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    • 1. 发明申请
    • SENSOR DRIVE CONTROL METHOD AND SENSOR-EQUIPPED RADIO TERMINAL DEVICE
    • 传感器驱动控制方法和传感器无线射频终端设备
    • US20100085202A1
    • 2010-04-08
    • US12633284
    • 2009-12-08
    • Yoshihiro WAKISAKAShunzo YAMASHITAToshiyuki ODAKANorio OHKUBO
    • Yoshihiro WAKISAKAShunzo YAMASHITAToshiyuki ODAKANorio OHKUBO
    • G08B21/00
    • G01D3/08Y10T307/74
    • A network system including: a first sensor device which includes a first sensor unit which detects an action of a detection object; and a first transmission unit which transmits first data regarding the action and first identification information to a server via a first base station: a second sensor device which includes; a second sensor unit which obtains sensing data; and a second transmission unit which transmits second data including the sensing data and second identification information to the server via a second base station; wherein the server is configured to: associate the first and second data based on the detection of the action; to access predetermined normal data correlating data; and, detect an abnormal condition if a combination of the action detected via the first sensor unit and the sensing data obtained by the second sensor unit conflict with the correlated normal data.
    • 一种网络系统,包括:第一传感器装置,其包括检测检测对象的动作的第一传感器单元; 以及第一传输单元,其经由第一基站向服务器发送关于所述动作的第一数据和所述第一识别信息;第二传感器装置, 获取感测数据的第二传感器单元; 以及第二传输单元,其经由第二基站向服务器发送包括感测数据和第二识别信息的第二数据; 其中所述服务器被配置为:基于所述动作的检测来关联所述第一和第二数据; 访问预定的正常数据相关数据; 并且如果通过第一传感器单元检测到的动作的组合和由第二传感器单元获得的感测数据的组合与相关的正常数据冲突,则检测异常状况。
    • 2. 发明授权
    • Group analysis system and group analysis equipment
    • 集团分析系统和组分析设备
    • US07656274B2
    • 2010-02-02
    • US12000141
    • 2007-12-10
    • Nobuo SatoNorio OhkuboNorihiko MoriwakiYoshihiro Wakisaka
    • Nobuo SatoNorio OhkuboNorihiko MoriwakiYoshihiro Wakisaka
    • G08B9/00
    • G01S17/74
    • Face-to-face detection by infrared-ray communication is effective in grasping interaction between persons. However the problem here is that infrared rays have a high directivity and detection fails unless the persons face each other right in front. Sensor signals having a high directivity and sensor signals having a low directivity are obtained from a sensor terminal (TR) carried by a person. Firstly, information on relative position is obtained with a sensor (TRIR) of infrared rays or the like having a high directivity and an initial group is formed at an application server (AS). A feature amount such as sound that has a low directivity and can sense surrounding environmental information is extracted from among the terminals (TRs) belonging to the initial group by personal feature extraction (ASIF), correlation with terminals (TRs) not belonging to a group is obtained, and thereby whether or not those terminals (TRs) belong to an identical group is judged.
    • 通过红外线通信进行面对面检测有效地抓住人与人之间的相互作用。 然而,这里的问题是,红外线具有高的方向性,并且检测失败,除非人们在前面相互面对。 具有高方向性的传感器信号和具有低方向性的传感器信号从人携带的传感器端子(TR)获得。 首先,利用具有高方向性的红外线等的传感器(TRIR)等获得关于相对位置的信息,并且在应用服务器(AS)形成初始组。 通过个人特征提取(ASIF)从属于初始组的终端(TR)中提取具有低方向性并且可以感测周围环境信息的声音的特征量,与不属于组的终端(TR)相关联 从而判断这些端子(TR)是否属于同一组。
    • 3. 发明申请
    • Group analysis system and group analysis equipment
    • 集团分析系统和组分析设备
    • US20080169919A1
    • 2008-07-17
    • US12000141
    • 2007-12-10
    • Nobuo SATONorio OHKUBONorihiko MORIWAKIYoshihiro WAKISAKA
    • Nobuo SATONorio OHKUBONorihiko MORIWAKIYoshihiro WAKISAKA
    • G08B25/00
    • G01S17/74
    • Face-to-face detection by infrared-ray communication is effective in grasping interaction between persons. However the problem here is that infrared rays have a high directivity and detection fails unless the persons face each other right in front. Sensor signals having a high directivity and sensor signals having a low directivity are obtained from a sensor terminal (TR) carried by a person. Firstly, information on relative position is obtained with a sensor (TRIR) of infrared rays or the like having a high directivity and an initial group is formed at an application server (AS). A feature amount such as sound that has a low directivity and can sense surrounding environmental information is extracted from among the terminals (TRs) belonging to the initial group by personal feature extraction (ASIF), correlation with terminals (TRs) not belonging to a group is obtained, and thereby whether or not those terminals (TRs) belong to an identical group is judged.
    • 通过红外线通信进行面对面检测有效地抓住人与人之间的相互作用。 然而,这里的问题是,红外线具有高的方向性,并且检测失败,除非人们在前面相互面对。 具有高方向性的传感器信号和具有低方向性的传感器信号从人携带的传感器端子(TR)获得。 首先,利用具有高方向性的红外线等的传感器(TRIR)等获得关于相对位置的信息,并且在应用服务器(AS)形成初始组。 通过个人特征提取(ASIF)从属于初始组的终端(TR)中提取具有低方向性并且可以感测周围环境信息的声音的特征量,与不属于组的终端(TR)相关联 从而判断这些端子(TR)是否属于同一组。
    • 4. 发明授权
    • Sensor drive control method and sensor-equipped radio terminal device
    • 传感器驱动控制方法和装有传感器的无线电终端设备
    • US07289034B2
    • 2007-10-30
    • US11072402
    • 2005-03-07
    • Yoshihiro WakisakaShunzo YamashitaToshiyuki OdakaNorio Ohkubo
    • Yoshihiro WakisakaShunzo YamashitaToshiyuki OdakaNorio Ohkubo
    • G08B21/00
    • G01D3/08Y10T307/74
    • A radio terminal device realizing reduced power consumption and prompt detection of detection object by using a first sensor and a second sensor whose ON/OFF states are opposite and whose operations are synchronized. When the first sensor detects a detection object, the first output voltage level is changed. When a processor detects the change of the output voltage level as an interrupt signal, the drive voltage level of the first sensor is switched to low and the drive voltage level of the second sensor is switched to high. Moreover, when the second sensor detects a detection object, the output voltage level of the second sensor is changed. When the processor detects the change of the output voltage level as an interrupt signal, the drive voltage level of the second sensor is switched to low and the drive voltage level of the first circuit is switched to high.
    • 一种无线终端装置,其通过使用第一传感器和ON / OFF状态相反并且其操作同步的第二传感器来实现降低的功耗并迅速检测检测对象。 当第一传感器检测到检测对象时,第一输出电压电平发生变化。 当处理器检测到作为中断信号的输出电压电平的变化时,第一传感器的驱动电压电平被切换到低电平,并且第二传感器的驱动电压电平被切换到高电平。 此外,当第二传感器检测到检测对象时,第二传感器的输出电压电平发生变化。 当处理器检测到输出电压电平的变化作为中断信号时,第二传感器的驱动电压电平被切换到低电平,并且第一电路的驱动电压电平被切换到高电平。
    • 6. 发明申请
    • Sensor drive control method and sensor-equipped radio terminal device
    • 传感器驱动控制方法和装有传感器的无线电终端设备
    • US20060113844A1
    • 2006-06-01
    • US11072402
    • 2005-03-07
    • Yoshihiro WakisakaShunzo YamashitaToshiyuki OdakaNorio Ohkubo
    • Yoshihiro WakisakaShunzo YamashitaToshiyuki OdakaNorio Ohkubo
    • B23K11/24G08B21/00
    • G01D3/08Y10T307/74
    • A radio terminal device realizing reduced power consumption and prompt detection of detection object by using a first sensor and a second sensor whose ON/OFF states are opposite and whose operations are synchronized. When the first sensor detects a detection object, the first output voltage level is changed. When a processor detects the change of the output voltage level as an interrupt signal, the drive voltage level of the first sensor is switched to low and the drive voltage level of the second sensor is switched to high. Moreover, when the second sensor detects a detection object, the output voltage level of the second sensor is changed. When the processor detects the change of the output voltage level as an interrupt signal, the drive voltage level of the second sensor is switched to low and the drive voltage level of the first circuit is switched to high.
    • 一种无线终端装置,其通过使用第一传感器和ON / OFF状态相反并且其操作同步的第二传感器来实现降低的功耗并迅速检测检测对象。 当第一传感器检测到检测对象时,第一输出电压电平发生变化。 当处理器检测到作为中断信号的输出电压电平的变化时,第一传感器的驱动电压电平被切换到低电平,并且第二传感器的驱动电压电平被切换到高电平。 此外,当第二传感器检测到检测对象时,第二传感器的输出电压电平发生变化。 当处理器检测到输出电压电平的变化作为中断信号时,第二传感器的驱动电压电平被切换到低电平,并且第一电路的驱动电压电平被切换到高电平。
    • 8. 发明授权
    • Sensor-Net system and sensor node
    • 传感器网络系统和传感器节点
    • US08438249B2
    • 2013-05-07
    • US12068704
    • 2008-02-11
    • Takehiro UranoKeiro MuroToshiyuki OdakaMinoru OgushiYoshihiro Wakisaka
    • Takehiro UranoKeiro MuroToshiyuki OdakaMinoru OgushiYoshihiro Wakisaka
    • H06F15/16
    • G06F1/14H04J3/0638H04W74/06H04W88/08H04W88/16
    • A sensor-Net system includes sensor nodes which are in intermittent operation so as to save power by repeating activated state and inactivated state at a regular interval. Synchronization of time in the system is executed by aligning to the intermittent operation of the sensor nodes. A management server issues a setTime command for configuring the time to each gateway node at a specified interval. Each router node sets or corrects the time of it based on the time received from the gateway node and thereafter turns ON the time configuration flag for each sensor node in order to expand the setTime command to all of its sibling sensor nodes. The router node, upon reception of a polling, which is a command request, from the sensor node, obtains the time at that time, then uses the time to generate a setTime command to transmit to that sensor node.
    • 传感器网络系统包括间歇操作的传感器节点,以通过以规则间隔重复激活状态和非激活状态来节省功率。 通过对准传感器节点的间歇操作来执行系统中的时间同步。 管理服务器发出setTime命令,用于以指定的间隔配置每个网关节点的时间。 每个路由器节点基于从网关节点收到的时间来设置或更正它的时间,然后将每个传感器节点的时间配置标志置ON,以便将setTime命令扩展到其所有同级传感器节点。 路由器节点在接收到来自传感器节点的命令请求的轮询之后,获得该时刻的时间,然后使用时间来生成setTime命令以发送给该传感器节点。
    • 9. 发明授权
    • Electronic device and a system using the same
    • 电子设备和使用该设备的系统
    • US08036883B2
    • 2011-10-11
    • US11984256
    • 2007-11-15
    • Norio OhkuboNobuo SatoYoshihiro Wakisaka
    • Norio OhkuboNobuo SatoYoshihiro Wakisaka
    • G10L21/00H04B1/38
    • A61B7/04
    • By individuals in an organization possessing a portable node and acquiring sound information, an electronic device and a system that analyze human behavior, group formation, and an activity level of the organization and a system is provided. In an electronic device that has a radio communication unit and a microcomputer, sound is converted into an electrical signal by a microphone, and sound waveform information and characteristic information of sound are obtained using an amplifier, a filter, and an envelope generating circuit. An envelope signal being characteristic information of sound is compared with a reference value by a comparator. Characteristic information of sound when the signal does not reach the reference value, and sound waveform information when greater than the reference value are transmitted from the radio communication unit. The server learns human behavior, group formation; and an activity level of an organization by receiving and analyzing these pieces of information.
    • 由拥有便携式节点和获取声音信息的组织中的个人,提供分析人类行为,组织形成和组织活动级别以及系统的电子设备和系统。 在具有无线电通信单元和微型计算机的电子设备中,通过麦克风将声音转换成电信号,并且使用放大器,滤波器和包络线生成电路获得声音波形信息和声音的特征信息。 作为声音的特征信息的包络信号通过比较器与参考值进行比较。 当无线电通信单元发送信号未达到参考值时的声音的特征信息和大于参考值的声音波形信息。 服务器学习人的行为,组织形成; 以及通过接收和分析这些信息的组织的活动级别。