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    • 1. 发明申请
    • METHOD FOR TIMING MULTIPLE ENTITIES, TIMEKEEPING DEVICE AND TIMING APPLICATION
    • 定时多个实体的方法,定时设备和定时应用
    • WO2017108683A2
    • 2017-06-29
    • PCT/EP2016/081731
    • 2016-12-19
    • BLUE MEDIA LABS GMBH
    • BREMER, Jan-Marco
    • G07C1/24
    • G07C1/24G04F10/00
    • Method for simultaneously timing multiple entities uses a timekeeping device, wherein during timing each of the multiple entities runs through a process starting with a start time event in a start phase followed by at least one subsequent time event in a run phase. The method comprises the following steps. In the start phase, when a first start time event occurs, a first actuator is manually actuated and the manual actuation triggers the measuring and recording of a first start time by a time measuring means. In the run phase following the start phase, when a subsequent time event occurs, the first actuator is manually actuated and the manual actuation triggers the measuring and recording of a subsequent time by the time measuring means. The first actuator provides at least two different kinds of manual actuation during the start phase and the at least two different kinds of manual actuation trigger the time measuring and recording of multiple individual start times, such that an individual start time is recorded for each of the multiple entities. The first kind triggers a first procedure of measuring and recording an individual start time for at least one of the multiple entities and the second kind triggers a second procedure of measuring and recording an individual start time for exactly one of the multiple entities, wherein the first procedure is different from the second procedure.
    • 用于同时对多个实体进行计时的方法使用计时设备,其中,在计时期间,多个实体中的每一个在开始阶段中以开始时间事件开始的过程中运行,随后在至少一个后续时间事件中 运行阶段。 该方法包括以下步骤。 在起动阶段,当发生第一起动时间事件时,第一致动器被手动起动,并且手动起动通过时间测量装置触发测量和记录第一起动时间。 在起动阶段之后的运行阶段中,当发生随后的时间事件时,第一致动器被手动致动,并且手动致动由时间测量装置触发测量和记录随后的时间。 第一致动器在起动阶段期间提供至少两种不同类型的手动致动,并且至少两种不同类型的手动致动触发对多个单独起动时间的时间测量和记录,使得针对每个起动时间 多个实体。 第一类触发测量和记录多个实体中的至少一个的单独开始时间的第一过程,并且第二类触发测量和记录多个实体中的恰好一个的单独开始时间的第二过程,其中第一 程序与第二个程序不同。
    • 2. 发明申请
    • SPORTZEITMESSUNG
    • SPORT TIMING
    • WO2017025628A1
    • 2017-02-16
    • PCT/EP2016/069242
    • 2016-08-12
    • RACE RESULT AG
    • KLOHR, Nikias
    • G07C1/24G04F8/08
    • G07C1/24
    • Die vorliegende Erfindung betrifft einen Transponder (10) zur Sportzeitmessung, mit: einer Empfangseinheit (12) zum Empfangen mindestens einer Nachricht von einer Messstelle (22) beim Passieren der Messstelle, wobei die Nachricht einen Messstellen-Parameter enthält, der anzeigt, ob es sich bei der passierten Messstelle um eine indirekte Messstelle (22b, 22c, 22d, 22e) ohne Kommunikationsverbindung zu einer zentralen Informationssammelstelle oder um eine direkte Messstelle (22a) mit Kommunikationsverbindung zu der zentralen Informationssammelstelle handelt; einem Prozessor (14) zum Berechnen eines Passierzeitpunkts der Messstelle auf Basis der mindestens einen Nachricht; einem Zähler (16) zum Ermitteln einer Zeitdifferenz zwischen einem Passierzeitpunkt einer indirekten Messstelle und einem Passierzeitpunkt einer direkten Messstelle; und einer Sendeeinheit (18) zum Übertragen der ermittelten Zeitdifferenz an die direkte Messstelle beim Passieren der direkten Messstelle. Die vorliegende Erfindung betrifft weiterhin ein entsprechendes Verfahren sowie eine Messstelle und ein System (32) zur Sportzeitmessung.
    • 本发明涉及一种用于运动定时的应答器(10),包括:接收单元(12),用于从测量点接收的至少一个消息(22)使所述测量点,其中该消息包括一个测量点参数,指示它是否是当 当通过测量点的间接测量点(22B,22C,22D,22E)是到中央信息收集中心或直接测量点(22A)与一通信连接到中央信息收集没有通信链路; 用于计算Passierzeitpunkts基于该至少一个消息中的测量点的处理器(14); 用于确定Passierzeitpunkt间接测量点和一个Passierzeitpunkt直接测量部位之间的时间差的计数器(16); 以及发送单元(18),用于通过直接测量点时,在直接测量点发送所确定的时间差。 本发明还涉及一种用于运动定时的相应的方法和测量点和系统(32)。
    • 5. 发明申请
    • TIMING SYSTEM
    • 定时系统
    • WO2015117734A3
    • 2015-11-05
    • PCT/EP2015000156
    • 2015-01-28
    • SPEED SYSTEM AG
    • PAES WOLFGANG ALEXANDER
    • G04F10/00G07C1/22
    • G07C1/24G01V8/22G01V11/00G04F10/00G04F13/02G07C1/22
    • The invention relates to a timing system for measuring a runner's (2) running time between two presence points (3) of the runner's running path, comprising a measurement beam receiver (MSE (5)) and a measurement beam emitter (MSG (6)). The measurement beam (8) from these intersects said running path. When reception of the measurement beam is interrupted, presence signals are generated for the runner that are evaluated in the timer (8) in order to acquire and output the running time. In a running path with a turn-around between a start/finish line (SZL (10)) and a turn-around point (4.3), or a running path that is undulating to zig-zagged, the measurement beam receiver MSG (beam source 6.2, mirror 6.1) is situated at the ends of said running path. Presence signals are generated at the turn-around point (4.3) and/or at least one of the turning points (3) of said running path. In addition, the pairing of an additional measurement beam receiver [start/finish MSE (5.2)] and beam source (6.2), with a measurement beam perpendicularly intersecting the running path, can be arranged on the start/finish line (10) and is preferably integrated into a shared timer unit (9).
    • 对于存在的两个点之间测量的转子(2)的渡越时间的计时系统(3)其行程的具有Meßstrahlempfänger(MSE(5))和Meßstrahlgeber(MSG)(6)上。 测量光束(8)横穿路径通过中断产生的信号的转子的存在下Meßstrahlempfangs,这是在所述定时器(8),用于检测并输出所述运行时评估。 在一个开始/结束线(SSL(10))和一个反转点(4.3)之间的,折叠的或波浪形的MeßstrahlempfängerMSG的Z字形路径(束源6.2,反射镜6.1)位于运行路径的末端。 存在信号在路径的反转点(4.3)和/或至少一个拐点(3)处生成。 另外,[(5.2)开始/结束MSE],并在开始/结束线(10)一Q(6.2),另一Meßstrahlempfängers的配合在所述行进路径被设置为垂直巡航测量光束,优选集成在公共时间测量单元(9 )。
    • 6. 发明申请
    • SYSTEM AND METHOD OF AN EVENT TIMING SYSTEM HAVING INTEGRATED GEODETIC TIMING POINTS
    • 具有集成的地质时间点的事件定时系统的系统和方法
    • WO2014145728A2
    • 2014-09-18
    • PCT/US2014/030537
    • 2014-03-17
    • INNOVATIVE TIMING SYSTEMS, LLC
    • HANSEN, Kurt S.
    • G01C21/26
    • H04W4/02A61B5/1113A61B2503/10G06F19/00G06F19/3418G06F19/3481G06K2017/0045G07C1/24G16H20/00G16H20/30G16H40/63G16H40/67H04W4/027H04W4/80
    • A system and method for determining a route or waypoints along a route to be or being traveled by a participant, the system including a location device associated with the participant having a location data receiver for receiving location data from a location providing source, and a wireless communication interface, the location detection device receiving location information from the location providing source, time stamping each received location information, and transmitting location data associated with the location device over the wireless interface; a location detection device in at least periodic wireless communication with the location device for receiving the transmitted location data, and transmitting the received location data; and an event/timing system receiving the transmitted location data, and determining a route or waypoints along a route to be or being traveled by a participant that will be tracked.
    • 一种用于确定参与者正在或正在旅行的路线的路线或路点的系统和方法,所述系统包括与参与者相关联的位置设备,所述位置设备具有用于从提供源的位置接收位置数据的位置数据接收器,以及无线 通信接口,位置检测设备从位置提供源接收位置信息,时间戳每个接收到的位置信息,以及通过无线接口发送与位置设备相关联的位置数据; 位置检测装置,与所述位置装置进行至少周期性无线通信,用于接收所发送的位置数据,以及发送所接收的位置数据; 以及接收所发送的位置数据的事件/定时系统,以及沿着将被跟踪的参与者正在或正在行进的路线的路线或路点。
    • 9. 发明申请
    • RACE TIMING SYSTEM WITH VERTICALLY POSITIONED ANTENNAE
    • 具有垂直定位天线的定时系统
    • WO2013063432A1
    • 2013-05-02
    • PCT/US2012/062173
    • 2012-10-26
    • CHRONOTRACK SYSTEMS, CORP.HOWELL, Daniel, R.
    • HOWELL, Daniel, R.
    • A63F9/14
    • G07C1/24
    • An electronic timing system for timing of athletic events is provided. The timing system includes one or more vertically oriented radio-frequency identification reader assembly, a portable timing controller, a remote server, and a radio-frequency identification timing tag that is configured for attachment to an athlete. The vertically oriented radio-frequency identification reader includes an antenna assembly, a water- resistant radome surrounding said antenna assembly, and a tripod supporting said radome and antenna assembly. The portable timing controller includes input/output means for exchanging data with the radio-frequency identification antenna. The remote server also includes input/output means for exchanging data with the input/output means of the portable timing controller. The timing tag and antenna include means for wirelessly communicating data between one another.
    • 提供了用于运动事件定时的电子计时系统。 定时系统包括一个或多个垂直定向的射频识别读取器组件,便携式定时控制器,远程服务器和被配置为附接到运动员的射频识别定时标签。 垂直取向的射频识别读取器包括天线组件,围绕所述天线组件的防水天线罩和支撑所述天线罩和天线组件的三脚架。 便携式定时控制器包括用于与射频识别天线交换数据的输入/输出装置。 远程服务器还包括用于与便携式定时控制器的输入/输出装置交换数据的输入/输出装置。 定时标签和天线包括用于彼此之间无线地传送数据的装置。