器学习模型分类的手势。
    • 9. 发明申请
    • WEARABLE ELECTROMYOGRAPHY-BASED CONTROLLERS FOR HUMAN-COMPUTER INTERFACE
    • 用于人机界面的基于电磁学的电磁控制器
    • US20090326406A1
    • 2009-12-31
    • US12404223
    • 2009-03-13
    • Desney TanT. Scott SaponasDan MorrisJim Turner
    • Desney TanT. Scott SaponasDan MorrisJim Turner
    • A61B5/0488H03K17/94
    • G06F3/015A61B5/0488G06F1/163G06F3/017
    • A “Wearable Electromyography-Based Controller” includes a plurality of Electromyography (EMG) sensors and provides a wired or wireless human-computer interface (HCl) for interacting with computing systems and attached devices via electrical signals generated by specific movement of the user's muscles. Following initial automated self-calibration and positional localization processes, measurement and interpretation of muscle generated electrical signals is accomplished by sampling signals from the EMG sensors of the Wearable Electromyography-Based Controller. In operation, the Wearable Electromyography-Based Controller is donned by the user and placed into a coarsely approximate position on the surface of the user's skin. Automated cues or instructions are then provided to the user for fine-tuning placement of the Wearable Electromyography-Based Controller. Examples of Wearable Electromyography-Based Controllers include articles of manufacture, such as an armband, wristwatch, or article of clothing having a plurality of integrated EMG-based sensor nodes and associated electronics.
    • “可佩戴的基于肌电图的控制器”包括多个电子照相术(EMG)传感器,并提供有线或无线人机界面(HCl),用于通过由用户的肌肉的特定运动产生的电信号与计算系统和附属设备进行交互。 在初始自动自校准和位置定位过程之后,肌肉产生的电信号的测量和解释是通过从可穿戴电子照相系统的控制器的EMG传感器采集信号来实现的。 在操作中,可佩戴的基于肌电图的控制器由使用者穿戴并且放置在使用者皮肤表面上的粗略近似位置。 然后将自动提示或指令提供给用户,以微调可穿戴电子照相系统的控制器的布置。 基于可穿戴电子照相的控制器的示例包括具有多个集成的基于EMG的传感器节点和相关联的电子设备的制品,例如臂带,手表或服装。