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1. 发明授权

US07822424B2 Method and system for rangefinding using RFID and virtual triangulation 有权
标题翻译：使用RFID和虚拟三角测量的测距方法和系统
公开(公告)号：US07822424B2
公开(公告)日：2010-10-26
申请号：US10806242
申请日：2004-03-24
申请人： Russ Markhovsky , Sergei Osipov , Evgenii Vityaev , Evgenii Mikhienko , Andrey Tiurlikov , Sergei Ivaniya , Stanislav Markhovsky
发明人： Russ Markhovsky , Sergei Osipov , Evgenii Vityaev , Evgenii Mikhienko , Andrey Tiurlikov , Sergei Ivaniya , Stanislav Markhovsky
IPC分类号： H04Q7/20
CPC分类号： G01S13/74 , G01S13/84 , G01S13/87
摘要： A wireless system (20) and method for determining the location of a fixed or mobile target (31, 32, 33 . . . ) configured to have a transponder (31, 64) on the target (31, 32, 33 . . . ), a transceiver (21, 44) monitoring the target location, communicating between the transponder (31, 64) and transceiver (21, 44), and a processor (40) for finding the target by virtual triangulation based on values of received position information. The processor (40) is configured to determine virtual triangulation based on successive values of the position information using at least three points (P1, P2 and P3) of the transponder (31) respective of the transceiver (21). The present invention discloses methods for finding with virtual triangulation by: (a) finding with virtual triangulation by generating position information in real-time, in the case of (i) stationary and moving target, and or (ii) in the case of the presence of obstacles; (b) finding with virtual triangulation relating to the average speed of the motion of operator; and or (c) finding with simplified virtual triangulation.
摘要翻译：一种用于确定固定或移动目标（31,32,33 ...）的位置的无线系统（20）和方法，其被配置为在所述目标（31,32,33 ...）上具有应答器（31,64）。），监视目标位置的收发器（21,44），应答器（31,64）和收发器（21,44）之间的通信以及用于通过基于接收位置的值的虚拟三角测量来寻找目标的处理器（40）信息。处理器（40）被配置为基于使用相应于收发器（21）的应答器（31）的至少三个点（P1，P2和P3），基于位置信息的连续值来确定虚拟三角测量。本发明公开了一种利用虚拟三角测量方法，通过以下方式进行虚拟三角测量：（a）在（i）静止和移动目标的情况下，通过实时产生位置信息来寻找虚拟三角测量，和（ii）在存在障碍物（b）用虚拟三角测量发现运营人的运动平均速度; 和（c）通过简化的虚拟三角测量发现。

2. 发明授权

US07787886B2 System and method for locating a target using RFID 有权
标题翻译：使用RFID定位目标的系统和方法
公开(公告)号：US07787886B2
公开(公告)日：2010-08-31
申请号：US10786144
申请日：2004-02-24
申请人： Russ Markhovsky , Sergei Osipov , Andrey Tiurlikov , Sergei Ivaniya , Stanislav Markhovsky , Evgenii Vityaev , Evgenii Mikhienko
发明人： Russ Markhovsky , Sergei Osipov , Andrey Tiurlikov , Sergei Ivaniya , Stanislav Markhovsky , Evgenii Vityaev , Evgenii Mikhienko
IPC分类号： H04Q7/20
CPC分类号： G01S5/0294 , G01S5/12
摘要： A wireless system and method for determining the location of a fixed or mobile target configured to have a transponder on the target, a transceiver monitoring the target location, communicating between the transponder and transceiver, and a processor for finding the target by virtual triangulation based on values of received position information. The processor is determines virtual triangulation based on successive values of the position information using at least three points P1, P2 and P3 of the transponder respective of the transceiver. The present invention discloses methods for finding with virtual triangulation by: (1) finding with virtual triangulation by generating position information in real-time, in the case of (i) stationary and moving target, and or (ii) in the case of the presence of obstacles; (2) finding with virtual triangulation relating to the average speed of the motion of operator; and or (3) finding with simplified virtual triangulation.
摘要翻译：一种用于确定被配置为在目标上具有应答器的固定或移动目标的位置的无线系统和方法，监视目标位置的收发器，应答器和收发器之间的通信以及用于通过虚拟三角测量来寻找目标的处理器，其基于收到的位置信息的值。处理器使用收发器的相应的应答器的至少三个点P1，P2和P3，基于位置信息的连续值来确定虚拟三角测量。本发明公开了一种利用虚拟三角测量方法，通过以下方式进行虚拟三角测量：（1）在（i）静止和移动目标的情况下，通过实时产生位置信息来寻找虚拟三角测量，和（ii）在存在障碍物（2）与运营商运动平均速度有关的虚拟三角测量结果; 和（3）用简化的虚拟三角测量发现。

3. 发明申请

US20050020279A1 Method and system for finding 有权
标题翻译：查找方法和系统
公开(公告)号：US20050020279A1
公开(公告)日：2005-01-27
申请号：US10786144
申请日：2004-02-24
申请人： Russ Markhovsky , Sergei Osipov , Andrey Tiurlikov , Sergei Ivaniya , Stanislav Markhovsky , Eyoenii Vityaev , Eyoenii Mikhienko
发明人： Russ Markhovsky , Sergei Osipov , Andrey Tiurlikov , Sergei Ivaniya , Stanislav Markhovsky , Eyoenii Vityaev , Eyoenii Mikhienko
IPC分类号： G01S5/02 , G01S5/12 , G01S19/09 , G01S19/46 , H04B7/00
CPC分类号： G01S5/0294 , G01S5/12
摘要： A wireless system and method for determining the location of a fixed or mobile target configured to have a transponder on the target, a transceiver monitoring the target location, communicating between the transponder and transceiver, and a processor for finding the target by virtual triangulation based on values of received position information. The processor is determines virtual triangulation based on successive values of the position information using at least three points P1, P2 and P3 of the transponder respective of the transceiver. The present invention discloses methods for finding with virtual triangulation by: (1) finding with virtual triangulation by generating position information in real-time, in the case of (i) stationary and moving target, and or (ii) in the case of the presence of obstacles; (2) finding with virtual triangulation relating to the average speed of the motion of operator; and or (3) finding with simplified virtual triangulation.
摘要翻译：一种用于确定被配置为在目标上具有应答器的固定或移动目标的位置的无线系统和方法，监视目标位置的收发器，应答器和收发器之间的通信以及用于通过虚拟三角测量来寻找目标的处理器，其基于收到的位置信息的值。处理器使用收发器的相应的应答器的至少三个点P1，P2和P3，基于位置信息的连续值来确定虚拟三角测量。本发明公开了一种利用虚拟三角测量方法，通过以下方式进行虚拟三角测量：（1）在（i）静止和移动目标的情况下，通过实时产生位置信息来寻找虚拟三角测量，和（ii）在存在障碍物（2）与运营商运动平均速度有关的虚拟三角测量结果; 和（3）用简化的虚拟三角测量发现。

4. 发明申请

US20060012476A1 Method and system for finding 有权
公开(公告)号：US20060012476A1
公开(公告)日：2006-01-19
申请号：US10806242
申请日：2004-03-24
申请人： Russ Markhovsky , Sergei Ospov , Evoenii Vityaev , Evoenii Mixhienku , Andrey Tiurlikov , Sergei Ivaniya , Stanislav Markhovsky
发明人： Russ Markhovsky , Sergei Ospov , Evoenii Vityaev , Evoenii Mixhienku , Andrey Tiurlikov , Sergei Ivaniya , Stanislav Markhovsky
IPC分类号： G08B1/08
CPC分类号： G01S13/74 , G01S13/84 , G01S13/87
摘要： A wireless system and method for determining the location of a fixed or mobile subject or object includes a transponder disposed on the target, a transceiver for monitoring the location of the target, a wireless communication system operating on at least one Radio Frequency (RF) band configured to allow communication between the transponder and the transceiver, and a processor configured to find the target by virtual triangulation based on values of position information received from the transponder and the transceiver. The processor is configured to determine virtual triangulation based on successive values of the position information using at least three points P1, P2 and P3 of the transponder respective of the transceiver. The processor can include a means for position ambiguity reduction (PAR) configured to find the target by correcting the direction to the location of the target T based on the values of the position information. The processor can also determine the position of the target based on the average speed of the motion of the user of the transponder respective of the transceiver. Furthermore, the processor can determine virtual triangulation based on successive values of the position information from user input on the transceiver. The method finding the target T (“finder” techniques) based on one or more position determination principles including determining the position of the target using virtual triangulation between the master or monitoring unit and at least one target T, whereby the monitoring device Ms measures the distance between it and the slave unit and, alternatively, in addition to measuring the distance between itself and the slave unit, between itself and another monitoring unit, or the monitoring device Ms measures the distance between its own successive locations. The present invention also discloses methods for finding with virtual triangulation by: (1) finding with virtual triangulation by generating position information in real-time, in the case of (i) stationary and moving target, and or (ii) in the case of the presence of obstacles; (2) finding with virtual triangulation relating to the average speed of the motion of operator; and or (3) finding with simplified virtual triangulation, whereby the user-device interaction is minimized—eliminating the need for monitoring device Ms to measure the distance between its own successive locations as well as the user's signaling to the monitoring or master unit when in motion or during stops.

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