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    • 2. 发明授权
    • Multi-hazard alarm system using selectable power-level transmission and localization
    • 多功能报警系统采用可选功率级传输和定位
    • US08149112B2
    • 2012-04-03
    • US11493935
    • 2006-07-25
    • Dan SchlagerWilliam B. Baringer
    • Dan SchlagerWilliam B. Baringer
    • G08B1/08
    • H04W4/90A61N1/08B63C9/0005G08B13/1427G08B19/00G08B21/0211G08B21/0227G08B21/023G08B21/0255G08B21/028G08B21/0283G08B21/0286G08B21/0288G08B21/0294G08B21/088G08B25/016G08B25/10G08B26/007
    • A personal alarm system includes a monitoring base station and one or more remote sensing units in two-way radio communication. An electronic handshake between the base station and each remote unit is used to assure system reliability. The remote units transmit at selectable power levels. In the absence of an emergency, a remote unit transmits at a power-conserving low power level. Received field strength is measured to determine whether a remote unit has moved beyond a predetermined distance from the base station. If the distance is exceeded, the remote unit transmits at a higher power level. The remote unit includes sensors for common hazards including water emersion, smoke, excessive heat, excessive carbon monoxide concentration, and electrical shock. The base station periodically polls the remote units and displays the status of the environmental sensors. The system is useful in child monitoring, for use with invalids, and with employees involved in activities which expose them to environmental risk. Alternative embodiments include a panic button on the remote unit for summoning help, and an audible beacon on the remote unit which can be activated from the base station and useful for locating strayed children. In another embodiment, the remote unit includes a Global Positioning System receiver providing location information for display by the base station.
    • 个人报警系统包括监视基站和双向无线电通信中的一个或多个遥感单元。 使用基站和每个远程单元之间的电子握手来确保系统的可靠性。 远程单元以可选择的功率级发送。 在没有紧急情况的情况下,远程单元以节能低功率发射。 测量接收的场强以确定远程单元是否已经移动超出距离基站的预定距离。 如果超出该距离,则远程单元以较高的功率级发射。 远程单元包括用于常见危害的传感器,包括水浸,烟雾,过热,过量的一氧化碳浓度和电击。 基站周期性地轮询远程单元并显示环境传感器的状态。 该系统对儿童监测有用,用于无效,并且与参与暴露于环境风险的活动的员工有关。 替代实施例包括远程单元上的紧急按钮,用于召唤帮助,以及远程单元上的可听信标,其可以从基站激活并且有助于定位迷路儿童。 在另一个实施例中,远程单元包括提供用于由基站显示的位置信息的全球定位系统接收器。
    • 3. 发明申请
    • MULTI-HAZARD ALARM SYSTEM USING SELECTABLE POWER-LEVEL TRANSMISSION AND LOCALIZATION
    • 使用可选择的电力级传输和本地化的多危害报警系统
    • US20080311882A1
    • 2008-12-18
    • US12200110
    • 2008-08-28
    • Dan SchlagerWilliam B. Baringer
    • Dan SchlagerWilliam B. Baringer
    • H04M11/04
    • H04W4/90A61N1/08B63C9/0005G08B13/1427G08B19/00G08B21/0211G08B21/0227G08B21/023G08B21/0255G08B21/028G08B21/0283G08B21/0286G08B21/0288G08B21/0294G08B21/088G08B25/016G08B25/10G08B26/007
    • A personal alarm system includes a monitoring base station and one or more remote sensing units in two-way radio communication. An electronic handshake between the base station and each remote unit is used to assure system reliability. The remote units transmit at selectable power levels. In the absence of an emergency, a remote unit transmits at a power-conserving low power level. Received field strength is measured to determine whether a remote unit has moved beyond a predetermined distance from the base station. If the distance is exceeded, the remote unit transmits at a higher power level. The remote unit includes sensors for common hazards including water emersion, smoke, excessive heat, excessive carbon monoxide concentration, and electrical shock. The base station periodically polls the remote units and displays the status of the environmental sensors. The system is useful in child monitoring, for use with invalids, and with employees involved in activities which expose them to environmental risk. Alternative embodiments include a panic button on the remote unit for summoning help, and an audible beacon on the remote unit which can be activated from the base station and useful for locating strayed children. In another embodiment, the remote unit includes a Global Positioning System receiver providing location information for display by the base station.
    • 个人报警系统包括监视基站和双向无线电通信中的一个或多个遥感单元。 使用基站和每个远程单元之间的电子握手来确保系统的可靠性。 远程单元以可选择的功率级发送。 在没有紧急情况的情况下,远程单元以节能低功率发射。 测量接收的场强以确定远程单元是否已经移动超出距离基站的预定距离。 如果超出该距离,则远程单元以较高的功率级发射。 远程单元包括用于常见危害的传感器,包括水浸,烟雾,过热,过量的一氧化碳浓度和电击。 基站周期性地轮询远程单元并显示环境传感器的状态。 该系统对儿童监测有用,用于无效,并且与参与暴露于环境风险的活动的员工有关。 替代实施例包括远程单元上的紧急按钮,用于召唤帮助,以及远程单元上的可听信标,其可以从基站激活并且有助于定位迷路儿童。 在另一个实施例中,远程单元包括提供用于由基站显示的位置信息的全球定位系统接收器。
    • 6. 发明授权
    • Multi-hazard alarm system using selectable power-level transmission and
localization
    • 多功能报警系统采用可选功率级传输和定位
    • US5461365A
    • 1995-10-24
    • US330901
    • 1994-10-27
    • Dan SchlagerWilliam B. Baringer
    • Dan SchlagerWilliam B. Baringer
    • B63C9/00G01S19/09G01S19/35G08B13/14G08B19/00G08B21/02G08B25/10G08B26/00G08B21/00
    • G08B21/0211B63C9/0005G08B13/1427G08B19/00G08B21/0222G08B21/0227G08B21/023G08B21/0247G08B21/028G08B21/0283G08B21/0286G08B21/0288G08B21/0294G08B21/088G08B25/007G08B25/10G08B26/007
    • A personal alarm system includes a monitoring base station and one or more remote sensing units in two-way radio communication. An electronic handshake between the base station and each remote unit is used to assure system reliability. The remote units transmit at selectable power levels. In the absence of an emergency, a remote unit transmits at a power-conserving low power level. Received field strength is measured to determine whether a remote unit has moved beyond a predetermined distance from the base station. If the distance is exceeded, the remote unit transmits at a higher power level. The remote unit includes sensors for common hazards including water emersion, smoke, excessive heat, excessive carbon monoxide concentration, and electrical shock. The base station periodically polls the remote units and displays the status of the environmental sensors. The system is useful in child monitoring, for use with invalids, and with employees involved in activities which expose them to environmental risk. Alternative embodiments include a panic button on the remote unit for summoning help, and an audible beacon on the remote unit which can be activated from the base station and useful for locating strayed children. In another embodiment, the remote unit includes a Global Positioning System receiver providing location information for display by the base station.
    • 个人报警系统包括监视基站和双向无线电通信中的一个或多个遥感单元。 使用基站和每个远程单元之间的电子握手来确保系统的可靠性。 远程单元以可选择的功率级发送。 在没有紧急情况的情况下,远程单元以节能低功率发射。 测量接收的场强以确定远程单元是否已经移动超出距离基站的预定距离。 如果超出该距离,则远程单元以较高的功率级发射。 远程单元包括用于常见危害的传感器,包括水浸,烟雾,过热,过量的一氧化碳浓度和电击。 基站周期性地轮询远程单元并显示环境传感器的状态。 该系统对儿童监测有用,用于无效,并且与参与暴露于环境风险的活动的员工有关。 替代实施例包括远程单元上的紧急按钮,用于召唤帮助,以及远程单元上的可听信标,其可以从基站激活并且有助于定位迷路儿童。 在另一个实施例中,远程单元包括提供用于由基站显示的位置信息的全球定位系统接收器。
    • 9. 发明授权
    • Self-locating remote monitoring systems
    • 自定位远程监控系统
    • US5963130A
    • 1999-10-05
    • US849998
    • 1998-07-06
    • Dan SchlagerWilliam B. Baringer
    • Dan SchlagerWilliam B. Baringer
    • G01S19/35G08B21/04G08B25/01G08B21/00
    • G08B25/016G08B21/0453G08B21/088G08B25/003
    • A self-locating remote monitoring system (750) includes a supervising base station (754) and one or more remote monitoring units (752). A remote unit (752) includes a navigational receiver (756) operating with an existing navigational system for providing a remote unit location (759) and includes a transmitter (758) for communicating the location (759) to the base station (754) for display (772). The remote unit (752) includes one or more physiological/environmental sensors (760) for monitoring at the remote location. In a specific embodiment a change in sensor status (761) results in the status and the location being transmitted to the base station (754). The base station (754) includes alarms (776) and displays (772) responsive to the change in status. One embodiment defines a man-over-board system (300) which combines water immersion (308) and distance (334) from the base station (318) to trigger an alarm (332) and begin location tracking (324). Another embodiment defines an invisible fence system (1020) which uses location (1035) and time (1039) to define boundaries for containment and exclusion. Another embodiment includes a weather surveillance radar receiver (1188) providing weather parameters (1189) within a weather region (1193) and defines a remote weather alarm system (1180). The weather alarm system (1180) uses the weather receiver (1188) to monitor weather within a defined region (1193) and to provide the base station (1184) with location (1187) and weather parameters (1199) if the parameters fall outside defined limits (1195).
    • PCT No.PCT / US96 / 17473 Sec。 371日期:1998年7月6日 102(e)1998年7月6日PCT PCT 1996年10月28日PCT公布。 公开号WO97 / 26634 日期1997年7月24日自定位远程监控系统(750)包括监控基站(754)和一个或多个远程监控单元(752)。 远程单元(752)包括用现有导航系统操作以提供远程单元位置(759)的导航接收机(756),并且包括用于将位置(759)传送到基站(754)的发射机(758),用于 显示(772)。 远程单元(752)包括用于在远程位置监视的一个或多个生理/环境传感器(760)。 在具体实施例中,传感器状态(761)的改变导致状态和位置被发送到基站(754)。 基站(754)包括响应于状态改变的报警(776)和显示器(772)。 一个实施例定义了一种人机对话系统(300),其结合了来自基站(318)的水浸(308)和距离(334)以触发警报(332)并开始位置跟踪(324)。 另一实施例定义了使用位置(1035)和时间(1039)来定义用于容纳和排除的边界的不可见围栏系统(1020)。 另一个实施例包括在天气区域(1193)内提供天气参数(1189)的天气监视雷达接收器(1188)并且定义了远程天气报警系统(1180)。 天气报警系统(1180)使用天气接收器(1188)来监视限定区域内的天气(1193),并且如果参数落在规定的范围之外,则向基站(1184)提供位置(1187)和天气参数(1199) 限制(1195)。
    • 10. 发明授权
    • Self-locating remote monitoring systems
    • 自定位远程监控系统
    • US5650770A
    • 1997-07-22
    • US547026
    • 1995-10-23
    • Dan SchlagerWilliam B. Baringer
    • Dan SchlagerWilliam B. Baringer
    • G01C21/00A61B5/00B63C9/00G01S19/09G01S19/35G08B13/14G08B19/00G08B21/02G08B25/10G08B26/00G08G1/13
    • G08B21/0211B63C9/0005G08B13/1427G08B19/00G08B21/0222G08B21/0227G08B21/023G08B21/0247G08B21/028G08B21/0283G08B21/0286G08B21/0288G08B21/0294G08B21/088G08B25/10G08B26/007G08B25/007
    • A personal alarm system includes a monitoring base station and one or more remote sensing units in two-way radio communication. An electronic handshake between the base station and each remote unit is used to assure system reliability. The remote units transmit at selectable power levels. In the absence of an emergency, a remote unit transmits at a power-conserving low power level. Received field strength is measured to determine whether a remote unit has moved beyond a predetermined distance from the base station. If the distance is exceeded, the remote unit transmits at a higher power level. The remote unit includes sensors for common hazards including water immersion, smoke, excessive heat, excessive carbon monoxide concentration, and electrical shock. The base station periodically polls the remote units and displays the status of the environmental sensors. The system is useful in child monitoring, for use with invalids, and with employees involved in activities which expose them to environmental risk. Alternative embodiments include a panic button on the remote unit for summoning help, and an audible beacon on the remote unit which can be activated from the base station and useful for locating strayed children. In another embodiment, the remote unit includes a Global Positioning System receiver providing location information for display by the base station.
    • 个人报警系统包括监视基站和双向无线电通信中的一个或多个遥感单元。 使用基站和每个远程单元之间的电子握手来确保系统的可靠性。 远程单元以可选择的功率级发射。 在没有紧急情况的情况下,远程单元以节能低功率发射。 测量接收的场强以确定远程单元是否已经移动超出距离基站的预定距离。 如果超出该距离,则远程单元以较高的功率级发射。 远程单元包括用于常见危害的传感器,包括水浸,烟雾,过热,过量的一氧化碳浓度和电击。 基站周期性地轮询远程单元并显示环境传感器的状态。 该系统对儿童监测有用,用于无效,并且与参与暴露于环境风险的活动的员工有关。 替代实施例包括远程单元上的紧急按钮,用于召唤帮助,以及远程单元上的可听信标,其可以从基站激活并且有助于定位迷路儿童。 在另一个实施例中,远程单元包括提供用于由基站显示的位置信息的全球定位系统接收器。