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公开(公告)号:US20220373640A1
公开(公告)日:2022-11-24
申请号:US17883438
申请日:2022-08-08
申请人: Isolynx, LLC
IPC分类号: G01S5/02
摘要: A speed-based projection filtering method includes generating, based on a sequence of raw location points that indicate locations of a tracking tag attached to a tracked object, a sequence of averaged location points. Based on at least two most-recent averaged location points of the sequence, a latest speed and direction of the tracked object are determined. Based on the latest speed and direction, one or more projected location points are determined when the latest speed of the tracked object is greater than a high-speed threshold and raw location points are missing after the sequence of raw location points. The projected location points are then outputted.
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公开(公告)号:US20210260464A1
公开(公告)日:2021-08-26
申请号:US17207626
申请日:2021-03-20
申请人: Isolynx, LLC
发明人: Douglas J. DeAngelis , Edward G. Evansen , Gerard M. Reilly , Brian D. Rhodes , Joseph M. Gaudreau , Kirk M. Sigel , Alexander T. Farkas
摘要: A method for dynamically configuring a receiver of an object tracking system includes detecting an environmental or situation change with the tracking system, and transmitting, in response to the detected change, a signal to the receiver to switch from a first analog front end to a second analog front. The analog front ends may have antennas with different gain, or antennas with the same gain but different filters. The environmental change may be detected based on events per second received from the receiver. The situational change may be detected by determining a bounding region encompassing tracking-tag locations and identifying an optimum analog front end from a plurality of analog front ends of the receiver. A signal is then transmitted to the receiver to switch to the optimum analog front end. The optimum analog front end is the one analog front end having the greatest coverage of the bounding area.
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公开(公告)号:US10441867B2
公开(公告)日:2019-10-15
申请号:US15814667
申请日:2017-11-16
申请人: Isolynx, LLC
发明人: Douglas J. DeAngelis , Edward G. Evansen , Gerard M. Reilly , Brian D. Rhodes , Joseph M. Gaudreau , Kirk M. Sigel , Alexander T. Farkas
摘要: Systems, methods and software products optimize installation and operation of an object tracking system. Performance of the athlete tracking system is continually monitored and optimized based upon one or more of: statically positioned tags, grouping tags within two or more tag sets to assign ping rates, selecting receiver configuration and aim dynamically based upon environmental and situational conditions. Tracking tags are improved to facilitate coupling of the tag to an athlete and may be self-configurable. A trackable protection pad allows a tracking tag to be positioned substantially horizontal when the athlete is competing. A data replay tool replays location tracking information in chronological order and visually plots location of tracking tags and errors in the determined location. A tag manager automatically configures the tracking tags. A robotic vehicle automated installation of the object tracking system.
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公开(公告)号:US10071282B2
公开(公告)日:2018-09-11
申请号:US15789880
申请日:2017-10-20
申请人: Isolynx, LLC
IPC分类号: A63B24/00 , A61B5/145 , A61B5/08 , A63B71/06 , A61B5/024 , G06T7/20 , G06K9/00 , G06Q50/28 , G06Q10/08 , A63B102/22 , G01S13/75 , G01S13/72
CPC分类号: A63B24/0021 , A61B5/02438 , A61B5/0816 , A61B5/14542 , A61B2503/10 , A63B24/0062 , A63B71/0619 , A63B71/0622 , A63B2024/0025 , A63B2024/0028 , A63B2071/0625 , A63B2102/22 , A63B2220/14 , A63B2220/836 , A63B2225/15 , A63B2225/20 , A63B2243/0037 , G01S13/726 , G01S13/751 , G06K9/00751 , G06Q10/0833 , G06Q50/28 , G06T7/20 , G06T2207/10016 , G06T2207/30221
摘要: Systems and methods track a first object when continuous tracking information for the first object is not available. The systems and methods detect when the tracking information for the first object is not available. A last time of a last determined location of the first object is determined and a second object closest to the last determined location at the last time is determined. The location of the first object is associated with a location of the second object if tracking information for the first object is not available.
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公开(公告)号:US09950238B2
公开(公告)日:2018-04-24
申请号:US14960026
申请日:2015-12-04
申请人: Isolynx, LLC
发明人: Douglas J. DeAngelis , Edward G. Evansen , Gerard M. Reilly , Brian D. Rhodes , Joseph M. Gaudreau , Kirk M. Sigel , Alexander T. Farkas
CPC分类号: A63B71/0619 , G06K7/10366 , H04W4/023 , H04W4/027 , H04W4/029 , H04W4/08 , H04W4/80
摘要: Systems, methods and software products optimize installation and operation of an object tracking system. Performance of the athlete tracking system is continually monitored and optimized based upon one or more of: statically positioned tags, grouping tags within two or more tag sets to assign ping rates, selecting receiver configuration and aim dynamically based upon environmental and situational conditions. Tracking tags are improved to facilitate coupling of the tag to an athlete and may be self-configurable. A trackable protection pad allows a tracking tag to be positioned substantially horizontal when the athlete is competing. A data replay tool replays location tracking information in chronological order and visually plots location of tracking tags and errors in the determined location. A tag manager automatically configures the tracking tags. A robotic vehicle automated installation of the object tracking system.
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公开(公告)号:US11813512B2
公开(公告)日:2023-11-14
申请号:US17740214
申请日:2022-05-09
申请人: Isolynx, LLC
发明人: Douglas J. DeAngelis , Edward G. Evansen , Gerard M. Reilly , Brian D. Rhodes , Joseph M. Gaudreau , Kirk M. Sigel , Alexander T. Farkas
CPC分类号: A63B71/0619 , G06K7/10366 , H04W4/023 , H04W4/027 , H04W4/029 , H04W4/08 , H04W4/80
摘要: A method optimizes an object tracking system that uses receivers to receive beacon signals, or pings, from tracking tags that are attached to objects. An optimizer receives locations of the tracking tags and groups identifiers of the tracking tags into two or more sets. The first set identifies tracking tags that are attached to objects involved in a situation of interest. The optimizer determines a first receiver group based on the locations of tracking tags in the first set and the locations of the receivers. The optimizer determines a center of a smallest three-dimensional polygon bounding the locations of tracking tags in the first set. An antenna of each receiver in the first receiver group is then steered to point towards the center of the polygon while a number of receiver events per second generated by the receiver for tracking tags in the first set increases.
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公开(公告)号:US10413802B2
公开(公告)日:2019-09-17
申请号:US15814649
申请日:2017-11-16
申请人: Isolynx, LLC
发明人: Douglas J. DeAngelis , Edward G. Evansen , Gerard M. Reilly , Brian D. Rhodes , Joseph M. Gaudreau , Kirk M. Sigel , Alexander T. Farkas
摘要: Systems, methods and software products optimize installation and operation of an object tracking system. Performance of the athlete tracking system is continually monitored and optimized based upon one or more of: statically positioned tags, grouping tags within two or more tag sets to assign ping rates, selecting receiver configuration and aim dynamically based upon environmental and situational conditions. Tracking tags are improved to facilitate coupling of the tag to an athlete and may be self-configurable. A trackable protection pad allows a tracking tag to be positioned substantially horizontal when the athlete is competing. A data replay tool replays location tracking information in chronological order and visually plots location of tracking tags and errors in the determined location. A tag manager automatically configures the tracking tags. A robotic vehicle automated installation of the object tracking system.
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8.发明申请公开(公告)号:US20180247421A1
公开(公告)日:2018-08-30
申请号:US15907003
申请日:2018-02-27
申请人: Isolynx, LLC
摘要: A method for using tracking tags to control mobile cameras to determine and capture desired perspective views of objects of interest (OOIs), includes locating each OOI and determining an orientation of each OOI. A second location of each mobile camera is determined with an orientation of each mobile camera; the method includes controlling, based upon the first and second location, and the orientations, the mobile camera to maintain desired perspective views of the OOIs despite movement of the OOIs. The method executes on a system for controlling a mobile camera including tracking tags configured with each OOI and tracking tags configured with the mobile cameras. A tracking apparatus having at least three receivers positioned around an operational area receives locate signals from the tracking tags to determining location data and a processor determines movement plans for the mobile cameras.
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公开(公告)号:US20180093159A1
公开(公告)日:2018-04-05
申请号:US15814656
申请日:2017-11-16
申请人: Isolynx, LLC
发明人: Douglas J. DeAngelis , Edward G. Evansen , Gerard M. Reilly , Brian D. Rhodes , Joseph M. Gaudreau , Kirk M. Sigel , Alexander T. Farkas
CPC分类号: A63B71/0619 , G06K7/10366 , H04W4/023 , H04W4/027 , H04W4/029 , H04W4/08 , H04W4/80
摘要: Systems, methods and software products optimize installation and operation of an object tracking system. Performance of the athlete tracking system is continually monitored and optimized based upon one or more of: statically positioned tags, grouping tags within two or more tag sets to assign ping rates, selecting receiver configuration and aim dynamically based upon environmental and situational conditions. Tracking tags are improved to facilitate coupling of the tag to an athlete and may be self-configurable. A trackable protection pad allows a tracking tag to be positioned substantially horizontal when the athlete is competing. A data replay tool replays location tracking information in chronological order and visually plots location of tracking tags and errors in the determined location. A tag manager automatically configures the tracking tags. A robotic vehicle automated installation of the object tracking system.
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公开(公告)号:US20160158625A1
公开(公告)日:2016-06-09
申请号:US14960026
申请日:2015-12-04
申请人: Isolynx, LLC
发明人: Douglas J. DeAngelis , Edward G. Evansen , Gerard M. Reilly , Brian D. Rhodes , Joseph M. Gaudreau , Kirk M. Sigel , Alexander T. Farkas
CPC分类号: A63B71/0619 , G06K7/10366 , H04W4/023 , H04W4/027 , H04W4/029 , H04W4/08 , H04W4/80
摘要: Systems, methods and software products optimize installation and operation of an object tracking system. Performance of the athlete tracking system is continually monitored and optimized based upon one or more of: statically positioned tags, grouping tags within two or more tag sets to assign ping rates, selecting receiver configuration and aim dynamically based upon environmental and situational conditions. Tracking tags are improved to facilitate coupling of the tag to an athlete and may be self-configurable. A trackable protection pad allows a tracking tag to be positioned substantially horizontal when the athlete is competing. A data replay tool replays location tracking information in chronological order and visually plots location of tracking tags and errors in the determined location. A tag manager automatically configures the tracking tags. A robotic vehicle automated installation of the object tracking system.
摘要翻译: 系统,方法和软件产品优化对象跟踪系统的安装和操作。 运动员跟踪系统的性能基于以下一个或多个:静态定位的标签,在两个或更多个标签集内的分组标签以分配ping率,基于环境和情境条件动态地选择接收机配置和目标而被不断地监测和优化。 改进跟踪标签以促进标签与运动员的耦合,并且可以是自配置的。 可跟踪保护垫允许跟踪标签在运动员竞争时基本上水平地定位。 数据重播工具按照时间顺序重放位置跟踪信息,并在确定的位置上可视地绘制跟踪标签的位置和错误。 标签管理器自动配置跟踪标签。 机器人车辆自动安装对象跟踪系统。
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