公开(公告)号：US20120310390A1

公开(公告)日：2012-12-06

申请号：US13587581

申请日：2012-08-16

申请人： Michael Lin ,  Mitchell Heinrich ,  Jonathan Thomas ,  John Pelochino ,  Akbar Dhanaliwala ,  Brian Krieger ,  Felix Dashevsky ,  Jason McCarthy

发明人： Michael Lin ,  Mitchell Heinrich ,  Jonathan Thomas ,  John Pelochino ,  Akbar Dhanaliwala ,  Brian Krieger ,  Felix Dashevsky ,  Jason McCarthy

IPC分类号： G06F19/00

CPC分类号： A63B71/0605 ,  A63B69/004 ,  A63B69/02 ,  A63B69/32 ,  A63B2220/53 ,  A63B2220/56 ,  A63B2225/50 ,  A63B2225/54

摘要： A fight analysis system to objectively determine the quality and quantity of strikes in a fight. In one exemplary embodiment, one fighter wears a receiving module having a plurality of passive RFID tags at different locations that are read by a striking module (e.g., a knife) when the striking module lands on, or comes in proximity to, the receiving module, to provide the location of a strike. Force sensors in the striking module enable determination of the type and force of a landed strike. A graphical user interface module displays information gathered by the fight analysis system.

摘要翻译： 一个打击分析系统，客观地确定打仗的质量和数量。 在一个示例性实施例中，一个战斗机穿戴具有多个无源RFID标签的接收模块，所述多个无源RFID标签在不同位置处被所述打击模块（例如，刀）读取，当所述打击模块位于或接近所述接收模块 ，提供罢工的位置。 打击模块中的力传感器能够确定着陆罢工的类型和力。 图形用户界面模块显示战斗分析系统收集的信息。

公开(公告)号：US20110159939A1

公开(公告)日：2011-06-30

申请号：US12647148

申请日：2009-12-24

申请人： Michael Lin ,  Mitchell Heinrich ,  Jonathan Thomas ,  John Pelochino ,  Akbar Dhanaliwala ,  Brian Krieger ,  Felix Dashevsky ,  Jason McCarthy

发明人： Michael Lin ,  Mitchell Heinrich ,  Jonathan Thomas ,  John Pelochino ,  Akbar Dhanaliwala ,  Brian Krieger ,  Felix Dashevsky ,  Jason McCarthy

IPC分类号： A63F9/24

CPC分类号： A63B71/0605 ,  A63B69/004 ,  A63B69/02 ,  A63B69/32 ,  A63B2220/53 ,  A63B2220/56 ,  A63B2225/50 ,  A63B2225/54

摘要： A fight analysis system to objectively determine the quality and quantity of strikes in a fight. In one exemplary embodiment, one fighter wears a plurality of passive RFID tags at different locations that are read by a striking module (e.g., a knife) when the striking module lands on, or comes in proximity to, the fighter, to provide the location of a strike. Force sensors in the striking module enable determination of the type and force of a landed strike. In another exemplary embodiment, force sensors (e.g., pressure sensors used with fluid bladders) are used to determine both the location and the force associated with a landed strike. A graphical user interface module displays information gathered by the fight analysis system.

摘要翻译： 一个打击分析系统，客观地确定打仗的质量和数量。 在一个示例性实施例中，一个战斗机在打击模块落在或接近战斗机时由穿着模块（例如，刀）读取的不同位置处穿过多个无源RFID标签，以提供位置 的罢工 打击模块中的力传感器能够确定着陆罢工的类型和力。 在另一个示例性实施例中，力传感器（例如，与流体气囊一起使用的压力传感器）用于确定与着陆冲击相关联的位置和力。 图形用户界面模块显示战斗分析系统收集的信息。

公开(公告)号：US08485879B2

公开(公告)日：2013-07-16

申请号：US13587581

申请日：2012-08-16

申请人： Michael T. Lin ,  Mitchell Heinrich ,  Jonathan Thomas ,  John Pelochino ,  Akbar Dhanaliwala ,  Brian Krieger ,  Felix Dashevsky ,  Jason McCarthy

发明人： Michael T. Lin ,  Mitchell Heinrich ,  Jonathan Thomas ,  John Pelochino ,  Akbar Dhanaliwala ,  Brian Krieger ,  Felix Dashevsky ,  Jason McCarthy

IPC分类号： A63F9/24 ,  A63F13/00

CPC分类号： A63B71/0605 ,  A63B69/004 ,  A63B69/02 ,  A63B69/32 ,  A63B2220/53 ,  A63B2220/56 ,  A63B2225/50 ,  A63B2225/54

摘要： A fight analysis system to objectively determine the quality and quantity of strikes in a fight. In one exemplary embodiment, one fighter wears a receiving module having a plurality of passive RFID tags at different locations that are read by a striking module (e.g., a knife) when the striking module lands on, or comes in proximity to, the receiving module, to provide the location of a strike. Force sensors in the striking module enable determination of the type and force of a landed strike. A graphical user interface module displays information gathered by the fight analysis system.

摘要翻译： 一个打击分析系统，客观地确定打仗的质量和数量。 在一个示例性实施例中，一个战斗机穿戴具有多个无源RFID标签的接收模块，所述多个无源RFID标签在不同的位置被打击模块（例如，刀）读取，当打击模块位于或接近接收模块时 ，提供罢工的位置。 打击模块中的力传感器能够确定着陆罢工的类型和力。 图形用户界面模块显示战斗分析系统收集的信息。

公开(公告)号：US08711734B2

公开(公告)日：2014-04-29

申请号：US13162701

申请日：2011-06-17

申请人： Rajan Iyengar ,  Gabriel Bourque ,  Brian Evans ,  Jason McCarthy ,  James Terhune

发明人： Rajan Iyengar ,  Gabriel Bourque ,  Brian Evans ,  Jason McCarthy ,  James Terhune

IPC分类号： H04L12/16

CPC分类号： H04L65/1069 ,  H04L65/1006 ,  H04L65/80 ,  H04L69/40

摘要： The present invention provides a system and method for fail-safe call survival by detecting failure of an active call serving component and switching the service over to a standby component. The system and method will prevent an existing call, whether established or to be established, from being dropped due to a single point of failure within a Voice over Internet Protocol system. The continuation of the call is based on the failed component as opposed to relying on communication endpoints to re-initiate or re-route the failed call. Call recovery is initiated independent from the call path of a call. The detection of a condition or need for call recovery and the determination to initiate call recovery procedures are made without involving endpoints or intermediate points of the call. The availability and sanity of all components are continuously monitored and are tailored specifically for the duties of each component.

摘要翻译： 本发明通过检测主动呼叫服务组件的故障并将业务切换到备用组件来提供用于故障安全呼叫生存的系统和方法。 该系统和方法将阻止由于因特网协议系统中的单一故障点而导致的已建立或未建立的呼叫被丢弃。 呼叫的继续是基于故障组件，而不是依靠通信端点重新启动或重新路由失败的呼叫。 呼叫恢复与呼叫的呼叫路径无关。 在不涉及呼叫的端点或中间点的情况下进行呼叫恢复的状况或需要的检测以及发起呼叫恢复过程的确定。 所有组件的可用性和完整性都将不断监控，并针对每个组件的职责量身定做。

公开(公告)号：US08473042B2

公开(公告)日：2013-06-25

申请号：US12794346

申请日：2010-06-04

申请人： Jason McCarthy ,  David L. Perschbacher

发明人： Jason McCarthy ,  David L. Perschbacher

IPC分类号： A61B5/0464

CPC分类号： A61N1/3621 ,  A61B5/046

摘要： An apparatus comprises an implantable cardiac signal sensing circuit configured to produce a sensed cardiac signal representative of cardiac activity of a subject and a controller communicatively coupled to the cardiac signal sensing circuit. The controller includes a sensing module configured to detect a cardiac depolarization using the sensed cardiac signal and an arrhythmia detection module. The arrhythmia detection module is configured to detect a depolarization rate or interval that satisfies a first tachyarrhythmia detection rate zone threshold, adjust a specified detection duration threshold for the tachyarrhythmia detection zone according to the detected depolarization rate, declare that the detected depolarization rate is an episode of tachyarrhythmia when the detected depolarization rate is sustained for the adjusted detection duration threshold, and provide an indication of the tachyarrhythmia to a user or process.

摘要翻译： 一种装置包括可植入心脏信号感测电路，其被配置为产生代表受试者的心脏活动的感测心脏信号和通信地耦合到心脏信号感测电路的控制器。 控制器包括感测模块，其被配置为使用感测的心脏信号和心律失常检测模块来检测心脏去极化。 心律失常检测模块被配置为检测满足第一快速心律失常检测率区域阈值的去极化速率或间隔，根据检测到的去极化速率调整快速心律失常检测区域的指定检测持续时间阈值，声明检测到的去极化率是发作 当检测到的去极化速率维持在调整的检测持续时间阈值时，并且向使用者或过程提供快速性心律失常的指示，发生快速性心律失常。

公开(公告)号：US20110310773A1

公开(公告)日：2011-12-22

申请号：US13162701

申请日：2011-06-17

申请人： Rajan Iyengar ,  Gabriel Bourque ,  Brian Evans ,  Jason McCarthy ,  James Terhune

发明人： Rajan Iyengar ,  Gabriel Bourque ,  Brian Evans ,  Jason McCarthy ,  James Terhune

IPC分类号： H04L12/16

CPC分类号： H04L65/1069 ,  H04L65/1006 ,  H04L65/80 ,  H04L69/40

摘要： The present invention provides a system and method for fail-safe call survival by detecting failure of an active call serving component and switching the service over to a standby component. The system and method will prevent an existing call, whether established or to be established, from being dropped due to a single point of failure within a Voice over Internet Protocol system. The continuation of the call is based on the failed component as opposed to relying on communication endpoints to re-initiate or re-route the failed call. Call recovery is initiated independent from the call path of a call. The detection of a condition or need for call recovery and the determination to initiate call recovery procedures are made without involving endpoints or intermediate points of the call. The availability and sanity of all components are continuously monitored and are tailored specifically for the duties of each component.

摘要翻译： 本发明通过检测主动呼叫服务组件的故障并将业务切换到备用组件来提供用于故障安全呼叫生存的系统和方法。 该系统和方法将阻止由于因特网协议系统中的单一故障点而导致的已建立或将被建立的现有呼叫被丢弃。 呼叫的继续是基于故障组件，而不是依靠通信端点重新启动或重新路由失败的呼叫。 呼叫恢复与呼叫的呼叫路径无关。 在不涉及呼叫的端点或中间点的情况下进行呼叫恢复的状况或需要的检测以及发起呼叫恢复过程的确定。 所有组件的可用性和完整性都将不断监控，并针对每个组件的职责量身定做。

公开(公告)号：US20100317984A1

公开(公告)日：2010-12-16

申请号：US12794346

申请日：2010-06-04

申请人： Jason McCarthy ,  David L. Perschbacher

发明人： Jason McCarthy ,  David L. Perschbacher

IPC分类号： A61N1/365 ,  A61B5/0464

CPC分类号： A61N1/3621 ,  A61B5/046

摘要： An apparatus comprises an implantable cardiac signal sensing circuit configured to produce a sensed cardiac signal representative of cardiac activity of a subject and a controller communicatively coupled to the cardiac signal sensing circuit. The controller includes a sensing module configured to detect a cardiac depolarization using the sensed cardiac signal and an arrhythmia detection module. The arrhythmia detection module is configured to detect a depolarization rate or interval that satisfies a first tachyarrhythmia detection rate zone threshold, adjust a specified detection duration threshold for the tachyarrhythmia detection zone according to the detected depolarization rate, declare that the detected depolarization rate is an episode of tachyarrhythmia when the detected depolarization rate is sustained for the adjusted detection duration threshold, and provide an indication of the tachyarrhythmia to a user or process.

摘要翻译： 一种装置包括可植入心脏信号感测电路，其被配置为产生代表受试者的心脏活动的感测心脏信号和通信地耦合到心脏信号感测电路的控制器。 控制器包括感测模块，其被配置为使用感测的心脏信号和心律失常检测模块来检测心脏去极化。 心律失常检测模块被配置为检测满足第一快速心律失常检测率区域阈值的去极化速率或间隔，根据检测到的去极化速率调整快速心律失常检测区域的指定检测持续时间阈值，声明检测到的去极化率是发作 当检测到的去极化速率维持在调整的检测持续时间阈值时，并且向使用者或过程提供快速性心律失常的指示，发生快速性心律失常。