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    • 1. 发明申请
    • Ultra low frequency tag and system
    • 超低频标签和系统
    • US20070132555A1
    • 2007-06-14
    • US11353766
    • 2006-02-14
    • Jason AugustPaul WaterhouseJohn StevensMichael VandenbergKenneth Truong
    • Jason AugustPaul WaterhouseJohn StevensMichael VandenbergKenneth Truong
    • G08B13/14H04Q5/22
    • G06K19/07749
    • Active high frequency radio tags have two major disadvantages: First, since the power consumption of any solid state circuit is proportional to the operating speed, active LF,HF and UHF tags require large batteries with limited life (two to maximum five years) and as a result are bulky heavy devices; Second, they must use high speed semiconductor devices that have a major impact on the active tag costs as compared to other semiconductor processes that operate at lower frequencies. The present invention provides a method, system, and ultra low frequency (below 1 megahertz) tag for detection and tracking of animate and inanimate objects attached thereto, the aforesaid ULF tag comprising: a) a tag antenna (e.g. wound on a ferrite core) operable at a low radio frequency below 1 megahertz; b) a communication device operatively connected to the aforesaid tag antenna and operable to transmit data at the aforesaid low radio frequency; c) a clock device, such as a crystal with a natural frequency (with characteristic variations in phase or amplitude to enable discovery of tags within the field of a large loop antenna) operatively connected to the aforesaid communication device and operable to emit clock data to determine the aforesaid low radio frequency; and d) an energy storage device operable to activate the aforesaid communication device and the aforesaid clock device.
    • 有源高频无线电标签有两个主要缺点:首先,由于任何固态电路的功耗与工作速度成正比,有源LF,HF和UHF标签需要使用寿命有限(2年至5年)的大型电池, 结果是笨重的装置; 第二,与其他以较低频率工作的半导体工艺相比,它们必须使用对有源标签成本有重大影响的高速半导体器件。 本发明提供一种用于检测和跟踪附着于其上的动画和无生命物体的方法,系统和超低频(低于1兆赫)标签,所述ULF标签包括:a)标签天线(例如缠绕在铁氧体磁芯上) 可在低于1兆赫的低射频下工作; b)可操作地连接到所述标签天线并且可操作以在前述低射频发射数据的通信设备; c)时钟设备,例如具有固有频率(具有相位或幅度的特征变化以使得能够发现大环路天线的领域内的标签)的晶体,其可操作地连接到上述通信设备,并且可操作以发射时钟数据 确定上述低射频; 以及d)可操作以激活上述通信装置和上述时钟装置的能量存储装置。
    • 2. 发明申请
    • Internet package tracking system
    • 互联网包追踪系统
    • US20050251330A1
    • 2005-11-10
    • US10826222
    • 2004-04-17
    • Paul WaterhouseDavid CramerChristopher VergeMichael VandenbergKenneth TruongJohn StevensJason August
    • Paul WaterhouseDavid CramerChristopher VergeMichael VandenbergKenneth TruongJohn StevensJason August
    • G01S19/35G01C21/26G08G1/123
    • G08G1/202
    • The invention provides a real-time package tracking system for use by a package delivery service. The system includes a vehicle operable to deliver a package to a destination of a customer within a region, a positional location system (e.g. GPS) carried by the vehicle, the positional location system being operable to determine geographic positional coordinates for sequential locations of the vehicle along the route thereof toward said destination. The system also includes a wireless transmitter means (such as a cell phone link) carried by said vehicle, for transferring the aforesaid geographic positional coordinates to a central computer. The computer is operable to providing periodic updated calculations to periodically estimate corresponding estimated arrival time (ETA) data for the specific package to said destination and to supply the aforesaid estimated arrival time data to said customer. According to preferred embodiment, the customer can view a map with the ETA information and can make selections on line (e.g. new ETA, or complete cancellation of delivery). These choices are then used to recalculate the drivers route, and can be displayed for both the dispatcher and the driver as well.
    • 本发明提供了一种用于包装递送服务使用的实时包裹跟踪系统。 该系统包括可操作以将包裹递送到区域内的客户的目的地的车辆,由车辆携带的位置定位系统(例如,GPS),该位置定位系统可操作以确定车辆的顺序位置的地理位置坐标 沿其路线朝向所述目的地。 该系统还包括由所述车辆承载的用于将上述地理位置坐标传送到中央计算机的无线发射机装置(诸如蜂窝电话链路)。 计算机可操作以提供定期更新的计算,以周期性地估计针对所述目的地的特定包的相应估计到达时间(ETA)数据,并将上述估计到达时间数据提供给所述顾客。 根据优选实施例,客户可以查看具有ETA信息的地图,并且可以在线进行选择(例如,新的ETA或完全取消交货)。 然后,这些选项用于重新计算驱动程序路由,并且也可以为调度程序和驱动程序显示。
    • 4. 发明申请
    • Networked RF tag for tracking baggage
    • US20070152825A1
    • 2007-07-05
    • US11462844
    • 2006-08-07
    • Jason AugustPaul WaterhouseJohn StevensChristopher VergeMichael VandenbergKenneth Truong
    • Jason AugustPaul WaterhouseJohn StevensChristopher VergeMichael VandenbergKenneth Truong
    • G08B13/14G08B1/08
    • A01K11/004A01K11/008A01K15/021G06Q20/203G07C9/00111
    • The invention disclosed provides a method, system, and associated tag for detection and tracking of inanimate and animate objects. The novel method broadly comprises the steps of: a) attaching a low radio frequency detection tag to each of the objects, each tag comprising a tag antenna operable at a low radio frequency not exceeding 1 megahertz (preferably not exceeding 300 kilohertz), a transceiver operatively connected to the tag's antenna, the transceiver being operable to transmit and receive data signals at the low radio frequency, a data storage device operable to store data comprising identification data for identifying said detection tag, a programmed data processor operable to process data received from the transceiver and the data storage device and to send data to cause the transceiver to emit an identification signal based upon the identification data stored in said data storage device, and an energy source for activating the tag's transceiver and data processor; b) storing, in the data storage device of each tag, shipping data selected from object description data, address-of-origin data, destination address data, object vulnerability data, and object status data; c) commingling the objects in a repository selected from a warehouse and a truck, the repository being provided with at least one large loop field antenna operable at said low radio frequency; the field antenna being disposed at a distance from each object that permits effective communication therewith at the low radio frequency, d) reading the identification data and shipping data from the transceiver of each tag by interrogating all tags commingled in said repository with data signals, such as specific IP addresses or other identification codes, via said field antenna; and e) transmitting the identification data and shipping data from each tag to a central data processor to provide a tally of the objects in said repository.
    • 5. 发明申请
    • Networked RF tag for tracking freight
    • US20060128023A1
    • 2006-06-15
    • US11276216
    • 2006-02-17
    • Paul WaterhouseChristopher VergeMichael VandenbergKenneth TruongJohn StevensJason August
    • Paul WaterhouseChristopher VergeMichael VandenbergKenneth TruongJohn StevensJason August
    • G01N33/00
    • A01K11/008A01K11/004A01K15/021G06K17/00G06K19/077G06K2017/0045G06Q10/08G06Q10/087G06Q20/203G06Q50/02G06Q50/30Y10T436/13
    • The invention disclosed provides a method, system, and associated tag for detection and tracking of inanimate and animate objects. The novel method broadly comprises the steps of: a) attaching a low radio frequency detection tag to each of the objects, each tag comprising a tag antenna operable at a low radio frequency not exceeding 1 megahertz (preferably not exceeding 300 kilohertz), a transceiver operatively connected to the tag's antenna, the transceiver being operable to transmit and receive data signals at the low radio frequency, a data storage device operable to store data comprising identification data for identifying said detection tag, a programmed data processor operable to process data received from the transceiver and the data storage device and to send data to cause the transceiver to emit an identification signal based upon the identification data stored in said data storage device, and an energy source for activating the tag's transceiver and data processor; b) storing, in the data storage device of each tag, shipping data selected from object description data, address-of- origin data, destination address data, object vulnerability data, and object status data; c) commingling the objects in a repository selected from a warehouse and a truck, the repository being provided with at least one large loop field antenna operable at said low radio frequency; the field antenna being disposed at a distance from each object that permits effective communication therewith at the low radio frequency, d) reading the identification data and shipping data from the transceiver of each tag by interrogating all tags commingled in said repository with data signals, such as specific IP addresses or other identification codes, via said field antenna; and e) transmitting the identification data and shipping data from each tag to a central data processor to provide a tally of the objects in said repository.