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51. 发明授权

US07489244B2 Networked RF tag for tracking baggage 有权
公开(公告)号：US07489244B2
公开(公告)日：2009-02-10
申请号：US11462844
申请日：2006-08-07
申请人： Jason August , Paul Waterhouse , John K. Stevens , Christopher W. Verge , Michael J. Vandenberg , Kenneth Truong
发明人： Jason August , Paul Waterhouse , John K. Stevens , Christopher W. Verge , Michael J. Vandenberg , Kenneth Truong
IPC分类号： G08B13/14
CPC分类号： A01K11/004 , A01K11/008 , A01K15/021 , G06Q20/203 , G07C9/00111
摘要： 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.

52. 发明授权

US07436304B1 Evidence tracking 失效
标题翻译：证据跟踪
公开(公告)号：US07436304B1
公开(公告)日：2008-10-14
申请号：US11456182
申请日：2006-07-07
申请人： Paul Waterhouse , John K Stevens , Jason August , Jessica L Olson
发明人： Paul Waterhouse , John K Stevens , Jason August , Jessica L Olson
IPC分类号： G08B13/14
CPC分类号： G06K17/00 , G06K2017/0051
摘要： A system uses a large loop antenna, connected with a transceiver operating below 1 MHz. The loop antenna is deployed from a spool to surround a crime scene, and may carry indicia communicating that it is a crime scene boundary. The system interrogates devices, including evidence bags and badged personnel, as they enter and leave the scene. The system can optionally log the time of salient events. A second loop antenna can log evidence bags as they enter a vehicle. The devices can be silenced by the transceiver and thus collisions can be reduced and avoided among responses from devices. The system performs “area reads” that would not be possible if higher RF frequencies were employed.
摘要翻译：系统使用大型环形天线，与低于1 MHz的收发器相连。环形天线从卷轴部署到围绕犯罪现场，并且可以携带指示它是犯罪现场边界的标记。系统在进入和离开现场时，对装置进行询问，包括证件袋和标识人员。系统可以选择记录突出事件的时间。第二个环形天线可以在进入车辆时记录证据袋。这些设备可以被收发器静音，从而可以减少和避免设备响应之间的冲突。如果采用较高的射频频率，系统将执行“区域读取”。

53. 发明申请

US20080186184A1 NETWORKED SECURITY TAGS FOR PORTABLE DEVICES 审中-公开
标题翻译：用于便携式设备的网络安全标签
公开(公告)号：US20080186184A1
公开(公告)日：2008-08-07
申请号：US11762739
申请日：2007-06-13
申请人： Jason August , John K. Stevens , Paul Waterhouse
发明人： Jason August , John K. Stevens , Paul Waterhouse
IPC分类号： G08B13/14
CPC分类号： G06F21/88
摘要： Briefly, according to an embodiment of the present invention, a networked security tag affixed to a portable computing device is operable to provide monitoring, tracking, and security for the portable computing device within a protected region. The security tag includes the following: an onboard security program, an omni-directional device antenna operable at a low radio frequency not exceeding one megahertz, a transceiver operatively connected to the device antenna, the transceiver operable to receive radio signals at the low radio frequency and generate data signals at the said low radio frequency, in response thereto. The security tag also includes a programmable microcontroller operatively coupled with the transceiver, the microcontroller configured for controlling operation of the security program and to cause the transceiver to emit a signal.
摘要翻译：简而言之，根据本发明的一个实施例，固定到便携式计算设备的联网的安全标签可操作地为受保护区域内的便携式计算设备提供监控，跟踪和安全性。安全标签包括以下内容：车载安全程序，可操作在不超过一兆赫兹的低射频的全向设备天线，可操作地连接到设备天线的收发器，该收发器可操作以在低射频频率处接收无线电信号并响应于此在所述低射频产生数据信号。安全标签还包括可操作地与收发器耦合的可编程微控制器，微控制器被配置为控制安全程序的操作并且使得收发器发出信号。

54. 发明授权

US07277014B1 Networked RF tag for tracking animals 有权
公开(公告)号：US07277014B1
公开(公告)日：2007-10-02
申请号：US11461443
申请日：2006-07-31
申请人： Paul Waterhouse , Christopher W. Verge , Michael J. Vandenberg , Kenneth Truong , John K. Stevens , Jason August
发明人： Paul Waterhouse , Christopher W. Verge , Michael J. Vandenberg , Kenneth Truong , John K. Stevens , Jason August
IPC分类号： G08B13/14
CPC分类号： A01K11/008 , A01K11/004 , A01K15/021 , G06K17/00 , G06K19/077 , G06K2017/0045 , G06Q10/08 , G06Q10/087 , G06Q20/203 , G06Q50/02 , G06Q50/30 , Y10T436/13
摘要： 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.

55. 发明申请

US20070152824A1 NETWORKED RF TAG FOR TRACKING ANIMALS 有权
公开(公告)号：US20070152824A1
公开(公告)日：2007-07-05
申请号：US11461443
申请日：2006-07-31
申请人： Paul Waterhouse , Christopher W. Verge , Michael J. Vandenberg , Kenneth Truong , John K. Stevens , Jason August
发明人： Paul Waterhouse , Christopher W. Verge , Michael J. Vandenberg , Kenneth Truong , John K. Stevens , Jason August
IPC分类号： G08B13/14 , G08B1/08 , G08B5/22
CPC分类号： A01K11/008 , A01K11/004 , A01K15/021 , G06K17/00 , G06K19/077 , G06K2017/0045 , G06Q10/08 , G06Q10/087 , G06Q20/203 , G06Q50/02 , G06Q50/30 , Y10T436/13
摘要： 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.

56. 发明授权

US07170413B1 Networked RF tag for tracking animals 有权
公开(公告)号：US07170413B1
公开(公告)日：2007-01-30
申请号：US11461421
申请日：2006-07-31
申请人： Paul Waterhouse , Christopher W. Verge , Michael J. Vandenberg , Kenneth Truong , John K. Stevens , Jason August
发明人： Paul Waterhouse , Christopher W. Verge , Michael J. Vandenberg , Kenneth Truong , John K. Stevens , Jason August
IPC分类号： G08B13/14
CPC分类号： A01K11/008 , A01K11/004 , A01K15/021 , G06K17/00 , G06K19/077 , G06K2017/0045 , G06Q10/08 , G06Q10/087 , G06Q20/203 , G06Q50/02 , G06Q50/30 , Y10T436/13
摘要： 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.

57. 发明授权

US06110339A Nanofabricated separation matrix for analysis of biopolymers and methods of making and using same 失效
标题翻译：用于生物聚合物分析的纳米分离基质及其制备和使用方法
公开(公告)号：US06110339A
公开(公告)日：2000-08-29
申请号：US973932
申请日：1997-12-16
申请人： Thomas D. Yager , Paul Waterhouse , Alexandre M. Izmailov , Bruno Maruzzo , John K. Stevens , Marina T. Larson
发明人： Thomas D. Yager , Paul Waterhouse , Alexandre M. Izmailov , Bruno Maruzzo , John K. Stevens , Marina T. Larson
IPC分类号： G01N27/447
CPC分类号： G01N27/44704 , G01N27/44773 , G01N27/44791 , Y10T436/143333
摘要： Separation matrices useful in the formation of solid-state mm- to cm-scale devices for the rapid, high-resolution separation of single-stranded DNA ladder bands generated by the Sanger dideoxy- or Maxam/Gilbert chemical DNA sequencing procedures are formed from a solid support (1) having a plurality of posts (4) disposed on a first major surface thereof to form an obstacle course of posts (4) and pores (5). The posts are arranged in a regular X, Y array and are separated one from another by a distance of 100 nm or less, preferably 10 to 30 nm, and are optionally separated into lanes 2. The separation matrix can be manufactured by first forming a mold, preferably a reusable mold using lithography techniques. The mold is the reverse of the desired pattern of posts and pores of the obstacle course, and is used for casting the obstacle course. The cast obstacle course is then fused to a solid support and separated from the mold. Alternatively, the separation matrix can be formed from a polymer which undergoes specific and quantifiable swelling in the presence of a selected chemical compound. In this case, the matrix is cast on a mold in a conventional manner with a spacing between posts greater than the desired final spacing of 100 nm or less. For use, a buffer solution saturated with the specific chemical agent that controls swelling is added, causing the posts to swell to a defined amount to achieve the desired separation.
摘要翻译： PCT No.PCT / US96 / 09999 Sec。 371日期：1997年12月16日 102（e）日期1997年12月16日PCT提交1996年6月7日PCT公布。出版物WO96 / 42012 PCT 日期1996年12月27日用于形成固态mm至cm尺度装置的分离基质用于快速，高分辨率分离由Sanger双脱氧或Maxam / Gilbert化学DNA测序产生的单链DNA梯形带步骤由具有设置在其第一主表面上的多个柱（4）的固体支撑件（1）形成，以形成柱（4）和孔（5）的障碍物路线。柱以规则的X，Y阵列布置，并且彼此分离一个距离为100nm或更小，优选为10至30nm，并且任选地分离成通道2.分离基体可以通过首先形成模具，优选使用光刻技术的可重复使用的模具。模具与障碍物路线的柱和孔的期望图案相反，并且用于铸造障碍物路线。然后将铸造的障碍物道路融合到固体支撑物并与模具分离。或者，分离基质可以由在所选择的化合物存在下经历特异性和可定量溶胀的聚合物形成。在这种情况下，基体以常规方式在模具上铸造，柱之间的间距大于期望的最终间距为100nm或更小。为了使用，加入饱和了特定化学试剂的缓冲溶液以控制溶胀，导致柱膨胀至规定的量以达到所需的分离。

58. 发明授权

US08013741B2 Evidence tracking 有权
标题翻译：证据跟踪
公开(公告)号：US08013741B2
公开(公告)日：2011-09-06
申请号：US13004176
申请日：2011-01-11
申请人： Paul Waterhouse , John K. Stevens , Jason August , Jessica L. Olson
发明人： Paul Waterhouse , John K. Stevens , Jason August , Jessica L. Olson
IPC分类号： G08B13/14
CPC分类号： G06K17/00 , G06K2017/0051
摘要： A system uses a large loop antenna, connected with a transceiver operating below 1 MHz. The loop antenna is deployed from a spool to surround a crime scene, and may carry indicia communicating that it is a crime scene boundary. The system interrogates devices, including evidence bags and badged personnel, as they enter and leave the scene. The system can optionally log the time of salient events. A second loop antenna can log evidence bags as they enter a vehicle. The devices can be silenced by the transceiver and thus collisions can be reduced and avoided among responses from devices. The system performs “area reads” that would not be possible if higher RF frequencies were employed.
摘要翻译：系统使用大型环形天线，与低于1 MHz的收发器相连。环形天线从卷轴部署到围绕犯罪现场，并且可以携带指示它是犯罪现场边界的标记。系统在进入和离开现场时，对装置进行询问，包括证件袋和标识人员。系统可以选择记录突出事件的时间。第二个环形天线可以在进入车辆时记录证据袋。这些设备可以被收发器静音，从而可以减少和避免设备响应之间的冲突。如果采用较高的射频频率，系统将执行“区域读取”。

59. 发明申请

US20110108321A1 Evidence Tracking 有权
标题翻译：证据跟踪
公开(公告)号：US20110108321A1
公开(公告)日：2011-05-12
申请号：US13004176
申请日：2011-01-11
申请人： Paul Waterhouse , John K. Stevens , Jason August , Jessica L. Olson
发明人： Paul Waterhouse , John K. Stevens , Jason August , Jessica L. Olson
IPC分类号： H02G3/00
CPC分类号： G06K17/00 , G06K2017/0051
摘要： A system uses a large loop antenna, connected with a transceiver operating below 1 MHz. The loop antenna is deployed from a spool to surround a crime scene, and may carry indicia communicating that it is a crime scene boundary. The system interrogates devices, including evidence bags and badged personnel, as they enter and leave the scene. The system can optionally log the time of salient events. A second loop antenna can log evidence bags as they enter a vehicle. The devices can be silenced by the transceiver and thus collisions can be reduced and avoided among responses from devices. The system performs “area reads” that would not be possible if higher RF frequencies were employed.
摘要翻译：系统使用大型环形天线，与低于1 MHz的收发器相连。环形天线从卷轴部署到围绕犯罪现场，并且可以携带指示它是犯罪现场边界的标记。系统在进入和离开现场时，对装置进行询问，包括证件袋和标识人员。系统可以选择记录突出事件的时间。第二个环形天线可以在进入车辆时记录证据袋。这些设备可以被收发器静音，从而可以减少和避免设备响应之间的冲突。如果采用较高的射频频率，系统将执行“区域读取”。

60. 发明申请

US20110106296A1 Tote-Based Warehousing System and Method 审中-公开
标题翻译：手提式仓储系统和方法
公开(公告)号：US20110106296A1
公开(公告)日：2011-05-05
申请号：US12917277
申请日：2010-11-01
申请人： John K. Stevens , Paul Waterhouse , Michael J. Vandenberg
发明人： John K. Stevens , Paul Waterhouse , Michael J. Vandenberg
IPC分类号： G06F7/00 , G06K19/06
CPC分类号： B65G1/1378 , B65G1/1371 , B65G2201/0258 , B65G2201/0261 , B65G2203/046 , B65G2209/04
摘要： A warehousing system includes a container for storing at least one item, a first electronic (e.g,. radio frequency identification (RFID)) module associated with the first container, and a controller which wirelessly communicates with first electronic module, for directing a transfer of said at least one item to and/or from said first container. The inventive system may include, for example, a hybrid retail/warehouse system which includes a facility having a shelving area, and a picking area adjacent to the shelving area, and a layout so as to minimize a picking area and a walking distance between a picking area and a shelving area.
摘要翻译：仓储系统包括用于存储至少一个物品的容器，与第一容器相关联的第一电子（例如，射频识别（RFID））模块，以及与第一电子模块无线通信的控制器，用于引导所述至少一个物品到所述第一容器和/或来自所述第一容器。本发明的系统可以包括例如包括具有搁置区域的设施和与搁架区域相邻的拾取区域的混合零售/仓库系统，以及布局，以便使采摘区域和步骤之间的距离最小化采摘区域和搁置区域。

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