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公开(公告)号:US20210041710A1
公开(公告)日:2021-02-11
申请号:US16532243
申请日:2019-08-05
发明人: Clifford Wong , Nathan D. Nocon , Quinn Smithwick
摘要: According to one implementation, an image generation system includes a rotor, a base including a motor for spinning the rotor about an axis of rotation, a display secured to the rotor, the display including a display surface, and a blur screen secured to the display. The blur screen has a vertical edge substantially parallel to the axis of rotation and includes a first light emission barrier, a second light emission barrier, and a horizontal gap having a width substantially perpendicular to the vertical edge separating the first light emission barrier from the second light emission barrier. The first light emission barrier and the second light emission barrier are configured to substantially prevent rotational blur of an image displayed by the display surface while the display and the blur screen are spun by the motor and the rotor.
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公开(公告)号:US10807490B2
公开(公告)日:2020-10-20
申请号:US16162157
申请日:2018-10-16
摘要: A method and associated computer program product and system are disclosed. The method comprises, while a battery-operated vehicle is not being charged by a power supply, receiving a first input at a user interface displayed on a computing device. The method further comprises, responsive to the first input, wirelessly transmitting a first control signal to the battery-operated vehicle to control motive operation thereof. The method further comprises, responsive to receiving an indication that the battery-operated vehicle is being charged by the power supply, displaying one or more tasks to be completed using the user interface. The method further comprises receiving a second input at the user interface while the one or more tasks are displayed, and responsive to the second input, wirelessly transmitting a second control signal to operate one or more output devices of the battery-operated vehicle.
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公开(公告)号:US10764564B2
公开(公告)日:2020-09-01
申请号:US16224717
申请日:2018-12-18
发明人: Eric C. Haseltine , Nathan Nocon , Elliott Baumbach , Clifford Wong , Jonathan R. Hsu , Michael P. Goslin
IPC分类号: H04N13/302 , H04N13/144 , G06F3/01 , G02B30/27
摘要: According to one implementation, a stereoscopic image display system includes a computing platform having one or more hardware processor(s), a system memory storing a software code, an autostereoscopic display, and a user tracking unit controlled by the hardware processor(s). The hardware processor(s) execute the software code to utilize the user tracking unit to detect a left eye location and a right eye location of a user of the stereoscopic image display system, and to determine a left eye image and a right eye image corresponding to an output image of a content being played out by the stereoscopic image display system based on the respective left eye location and right eye location of the user. The hardware processor(s) further execute the software code to render the left eye image and the right eye image using the autostereoscopic display to generate a three-dimensional (3D) image of the output image.
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公开(公告)号:US20160050358A1
公开(公告)日:2016-02-18
申请号:US14925880
申请日:2015-10-28
IPC分类号: H04N5/232
CPC分类号: H04N5/23206 , H04M1/7253 , H04N5/77
摘要: There is provided a method, which includes providing a multimedia unit configured to capture still images and videos, receiving a triggering signal and capturing a still image and a video containing the still image, in response to the receiving of the triggering signal, where the video spans a window starting before and ending after the still image.
摘要翻译: 提供了一种方法,其包括提供被配置为捕获静止图像和视频,接收触发信号并捕获静止图像的多媒体单元和包含静止图像的视频,响应于接收到触发信号,其中视频 跨越从静止图像之前开始并在静止图像之后结束的窗口。
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5.发明授权Controlling unmanned aerial vehicles as a flock to synchronize flight in aerial displays 有权控制无人驾驶飞行器作为群飞行同步飞行在空中显示公开(公告)号:US09102406B2
公开(公告)日:2015-08-11
申请号:US13768823
申请日:2013-02-15
CPC分类号: B64C39/024 , B64C2201/024 , B64C2201/027 , B64C2201/128 , B64C2201/143 , B64C2201/146 , B64D47/02 , G05D1/0027 , G05D1/0808 , G05D1/102 , G05D1/104 , G08G5/0008 , G08G5/0013 , G08G5/0021 , G08G5/0034 , G08G5/0039 , G08G5/0069 , G08G5/04 , G08G5/045
摘要: A system for flock-based control of a plurality of unmanned aerial vehicles (UAVs). The system includes UAVs each including a processor executing a local control module and memory accessible by the processor for use by the local control module. The system includes a ground station system with a processor executing a fleet manager module and with memory storing a different flight plan for each of the UAVs. The flight plans are stored on the UAVs, and, during flight operations, each of the local control modules independently controls the corresponding UAV to execute its flight plan without ongoing control from the fleet manager module. The fleet manager module is operable to initiate flight operations by concurrently triggering initiation of the flight plans by the multiple UAVs. Further, the local control modules monitor front and back and communication channels and, when a channel is lost, operate the UAV in a safe mode.
摘要翻译: 一种用于多个无人机(UAV)的基于群控的系统。 该系统包括各自包括执行本地控制模块的处理器和由处理器访问以由本地控制模块使用的存储器的UAV。 该系统包括具有处理器执行车队管理器模块的地面站系统以及存储针对每个无人机的不同飞行计划的存储器。 飞行计划存储在无人机上,并且在飞行操作期间,每个本地控制模块独立地控制相应的无人机以执行其飞行计划,而不需要从车队管理器模块进行控制。 车队管理器模块可操作以通过同时触发由多个UAV启动飞行计划来启动飞行操作。 此外,本地控制模块监视前端和后端以及通信通道,并且当信道丢失时,以安全模式操作UAV。
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6.发明申请CONTROLLING UNMANNED AERIAL VEHICLES AS A FLOCK TO SYNCHRONIZE FLIGHT IN AERIAL DISPLAYS 有权控制无人驾驶的航空器作为同步飞行器在航空展示中的作用公开(公告)号:US20140249693A1
公开(公告)日:2014-09-04
申请号:US13768823
申请日:2013-02-15
CPC分类号: B64C39/024 , B64C2201/024 , B64C2201/027 , B64C2201/128 , B64C2201/143 , B64C2201/146 , B64D47/02 , G05D1/0027 , G05D1/0808 , G05D1/102 , G05D1/104 , G08G5/0008 , G08G5/0013 , G08G5/0021 , G08G5/0034 , G08G5/0039 , G08G5/0069 , G08G5/04 , G08G5/045
摘要: A system for flock-based control of a plurality of unmanned aerial vehicles (UAVs). The system includes UAVs each including a processor executing a local control module and memory accessible by the processor for use by the local control module. The system includes a ground station system with a processor executing a fleet manager module and with memory storing a different flight plan for each of the UAVs. The flight plans are stored on the UAVs, and, during flight operations, each of the local control modules independently controls the corresponding UAV to execute its flight plan without ongoing control from the fleet manager module. The fleet manager module is operable to initiate flight operations by concurrently triggering initiation of the flight plans by the multiple UAVs. Further, the local control modules monitor front and back and communication channels and, when a channel is lost, operate the UAV in a safe mode.
摘要翻译: 一种用于多个无人机(UAV)的基于群控的系统。 该系统包括各自包括执行本地控制模块的处理器和由处理器访问以由本地控制模块使用的存储器的UAV。 该系统包括具有处理器执行车队管理器模块的地面站系统以及存储针对每个无人机的不同飞行计划的存储器。 飞行计划存储在无人机上,并且在飞行操作期间,每个本地控制模块独立地控制相应的无人机以执行其飞行计划,而不需要从车队管理器模块进行控制。 车队管理器模块可操作以通过同时触发由多个UAV启动飞行计划来启动飞行操作。 此外,本地控制模块监视前端和后端以及通信通道,并且当信道丢失时,以安全模式操作UAV。
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公开(公告)号:US11465050B2
公开(公告)日:2022-10-11
申请号:US16849278
申请日:2020-04-15
发明人: Michael P. Goslin , Elliott H. Baumbach , Tritia V. Medrano , Timothy M. Panec , Clifford Wong , Nathan D. Nocon , Jason A. Yeung
摘要: Techniques and systems for immersive interactions are provided. A first smart device available for interaction is identified by an interactivity system. A first physical game piece is detected by the interactivity system, and a first identifier of the first physical game piece is received, from the first physical game piece, via one or more wireless signals. A first set of predefined effects that can be performed using the first smart device is identified based on the first identifier. The first smart device is instructed to perform at least a first predefined effect of the first set of predefined effects.
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公开(公告)号:US11106053B2
公开(公告)日:2021-08-31
申请号:US16532243
申请日:2019-08-05
发明人: Clifford Wong , Nathan D. Nocon , Quinn Smithwick
IPC分类号: G02B30/54 , G06F1/16 , G02B30/56 , H04B1/3827
摘要: According to one implementation, an image generation system includes a rotor, a base including a motor for spinning the rotor about an axis of rotation, a display secured to the rotor, the display including a display surface, and a blur screen secured to the display. The blur screen has a vertical edge substantially parallel to the axis of rotation and includes a first light emission barrier, a second light emission barrier, and a horizontal gap having a width substantially perpendicular to the vertical edge separating the first light emission barrier from the second light emission barrier. The first light emission barrier and the second light emission barrier are configured to substantially prevent rotational blur of an image displayed by the display surface while the display and the blur screen are spun by the motor and the rotor.
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公开(公告)号:US11048099B2
公开(公告)日:2021-06-29
申请号:US16197198
申请日:2018-11-20
IPC分类号: H04N13/302 , G02B30/56 , H04N13/398 , H04N13/351 , G02B30/54
摘要: According to one implementation, a communication system includes a computing platform having one or more hardware processor(s) and a system memory storing a software code, as well as an image capture device, a transceiver, and a display including one or more display screen(s) controlled by the hardware processor(s). The communication system also includes a base including a motor coupled to a rotor for rotating the display. The hardware processor(s) is/are configured to execute the software code to receive audio-visual data including image data corresponding to a remote venue and render the image data on the display screen(s) while spinning the display to generate a floating image of the remote venue. The hardware processor(s) is/are further configured to execute the software code to, concurrently with spinning the display, obtain local image data of a local venue and transmit local audio-visual data including the local image data to the remote venue.
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公开(公告)号:US10921830B2
公开(公告)日:2021-02-16
申请号:US16392410
申请日:2019-04-23
发明人: Clifford Wong , Nathan D. Nocon
摘要: A stability controlled system includes a computing platform having a hardware processor, a memory storing a software code, a moveable component, and a tilt sensor. The hardware processor executes the software code to monitor the tilt sensor to determine whether the system is at a tilt with respect to a support surface for the system. When the tilt sensor is sensing the tilt with respect to the support surface: when the moveable component is off, the software code prevents the moveable component from turning on, and when the moveable component is on, the software code performs one of (a) turning off the moveable component, and (b) slowing down a regular rate of motion of the moveable component. When the tilt sensor is not sensing the tilt with respect to the support surface, the software code permits the moveable component to be turned on and have the regular rate of motion.
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