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    • 1. 发明专利
    • Data transmission control device, method, and, measurement system
    • 空值
    • JP5085220B2
    • 2012-11-28
    • JP2007194552
    • 2007-07-26
    • 株式会社ミツトヨ
    • 雄一 市川能貴 久慈
    • H04W4/04H04W28/06H04W52/02
    • Y02D70/00Y02D70/448Y02D70/449
    • PROBLEM TO BE SOLVED: To provide a measurement system capable of suppressing power consumption involved in transmitting measurement data. SOLUTION: When a slave transceiver 30 of the measurement system 1A determines that measurement data of a transmission candidate measured by a measuring instrument 10 does not coincide with measurement data of the last transmission finally transmitted to a computer 20 through a master transceiver 40, the slave transceiver 30 determines whether a measurement job 11 of the measuring instrument 10 is stationary when the measurement data of the transmission candidate is measured. When the measurement job is determined to be stationary, the measurement data of the transmission candidate is transmitted to the computer 20, and when determined to be not stationary, the measurement data is not transmitted. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供能够抑制发送测量数据所涉及的功耗的测量系统。 解决方案:当测量系统1A的从收发器30确定由测量仪器10测量的传输候选的测量数据与最终传送到计算机20的通过主收发器40的最后传输的测量数据不一致时 当测量发送候选的测量数据时,从收发器30确定测量仪器10的测量作业11是否静止。 当测量作业被确定为静止时,传输候选的测量数据被发送到计算机20,并且当被确定为不稳定时,不发送测量数据。 版权所有(C)2009,JPO&INPIT
    • 5. 发明专利
    • Specific low-power radio telemetry system
    • 空值
    • JP4719169B2
    • 2011-07-06
    • JP2007041231
    • 2007-02-21
    • エヌ・ティ・ティテレコン株式会社シャープ株式会社
    • 正守 中原哲一郎 大野洋 谷合貴久雄 遠藤
    • H04W24/08H04L29/00H04M11/00H04W4/04H04W52/02
    • Y02D70/00Y02D70/448Y02D70/449
    • PROBLEM TO BE SOLVED: To provide a highly reliable low-power radio telemeter system without shortening the battery life extremely by confirming the state of radio wave of a target radio channel and setting new radio channel adapted to the change in radio environment. SOLUTION: A master radio unit or a slave radio unit confirms a radio wave of a target radio channel at standby (S301). Although the radio wave of the set radio channel can confirm a radio wave by intermittent reception operation, when the data can not be correctly read by the reception operation in the radio channel (abnormality determination in S303), the number of frequency of occurrence of the situation is memorized (S312). The environmental resistance of the set channel is judged from the information memorized. When the state of radio communication goes wrong frequently (YES in S313), it is judged the environment resistance is not good (S314). COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:通过确认目标无线电信道的无线电波的状态并设置适应无线电环境变化的新的无线电信道,提供高可靠性的低功率无线电遥测仪系统,而不会缩短电池寿命。 解决方案:主无线电单元或从无线电单元在待机时确认目标无线电信道的无线电波(S301)。 虽然设定的无线电信道的无线电波可以通过间歇接收操作确认无线电波,但是当通过无线电信道中的接收操作(S303中的异常确定)无法正确读取数据时,发生频率的频率 情况被记忆(S312)。 根据记录的信息判断设定通道的环境阻力。 当无线电通信状态频繁出错(S313中为“是”)时,判断环境电阻不良(S314)。 版权所有(C)2008,JPO&INPIT
    • 6. 发明专利
    • Radio communications system
    • 空值
    • JP4655956B2
    • 2011-03-23
    • JP2006040688
    • 2006-02-17
    • 横河電機株式会社
    • 雅人 山路
    • H04M11/00
    • Y02D70/00Y02D70/448Y02D70/449
    • PROBLEM TO BE SOLVED: To accomplish a wireless communication system which improves responsiveness of the entire system even if a sensor node is operated while using a sleep mode. SOLUTION: The wireless communication system is provided with a sensor node which is driven by a battery and collects data by changing from a sleep mode to an active mode in a prescribed cycle; a base station for transmitting and receiving data to and from the sensor node by wireless communication; and a monitoring apparatus for transmitting and receiving data to and from the base station by wireless communication or wired communication. The base station is provided with a storage section for storing a command from the monitoring apparatus; and a proxy section which informs the monitoring apparatus of the command reception and transmits the command stored in the storage section to the sensor node in response to a request from the sensor node. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:即使在使用睡眠模式时操作传感器节点,也实现了提高整个系统的响应性的无线通信系统。 解决方案:无线通信系统设置有由电池驱动的传感器节点,并且以规定的周期从休眠模式改变为活动模式来收集数据; 用于通过无线通信向传感器节点发送数据和从传感器节点接收数据的基站; 以及用于通过无线通信或有线通信向基站发送数据和从基站接收数据的监视装置。 基站设置有用于存储来自监视装置的命令的存储部分; 以及代理部,其向监视装置通知命令接收,并响应于来自传感器节点的请求,将存储在存储部中的命令发送到传感器节点。 版权所有(C)2007,JPO&INPIT
    • 9. 发明专利
    • Monitoring system, monitoring device, and information processor
    • 监控系统,监控设备和信息处理器
    • JP2008289016A
    • 2008-11-27
    • JP2007133521
    • 2007-05-18
    • Seibu Gas Co Ltd西部瓦斯株式会社
    • TOYODA YASUHIROMIZOTA TETSUKO
    • H04B7/24F17D5/02H04B7/26H04M11/00
    • Y02D70/00Y02D70/448Y02D70/449
    • PROBLEM TO BE SOLVED: To provide a monitoring device with comparatively small power consumption, to provide a monitoring device with small power consumption usable in a comparatively wide range, to provide an information processor capable of easily monitoring a fluid path or fluid in the fluid path and to provide a monitoring system having the monitoring device and the information processor, etc. SOLUTION: A portable monitoring device 1 has: a radio communication part 12 which performs radio communication with the information processor 2 within communication range or the information processor 2 via another monitoring device within the communication range; a sensor part 11 which acquires data regarding the fluid path 7 or the fluid 71; and a control part 19 which transmits a signal according to a detection result by the sensor part 11 to the information processor 2 via the radio communication part 12 at specified timing, wherein the information processor 2 has: a radio communication part which performs radio communication with the monitoring device 1; and a control part which performs monitoring processing regarding the fluid path 7 or the fluid 71 based on the signal received via the radio communication part. COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了提供具有相对较小功耗的监视装置,以提供具有在较宽范围内可用的小功率消耗的监视装置,以提供能够容易地监视流体路径或流体的信息处理器 流体路径,并提供具有监视装置和信息处理器等的监视系统。解决方案:便携式监视设备1具有:无线电通信部分12,其在通信范围内执行与信息处理器2的无线电通信, 信息处理器2经由通信范围内的另一监视装置; 获取关于流体路径7或流体71的数据的传感器部11; 以及控制部分19,其在指定的定时经由无线电通信部分12将根据传感器部分11的检测结果的信号发送到信息处理器2,其中信息处理器2具有:无线电通信部分,其执行与 监视装置1; 以及控制部,其基于经由无线通信部接收的信号,执行关于流体路径7或流体71的监视处理。 版权所有(C)2009,JPO&INPIT
    • 10. 发明专利
    • Wireless data communication system
    • 无线数据通信系统
    • JP2008061088A
    • 2008-03-13
    • JP2006237648
    • 2006-09-01
    • Sharp Corpシャープ株式会社
    • UHARA HIROTO
    • H04B7/24H04B7/26H04M11/00
    • Y02D70/00Y02D70/448Y02D70/449
    • PROBLEM TO BE SOLVED: To reduce the power consumption of a battery not only in a standby mode for calling, but also during wireless communications.
      SOLUTION: A wireless master device 4 and a wireless slave device 5 perform intermittent reception during wireless communications. A ringing signal from the wireless slave device 5 includes information regarding intermittent reception intervals. The wireless master device 4 transmits an answer signal to the wireless slave device 5 according to the intermittent reception intervals designated by the wireless slave device 5. The intermittent reception intervals are varied in time according to communication contents.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了降低电池的功耗,不仅在呼叫的待机模式下,而且在无线通信期间。 解决方案:无线主设备4和无线从设备5在无线通信期间执行间歇接收。 来自无线从设备5的振铃信号包括关于间歇接收间隔的信息。 无线主设备4根据由无线从设备5指定的间歇接收间隔向无线从设备5发送应答信号。间歇接收间隔根据通信内容在时间上变化。 版权所有(C)2008,JPO&INPIT