| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 基于物联网的标枪比赛自动裁判平台及使用方法 | CN201710244021.1 | 2017-04-14 | CN106955480A | 2017-07-18 | 任可欣; 陶袁; 崔佳慧; 王美红; 张晓峰 |
| 本发明公开了一种基于物联网的标枪比赛自动裁判平台,所述标枪模块Ⅰ负责飞出标枪落地停止后,向服务器模块Ⅲ发送飞行的标枪落地信号,以及向场地模块Ⅱ发出落地的感应信号等;所述场地模块Ⅱ当飞行标枪停止在比赛场地后,负责向服务器模块Ⅲ发送标枪落地位置信号;所述服务器模块Ⅲ负责接收标枪模块Ⅰ和场地模块Ⅱ发送的信号,判断标枪头部是否正确插入到场地上、计算被投掷的标枪飞行距离、和所有选手投掷标枪比赛的排名;本发明可以实现自动正确判断飞行的标枪是否正确插入合法的场地范围内、及标枪飞行距离自动裁判,从而避免裁判必须到比赛场地而带来人身危险;对所有选手的比赛结果自动排名,提高比赛的效率。 | ||||||
| 2 | 使用移动装置的动作传感器对体育动作进行分析的方法和系统 | CN201280052085.7 | 2012-10-19 | CN104023799A | 2014-09-03 | 马克·杰弗里; 罗伯特·考默若斯-金; 马努基·拉娜 |
| 在此提供了一种使用移动装置(10)(如智能电话)的动作传感器分析体育动作的方法和系统(100)。本方法和系统(100)使用移动装置(10)动作传感器输出定义与一个虚拟对象(如高尔夫球、棒球或网球)的撞击点。针对特定于每种类型的体育动作的特性分析体育动作的动作传感器特征。在此披露了使用移动装置内的多个传感器输出计算与一个虚拟对象(如高尔夫球、棒球或网球)的撞击点的方法和系统。进一步地,在此披露了一种方法,其中移动的虚拟体育对象与虚拟体育动作交互并且在移动装置(10)和/或任何启用网络的显示装置上显示响应的输出。 | ||||||
| 3 | 使用移动装置的动作传感器对体育动作进行分析的方法和系统 | CN201280052085.7 | 2012-10-19 | CN104023799B | 2017-02-15 | 马克·杰弗里; 罗伯特·考默若斯-金; 马努基·拉娜 |
| 在此提供了一种使用移动装置(10)(如智能电话)的动作传感器分析体育动作的方法和系统作传感器输出定义与一个虚拟对象(如高尔夫球、棒球或网球)的撞击点。针对特定于每种类型的体育动作的特性分析体育动作的动作传感器特征。在此披露了使用移动装置内的多个传感器输出计算与一个虚拟对象(如高尔夫球、棒球或网球)的撞击点的方法和系统。进一步地,在此披露了一种方法,其中移动的虚拟体育对象与虚拟体育动作交互并且在移动装置(10)和/或任何启用网络的显示装置上显示响应的输出。(100)。本方法和系统(100)使用移动装置(10)动 | ||||||
| 4 | 运动行为的测量方法和测量装置 | CN200710195592.7 | 2007-12-07 | CN101195072A | 2008-06-11 | S·卡里科; T·皮拉因恩; M·尼斯卡恩 |
| 本发明的测量装置包括摄像器材,用于从至少两个方向对做运动的人进行成像,由此提供图像数据。为了代表运动的预定参数值,图像处理单元测量图像数据,以提供测量数据。图像处理单元与其它行为相关地显示该行为。 | ||||||
| 5 | モバイルデバイスの動作センサーを使用してスポーツ動作を分析する方法およびシステム | JP2014538849 | 2012-10-19 | JP2015504259A | 2015-02-05 | ジェフリー,マーク; コモラウス−キング,ロバート; ラナ,マノジ |
| スマートフォーン(10)などのモバイルデバイスの動作センサを使用したスポーツ動作を分析する方法およびシステム(100)を提供する。本方法およびシステム(100)は、仮想のゴルフボール、野球ボールまたはテニスボールなどの仮想物体との打点を定義するモバイルデバイス(10)動作センサアウトプットを使用する。スポーツ動作の動作センサシグネチャは、スポーツ動作の各タイプに特異な特徴を分析する。方法およびシステムは、仮想のゴルフボール、野球ボール、テニスボールなどの仮想物体との打点を計算するモバイルデバイスの複数のセンサアウトプットを用いて開示する。さらに、移動する仮想のスポーツ物体が仮想のスポーツ動作と相互作用し、かつ、応答するアウトプットがモバイルデバイス(10)および/またはウエブ対応ディスプレイデバイス上に表示される方法を開示する。【選択図】図2 | ||||||
| 6 | System and method for tracking grasp id of sports objects, movement, and the location | JP2007527284 | 2005-05-05 | JP5405743B2 | 2014-02-05 | ジョン エラリオ; リチャード エラリオ |
| A method and apparatus for tracking location and flight path attributes of one or more sports objects, associating the sports objects with individual players, mapping each sports object location and a flight path to surrounding field of play, and allowing each player to access the location and flight path attributes of their sports objects. The present invention outfits sports objects with electronic devices that receive and transmit position and location information obtained from the Global Positioning Satellite (GPS) System, without adversely affecting the sports object's ability to perform in a standard way. | ||||||
| 7 | Device and method for measuring distance and/or trajectory of flying body flying in athletics | JP2001099001 | 2001-03-30 | JP2001336917A | 2001-12-07 | VERGA ANTONIO |
| PROBLEM TO BE SOLVED: To accurately measure distance and/or trajectory of a flying body flying in athletics. SOLUTION: This device measures the distance and/or the trajectory of the flying body flying in the athletics, and commonly predetermined take off region 13 and different landing points 29A in landing plain 2A are provided for the flying body. The device comprises an image obtaining means 11 placed at a predetermined distance from the take off region 13 for obtaining an image of the landing plain 2A, and also comprises a recording means 16 for recording the images from starting to completing moment of flying, a means for identifying the landing point 29A of the flying body in the landing plain 2A, and an evaluating means 24 for evaluating the distance from the take off region 13 to the landing point. The distance of the flight of the flying body is measured after completion of the flight, and a result of the measurement is displayed on a display means. | ||||||
| 8 | Arcuate motion apparatus and method | US14640696 | 2015-03-06 | US09814928B2 | 2017-11-14 | Jon Taylor; Sanjeev Bedi |
| A training or exercise apparatus may have a base and an adjacent movable armature or frame that carries a riding member, or shuttle, or carrier. The carrier has an engagement interface with an element of sporting or exercise equipment. The sporting or exercise equipment is engaged by the user, typically by being grasped. The apparatus defines a physical or virtual schedule describing an arc for a swing in the particular activity. The apparatus may include a manual or electronic means of imposing resistance to the motion. This resistance may be adjustable, and may be programmable as a function of one or both of position and speed. The apparatus may include an array of sensors such as may be used to determine the pre-existing stroke, and such as may be monitored during training to assess progress. The apparatus may be operated passively, or it may be operated interactively in a manner in which real-time feedback causes the apparatus to adjust resistance to the motion. | ||||||
| 9 | SYSTEM, APPARATUS, AND METHOD FOR USING MOBILE SPORTING GOODS | US15484996 | 2017-04-11 | US20170216682A1 | 2017-08-03 | Michael J. Kline |
| Systems, apparatus, and methods for using mobile sporting goods. In one aspect, the system permits a sporting enthusiast to track the location of a mobile sporting good, such as a golf ball, relative to a target, such as a target on a driving range, and correlate that location to a simulated location on a simulated golf hole. | ||||||
| 10 | ARCUATE MOTION APPARATUS AND METHOD | US14640696 | 2015-03-06 | US20160243396A1 | 2016-08-25 | Jon TAYLOR; Sanjeev BEDI |
| A training or exercise apparatus may have a base and an adjacent movable armature or frame that carries a riding member, or shuttle, or carrier. The carrier has an engagement interface with an element of sporting or exercise equipment. The sporting or exercise equipment is engaged by the user, typically by being grasped. The apparatus defines a physical or virtual schedule describing an arc for a swing in the particular activity. The apparatus may include a manual or electronic means of imposing resistance to the motion. This resistance may be adjustable, and may be programmable as a function of one or both of position and speed. The apparatus may include an array of sensors such as may be used to determine the pre-existing stroke, and such as may be monitored during training to assess progress. The apparatus may be operated passively, or it may be operated interactively in a manner in which real-time feedback causes the apparatus to adjust resistance to the motion. | ||||||
| 11 | Method and system to analyze sports motions using motion sensors of a mobile device | US13655366 | 2012-10-18 | US09101812B2 | 2015-08-11 | Mark John Jeffery; Robert Sunshin Komorous-King; Manoj Rana |
| A method and system to analyze sports motions using the motion sensors of a mobile device, such as a smart phone, is provided. This method uses the mobile device motion sensor output to define the impact point with a virtual object, such as a golf ball, baseball or tennis ball. The motion sensor signature of the sports motion is analyzed for characteristics, specific to each type of sports motion. A method is disclosed using multiple sensors outputs in a mobile device to compute the impact point with a virtual object, such as a golf ball, baseball, tennis ball. Further, a method is disclosed where moving virtual sports objects interact with virtual sports motions and the responsive outputs are displayed on the mobile device and/or any Web-enabled display device. | ||||||
| 12 | System, Apparatus, And Method For Using Mobile Sporting Goods | US14031500 | 2013-09-19 | US20150080142A1 | 2015-03-19 | Michael J. Kline |
| Systems, apparatus, and methods for using mobile sporting goods. In one aspect, the system permits a sporting enthusiast to track the location of a mobile sporting good, such as a golf ball, relative to a target, such as a target on a driving range, and correlate that location to a simulated location on a simulated golf hole. | ||||||
| 13 | Hip rotation training system | US14027066 | 2013-09-13 | US08951136B1 | 2015-02-10 | Jeffrey Scott Booher |
| A hip rotation training system for assisting in training a wearer in proper hip rotation during a swinging movement of the wearer comprises a compression shorts configured to cover a lower portion of the wearer and at least one elastic resistance component having a plurality of elastic tubing. The compression shorts are adapted to furnish compressive support to the lower body portion of the wearer. The at least one elastic resistance component being adapted to deform during a first portion of a swinging movement of the wearer such that the at least one of the plurality of elastic tubing exerts a force partially upon a trailing hip of the wearer to assist in pulling the trailing hip forward during initiation of a second portion of the swinging movement of the wearer. | ||||||
| 14 | METHOD AND SYSTEM TO ANALYZE SPORTS MOTIONS USING MOTION SENSORS OF A MOBILE DEVICE | EP12844477 | 2012-10-19 | EP2771081A4 | 2015-05-20 | JEFFERY MARK; KOMOROUS-KING ROBERT; RANA MANOJ |
| A method and system to analyze sports motions using the motion sensors of a mobile device, such as a smart phone, is provided. This method uses the mobile device motion sensor output to define the impact point with a virtual object, such as a golf ball, baseball or tennis ball. The motion sensor signature of the sports motion is analyzed for characteristics, specific to each type of sports motion. A method is disclosed using multiple sensors outputs in a mobile device to compute the impact point with a virtual object, such as a golf ball, baseball, tennis ball. Further, a method is disclosed where moving virtual sports objects interact with virtual sports motions and the responsive outputs are displayed on the mobile device and/or any Web-enabled display device. | ||||||
| 15 | Mesuring system for sports events | EP00830375.2 | 2000-05-24 | EP1158270A1 | 2001-11-28 | Verga, Antonio, c/o Epson Italia S.p.A. |
A system for measuring the distance and trajectories travelled by bodies in flight during sports events such as athletics, said bodies executing trajectories having a common predetermined take-off area (13), and a landing point (29) variable within a landing surface (2A, 3A, 4A, 5A), said system comprising fixed means (11, 11A, 11B, 11C) for acquiring the image of the landing surface (2A, 3A, 4A, 5A) and positioned at a predetermined distance from the take-off area (13), means (16, 16A, 16B, 16C) for recording this image at least from the moment of initiation of the flight to its completion, means (39) for identifying the landing point (29A) of the body within the landing surface (2A, 3A, 4A, 5A), and means (24) for evaluating the distance of said landing point from the take-off area (13), which measure the distance travelled by the body in flight immediately after flight completion and display the result of said measurement on display means. |
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| 16 | Method and system to analyze sports motions using motion sensors of a mobile device | US14702575 | 2015-05-01 | US09895590B2 | 2018-02-20 | Mark John Jeffery; Robert Sunshin Komorous-King; Manoj Rana |
| A method and system to analyze sports motions using the motion sensors of a mobile device, such as a smart phone, is provided. This method uses the mobile device motion sensor output to define the impact point with a virtual object, such as a golf ball, baseball or tennis ball. The motion sensor signature of the sports motion is analyzed for characteristics, specific to each type of sports motion. A method is disclosed using multiple sensors outputs in a mobile device to compute the impact point with a virtual object, such as a golf ball, baseball, tennis ball. Further, a method is disclosed where moving virtual sports objects interact with virtual sports motions and the responsive outputs are displayed on the mobile device and/or any Web-enabled display device. | ||||||
| 17 | METHOD AND SYSTEM TO ANALYZE SPORTS MOTIONS USING MOTION SENSORS OF A MOBILE DEVICE | US14702575 | 2015-05-01 | US20150231477A1 | 2015-08-20 | Mark John Jeffery; Robert Sunshin Komorous-King; Manoj Rana |
| A method and system to analyze sports motions using the motion sensors of a mobile device, such as a smart phone, is provided. This method uses the mobile device motion sensor output to define the impact point with a virtual object, such as a golf ball, baseball or tennis ball. The motion sensor signature of the sports motion is analyzed for characteristics, specific to each type of sports motion. A method is disclosed using multiple sensors outputs in a mobile device to compute the impact point with a virtual object, such as a golf ball, baseball, tennis ball. Further, a method is disclosed where moving virtual sports objects interact with virtual sports motions and the responsive outputs are displayed on the mobile device and/or any Web-enabled display device. | ||||||
| 18 | ATHLETIC RANKING SYSTEM | US13004742 | 2011-01-11 | US20120179277A1 | 2012-07-12 | Anthony Lymberopoulos |
| An athletic performance testing system comprises a controlled athletic performance testing environment, a host server for receiving athletic performance test data obtained using the controlled environment, and a website for displaying the athletic performance test data. The website includes a web page for displaying the rankings of the athletic performance test data. A method of ranking athletic performance test data comprises obtaining information about an athlete; setting up a controlled athletic performance testing environment; recording the athletic performance of the athlete performing under the controlled athletic performance testing environment; inputting the athletic performance test results of the athlete into a host server; and displaying and/or causing the athletic performance test results to be displayed on a website that automatically ranks the athletic performance test results. | ||||||
| 19 | Exercise/stretching apparatus | US11826685 | 2007-07-17 | US20090023564A1 | 2009-01-22 | Christopher Charles Toal |
| Physical interaction apparatus which includes a wall and a floor presenting a surface of a hook or loop component of a hook and loop fastening system. Also provided is at least one interface that may include a glove, footwear and sports implements which includes an outer surface presenting the other hook or loop component of the hook and loop fastening system. Each interface can be selectively and releasably attachable by a person wearing such, to the surface of the wall and floor and allow the person to apply an action force countered by the wall or floor in a reactionary manner. | ||||||
| 20 | Device for measuring the velocity of a magnetically receptive object | US09746387 | 2000-12-21 | US06437559B1 | 2002-08-20 | Gerry W. Zajac; James M. Gallas; Richard Panosh |
| A device for measuring the speed of a golf club has a pair of coils spaced a given distance apart with each of the coils forming an oscillating electro-magnetic field which are positioned to interrupt the course of the head of a golf club. When a golf club head successively passes through the first and second oscillating magnetic fields, the natural frequency of the combined fields is altered. A detector circuit including a phase locked loop detects the change in frequency as the club successively pass through the two fields and the time elapsed is measured by a clock and recorded in the memory of a microprocessor which uses the information, along with the given distance between the fields to calculate the speed of the club. | ||||||
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