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    • 1. 发明授权
    • Transmitter, receiver, wireless communication system, and communication method
    • 发射机,接收机,无线通信系统和通信方式
    • US08532159B2
    • 2013-09-10
    • US12670878
    • 2008-08-28
    • Kazunori KagawaNorimasa KoboriYukinori Fujita
    • Kazunori KagawaNorimasa KoboriYukinori Fujita
    • H04B1/00
    • G08G1/161B60R21/0134B60T7/22B60W30/08G01S5/0072G01S11/08
    • A transmitter has a portion that sets a parameter about the transmitter itself based on a parameter made to correspond to a condition for selecting a receiver with which the transmitter communicate with, a portion that generates a spread code based on the set parameter, and a sending portion that spreads transmit-data to form a spread signal by the generated spread code, and that sends the spread signal. The receiver has a portion that receives the signal transmitted by the transmitter, a portion that sets a parameter about the receiver itself based on the parameter made to correspond to the condition, a portion that generates a despread code based on the set parameter, a portion that performs a correlation computation of the received signal and the generated despread code, and a portion that selects a transmitter with which the receiver communicates, based on a result of the correlation computation.
    • 发射机具有一部分,其基于与用于选择发射机通信的接收机的条件相对应的参数,基于所设置的参数生成扩展码的部分,以及发送器 扩展发送数据以通过所生成的扩展码形成扩展信号的部分,并且发送扩展信号。 接收机具有接收由发射机发送的信号的部分,基于对应于该条件的参数设置关于接收机本身的参数的部分,基于所设置的参数产生解扩码的部分,部分 执行接收信号和所生成的解扩码的相关计算,以及基于相关计算的结果选择接收机与之通信的发送机的部分。
    • 2. 发明申请
    • TRANSMITTER, RECEIVER, WIRELESS COMMUNICATION SYSTEM, AND COMMUNICATION METHOD
    • 发射机,接收机,无线通信系统和通信方法
    • US20100202495A1
    • 2010-08-12
    • US12670878
    • 2008-08-28
    • Kazunori KagawaNorimasa KoboriYukinori Fujita
    • Kazunori KagawaNorimasa KoboriYukinori Fujita
    • H04B1/707
    • G08G1/161B60R21/0134B60T7/22B60W30/08G01S5/0072G01S11/08
    • A transmitter has a portion that sets a parameter about the transmitter itself based on a parameter made to correspond to a condition for selecting a receiver with which the transmitter communicate with, a portion that generates a spread code based on the set parameter, and a sending portion that spreads transmit-data to form a spread signal by the generated spread code, and that sends the spread signal. The receiver has a portion that receives the signal transmitted by the transmitter, a portion that sets a parameter about the receiver itself based on the parameter made to correspond to the condition, a portion that generates a despread code based on the set parameter, a portion that performs a correlation computation of the received signal and the generated despread code, and a portion that selects a transmitter with which the receiver communicates, based on a result of the correlation computation.
    • 发射机具有一部分,其基于与用于选择发射机通信的接收机的条件相对应的参数,基于所设置的参数生成扩展码的部分,以及发送器 扩展发送数据以通过所生成的扩展码形成扩展信号的部分,并且发送扩展信号。 接收机具有接收由发射机发送的信号的部分,基于对应于该条件的参数设置关于接收机本身的参数的部分,基于所设置的参数产生解扩码的部分,部分 执行接收信号和所生成的解扩码的相关计算,以及基于相关计算的结果选择接收机与之通信的发送机的部分。
    • 3. 发明申请
    • Positioning Device, and Navigation System
    • 定位装置和导航系统
    • US20080228395A1
    • 2008-09-18
    • US12089651
    • 2007-06-08
    • Norimasa KoboriKazunori Kagawa
    • Norimasa KoboriKazunori Kagawa
    • G01C21/10G06F17/10
    • G01C21/00G01C21/30G01S19/48G01S19/49G08G1/096827G09B29/106
    • A positioning device that detects a position of a mobile body with a radio navigation positioning unit includes: first and second autonomous sensors obtaining behavioral information on the mobile body; a position detecting unit obtaining an estimated position and an estimated direction by updating a detection result based on the behavioral information from the first autonomous sensor; a map data positioning unit that refers to a map data storage unit based on the estimated position and obtains a map data linked position at a predetermined distance away from a link; a direction detecting unit obtaining a cumulative estimated direction by updating the detection result based on the behavioral information from the second autonomous sensor; and a most probable position estimating unit estimating the position of the mobile body from the estimated positions and directions using the Kalman filter.
    • 利用无线导航定位单元检测移动体的位置的定位装置包括:第一和第二自主传感器,在移动体上获取行为信息; 位置检测单元通过基于来自第一自主传感器的行为信息更新检测结果来获得估计位置和估计方向; 地图数据定位单元,其基于估计位置参考地图数据存储单元,并且获得距离链接预定距离的地图数据链接位置; 方向检测单元,通过基于来自第二自主传感器的行为信息更新检测结果来获得累积估计方向; 以及最可能的位置估计单元,使用卡尔曼滤波器从所估计的位置和方向估计移动体的位置。
    • 4. 发明申请
    • POSITIONING DEVICE
    • 定位装置
    • US20100004856A1
    • 2010-01-07
    • US12305397
    • 2007-06-08
    • Norimasa KoboriKazunori Kagawa
    • Norimasa KoboriKazunori Kagawa
    • G01C21/30
    • G01C21/165G01C21/28G01S19/48G01S19/49G08G1/09623G08G1/0969
    • A positioning device 9 includes a map data storing unit 5 configured to store map data; autonomous sensors 2, 3 configured to detect behavior information of a moving object; an inertial positioning unit 82 configured to detect an estimated position of the moving object by applying the behavior information detected by the autonomous sensors to positioning results obtained by an electronic navigation positioning unit such as a GPS; a planimetric feature detecting unit 84 configured to detect a planimetric feature located around a road; a planimetric feature position identifying unit 83 configured to identify a position of the planimetric feature; a planimetric feature reference positioning unit 85 configured to estimate a planimetric feature estimated position of the moving object by using the position of the planimetric feature as a reference; and a position estimating unit 86 configured to estimate a position of the moving object by applying the estimated position and the planimetric feature estimated position to a Kalman filter.
    • 定位装置9包括被配置为存储地图数据的地图数据存储单元5; 被配置为检测移动物体的行为信息的自主传感器2,3; 惯性定位单元82,被配置为通过将由自主传感器检测到的行为信息应用于由诸如GPS的电子导航定位单元获得的定位结果来检测移动物体的估计位置; 平面测量特征检测单元84,被配置为检测位于道路周围的平面特征; 平面图特征位置识别单元83,被配置为识别平面图特征的位置; 被配置为通过使用平面图特征的位置作为参考来估计移动物体的平面特征估计位置的平面测量特征参考定位单元85; 以及位置估计单元86,被配置为通过将估计位置和平面特征估计位置应用于卡尔曼滤波器来估计移动物体的位置。
    • 5. 发明授权
    • Positioning device
    • 定位装置
    • US08725412B2
    • 2014-05-13
    • US12305397
    • 2007-06-08
    • Norimasa KoboriKazunori Kagawa
    • Norimasa KoboriKazunori Kagawa
    • G01C21/30G01S19/49
    • G01C21/165G01C21/28G01S19/48G01S19/49G08G1/09623G08G1/0969
    • A positioning device includes a map data storing unit configured to store map data; autonomous sensors configured to detect behavior information of a moving object; an inertial positioning unit configured to detect an estimated position of the moving object by applying the behavior information detected by the autonomous sensors to positioning results obtained by an electronic navigation positioning unit such as a GPS; a planimetric feature detecting unit configured to detect a planimetric feature located around a road; a planimetric feature position identifying unit configured to identify a position of the planimetric feature; a planimetric feature reference positioning unit configured to estimate a planimetric feature estimated position of the moving object by using the position of the planimetric feature as a reference; and a position estimating unit configured to estimate a position of the moving object by applying the estimated position and the planimetric feature estimated position to a Kalman filter.
    • 定位装置包括配置为存储地图数据的地图数据存储单元; 自动传感器,被配置为检测移动物体的行为信息; 惯性定位单元,被配置为通过将由所述自主传感器检测到的行为信息应用于由诸如GPS的电子导航定位单元获得的定位结果来检测所述移动物体的估计位置; 配置为检测位于道路周围的平面特征的平面测量特征检测单元; 平面图特征位置识别单元,被配置为识别平面图特征的位置; 平面测量特征参考定位单元,被配置为通过使用平面图特征的位置作为参考来估计移动物体的平面特征估计位置; 以及位置估计单元,被配置为通过将估计位置和平面特征估计位置应用于卡尔曼滤波器来估计移动物体的位置。
    • 6. 发明授权
    • Navigation apparatus
    • 导航仪
    • US08244470B2
    • 2012-08-14
    • US12308942
    • 2007-07-11
    • Norimasa KoboriKazunori Kagawa
    • Norimasa KoboriKazunori Kagawa
    • G08G1/123
    • G01C21/30
    • A navigation apparatus that detects a position of a movable body includes map data storage means for storing map data; an autonomous sensor that detects information on behavior of the movable body; inertial position determination means for detecting an inertial position-determination position of the movable body, by accumulating the information detected by the autonomous sensor on a result of position determination performed using radio navigation; characteristic position detection means for detecting a characteristic position that is the inertial position-determination position at which the movable body has exhibited a characteristic behavior; correction amount detection means for extracting positional information on a road position corresponding to the characteristic position, by referring to the map data storage means; and position correction means for correcting the characteristic position using a Kalman filter based on a condition that the characteristic position is close to the road position.
    • 检测可移动体的位置的导航装置包括用于存储地图数据的地图数据存储装置; 检测关于可移动体的行为的信息的自主传感器; 惯性位置确定装置,用于通过根据使用无线电导航执行的位置确定的结果积累由自主传感器检测到的信息来检测可移动体的惯性位置确定位置; 特征位置检测装置,用于检测作为可移动体具有特征行为的惯性位置确定位置的特征位置; 校正量检测装置,用于通过参考地图数据存储装置提取与特征位置相对应的道路位置上的位置信息; 以及位置校正装置,用于基于特征位置接近道路位置的条件,使用卡尔曼滤波器来校正特征位置。
    • 7. 发明授权
    • Positioning device, and navigation system
    • 定位装置和导航系统
    • US08041472B2
    • 2011-10-18
    • US12089651
    • 2007-06-08
    • Norimasa KoboriKazunori Kagawa
    • Norimasa KoboriKazunori Kagawa
    • G01C21/00G01C21/30
    • G01C21/00G01C21/30G01S19/48G01S19/49G08G1/096827G09B29/106
    • A positioning device that detects a position of a mobile body with a radio navigation positioning unit includes: first and second autonomous sensors obtaining behavioral information on the mobile body; a position detecting unit obtaining an estimated position and an estimated direction by updating a detection result based on the behavioral information from the first autonomous sensor; a map data positioning unit that refers to a map data storage unit based on the estimated position and obtains a map data linked position at a predetermined distance away from a link; a direction detecting unit obtaining a cumulative estimated direction by updating the detection result based on the behavioral information from the second autonomous sensor; and a most probable position estimating unit estimating the position of the mobile body from the estimated positions and directions using the Kalman filter.
    • 利用无线导航定位单元检测移动体的位置的定位装置包括:第一和第二自主传感器,在移动体上获取行为信息; 位置检测单元通过基于来自第一自主传感器的行为信息更新检测结果来获得估计位置和估计方向; 地图数据定位单元,其基于估计位置参考地图数据存储单元,并且获得距离链接预定距离的地图数据链接位置; 方向检测单元,通过基于来自第二自主传感器的行为信息更新检测结果来获得累积估计方向; 以及最可能的位置估计单元,使用卡尔曼滤波器从所估计的位置和方向估计移动体的位置。
    • 8. 发明申请
    • Navigation Apparatus
    • 导航仪
    • US20090271108A1
    • 2009-10-29
    • US12308942
    • 2007-07-11
    • Norimasa KoboriKazunori Kagawa
    • Norimasa KoboriKazunori Kagawa
    • G01C21/30
    • G01C21/30
    • A navigation apparatus (1) that detects a position of a movable body includes map data storage means (13) for storing map data; an autonomous sensor (12) that detects information on behavior of the movable body; inertial position determination means (10b) for detecting an inertial position-determination position of the movable body, by accumulating the information detected by the autonomous sensor (12) on a result of position determination performed using radio navigation; characteristic position detection means (10d) for detecting a characteristic position (31) that is the inertial position-determination position at which the movable body has exhibited a characteristic behavior; correction amount detection means (10e) for extracting positional information on a road position (22) corresponding to the characteristic position (31), by referring to the map data storage means (13); and position correction means (10f) for correcting the characteristic position (31) using a Kalman filter based on a condition that the characteristic position (31) is close to the road position (22).
    • 检测可移动体的位置的导航装置(1)包括用于存储地图数据的地图数据存储装置(13) 自动传感器(12),其检测关于所述可移动体的行为的信息; 惯性位置确定装置(10b),用于通过根据使用无线电导航执行的位置确定的结果积累由自主传感器(12)检测到的信息来检测可移动体的惯性位置确定位置; 特征位置检测装置(10d),用于检测作为可移动体已经表现出特性的惯性位置确定位置的特征位置(31); 用于通过参照地图数据存储装置(13)提取与特征位置(31)对应的道路位置(22)上的位置信息的校正量检测装置(10e)。 以及基于特征位置(31)接近道路位置(22)的条件,使用卡尔曼滤波器来校正特征位置(31)的位置校正装置(10f)。
    • 9. 发明申请
    • GETTING-ON/OFF DETERMINATION APPARATUS AND GETTING-ON/OFF DETERMINATION METHOD
    • 开/关确定装置和开/关确定方法
    • US20120243822A1
    • 2012-09-27
    • US13511579
    • 2010-08-27
    • Norimasa KoboriTakahiro NakayamaKazuhiro MimaHitoshi Yamada
    • Norimasa KoboriTakahiro NakayamaKazuhiro MimaHitoshi Yamada
    • G01N21/84G02B6/00
    • H03K17/968B60L2200/16B60L2250/22B62K11/007H03K2217/94104
    • A getting-on/off determination apparatus determines rider's getting-on/off for an inverted two-wheel vehicle that travels while maintaining the inverted state. The getting-on/off determination apparatus includes an optical fiber laid in a step portion that a rider gets on/off, a light emitting unit that emits detection light and is connected to one end of the optical fiber, a light receiving unit that receives the detection light emitted from the light emitting unit and is connected to another end of the optical fiber, at least one transmitted light varying portion that varies an amount of transmitted light of the detection light passing through the optical fiber in conjunction with a vertical displacement of the step portion that occurs when the rider gets on/off the inverted two-wheel vehicle, and a determination unit that determines getting-on/off of the rider based on an amount of the detection light received by the light receiving unit.
    • 接通/断开确定装置确定在保持倒置状态的同时行驶的倒车两轮车的乘客的接通/关闭。 所述接通/断开确定装置包括布置在骑车人开/关的步骤部分中的光纤,发射检测光并连接到所述光纤的一端的发光单元,光接收单元,其接收 从所述发光单元发射的并且连接到所述光纤的另一端的检测光,至少一个透射光变化部分,其通过穿过所述光纤的所述检测光的透射光的量与所述光纤的垂直位移 当所述骑车人接通/关闭所述倒车的两轮车辆时发生的踏板部分,以及确定单元,其基于由所述光接收单元接收到的所述检测光的量来确定所述骑车人的接通/关闭。
    • 10. 发明申请
    • Positioning apparatus for a mobile object
    • 移动物体的定位装置
    • US20100007550A1
    • 2010-01-14
    • US12457889
    • 2009-06-24
    • Kiyomi NagamiyaAkihiro UedaIwao MaedaNorimasa Kobori
    • Kiyomi NagamiyaAkihiro UedaIwao MaedaNorimasa Kobori
    • G01S1/00
    • G01C21/165G01S19/49
    • A positioning apparatus for a mobile object for measuring a position at a current time includes a GPS positioning unit for updating a GPS operation data; an INS positioning unit with a detection value for INS positioning; a speed detector for detecting speed; an error corrector for correcting an error of the detection value, the position measured by the INS positioning and the speed; and a mobile object model operation unit for calculating a mobile object model; wherein an initial position is calculated using the GPS operation data, and the mobile object model operation unit measures the position to the current time when the current time coincides with a GPS updating time; and wherein the initial position is calculated without the GPS operation data, and the mobile object model operation unit measures the position to the current time when the current time does not coincide with a GPS updating time.
    • 用于测量当前时间位置的移动体的定位装置包括:GPS定位单元,用于更新GPS操作数据; INS定位单元,具有INS定位的检测值; 用于检测速度的速度检测器; 用于校正检测值的误差的误差校正器,通过INS定位测量的位置和速度; 以及用于计算移动对象模型的移动对象模型操作单元; 其中使用所述GPS操作数据计算初始位置,并且所述移动对象模型操作单元测量当前时间与GPS更新时间一致的当前时间的位置; 并且其中在没有GPS操作数据的情况下计算初始位置,并且移动对象模型操作单元测量当前时间与GPS更新时间不一致的当前时间的位置。