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    • 73. 发明申请
    • COLLISION DETERMINATION DEVICE
    • 碰撞测定装置
    • US20130261952A1
    • 2013-10-03
    • US13877337
    • 2010-10-05
    • Kazuaki AsoToshiki KindoKatsuhiro SakaiMasahiro Harada
    • Kazuaki AsoToshiki KindoKatsuhiro SakaiMasahiro Harada
    • G08G1/16
    • G08G1/166B60W30/0953B60W30/0956G08G1/161
    • A collision determination device determines the possibility of collision between a host vehicle and the other object on the basis of a shortest arrival time calculated by a shortest arrival time calculation unit and a passage time at each point of the host vehicle acquired by a vehicle route candidate acquisition unit. In this way, even if a locus to be taken by the other object is not generated, the shortest arrival time at which the other object can arrive at each point of the route candidate of the host vehicle with a predetermined first displacement is calculated, thereby determining the possibility of collision between the host vehicle and the other object. Therefore, it is possible to reduce a computational load for determining collision and to accurately determine collision between the host vehicle and the other object.
    • 碰撞确定装置基于由最短到达时间计算单元计算的最短到达时间和由车辆路线候选者获取的本车辆的每个点处的通过时间来确定主车辆与另一物体之间的碰撞的可能性 采购单位。 以这种方式,即使不产生由另一物体拍摄的轨迹,也可以计算其他物体能够以预定的第一位移到达本车辆的路线候补的各点的最短到达时间,由此 确定本车和另一物体之间的碰撞的可能性。 因此,可以减少用于确定碰撞的计算负荷并且准确地确定主车辆与另一物体之间的碰撞。
    • 75. 发明申请
    • SPECTRUM MEASURING APPARATUS FOR MOVER
    • 光谱测量装置
    • US20120113412A1
    • 2012-05-10
    • US13322056
    • 2009-05-29
    • Shinya KawamataRyuji FunayamaYasuhiro YoshidaYasukata YokochiMasato EndoToshiki KindoKenichi Kitahama
    • Shinya KawamataRyuji FunayamaYasuhiro YoshidaYasukata YokochiMasato EndoToshiki KindoKenichi Kitahama
    • G01J3/28
    • G01J3/2803G01J1/4204G01J3/02G01J3/0289
    • Provided is a moveable spectrum measuring apparatus capable of improving discrimination precision of a measuring object on the basis of observation data from a spectrum sensor mounted on a movable apparatus such as a vehicle. A measuring object and a reference body are irradiated with ambient light. A spectrum acquiring device acquires measuring object data indicating the spectrum of the measuring object, and reference body data indicating the spectrum of the reference body to become a reference at the time when the spectrum of the measuring object is corrected. A spectrum converting device has reference body reflectivity data indicating the surface reflectivity of the reference body, and creates ambient light data indicating the spectrum of the ambient light, on the basis of the reference body reflectivity data and the reference body data. By using the ambient light data, the measuring object data is converted into measuring object reflectivity data indicating the surface reflectivity of the measuring object. On the basis of the measuring object reflectivity data, a discrimination device discriminates the measuring object.
    • 提供了一种可移动的频谱测量装置,其能够基于来自安装在诸如车辆的可移动装置的频谱传感器的观察数据来改善测量对象的辨别精度。 用环境光照射测量对象和参考体。 频谱获取装置获取指示测量对象的频谱的测量对象数据和指示在校正测量对象的频谱时参考的参考体的频谱的参考主体数据。 频谱转换装置具有指示参考体的表面反射率的参考体反射率数据,并且基于参考体反射率数据和参考体数据创建指示环境光的光谱的环境光数据。 通过使用环境光数据,将测量对象数据转换为指示测量对象的表面反射率的测量对象反射率数据。 基于测量对象反射率数据,判别装置鉴别测量对象。
    • 77. 发明申请
    • VEHICULAR ENVIRONMENT ESTIMATION DEVICE
    • 环境环境估算装置
    • US20120059789A1
    • 2012-03-08
    • US13320706
    • 2010-04-26
    • Katsuhiro SakaiHiromitsu UranoToshiki Kindo
    • Katsuhiro SakaiHiromitsu UranoToshiki Kindo
    • G06N5/02
    • G08G1/161
    • Disclosed is a vehicular environment estimation device capable of accurately estimating a travel environment around own vehicle on the basis of a predicted route of a mobile object or the like, which is moving in a blind area. A vehicular environment estimation device that is mounted in the own vehicle detects a behavior of another vehicle in the vicinity of the own vehicle, and estimates a travel environment, which affects the traveling of another vehicle, on the basis of the behavior of another vehicle. For example, the presence of another vehicle, which is traveling in a blind area, is estimated on the basis of the behavior of another vehicle. Therefore, it is possible to estimate a vehicle travel environment that cannot be recognized by the own vehicle but can be recognized by another vehicle in the vicinity of the own vehicle.
    • 公开了一种车辆环境估计装置,其能够基于在盲区移动的移动体等的预测路线来精确地估计本车辆周围的行驶环境。 安装在本车辆中的车辆环境估计装置检测本车辆附近的其他车辆的行为,并且根据其他车辆的行为来估计影响另一车辆的行驶的行驶环境。 例如,基于另一车辆的行为来估计在盲区行驶的另一车辆的存在。 因此,可以估计本车辆不能识别的车辆行驶环境,但是可以在本车辆附近的其他车辆识别车辆行驶环境。
    • 78. 发明申请
    • DRIVING ASSISTING APPARATUS
    • 驾驶辅助装置
    • US20100235099A1
    • 2010-09-16
    • US12714728
    • 2010-03-01
    • Katsuhiro SakaiToshiki Kindo
    • Katsuhiro SakaiToshiki Kindo
    • G08G1/16
    • G08G1/16G08G1/166G08G1/167
    • There is a driving assisting apparatus capable of reducing a feeling of discomfort of a driver by respecting the driver's operation as much as possible in a range where an obstacle can be reliably avoided by intervention control. An ECU 2 of a driving assisting apparatus 1 includes an obstacle detecting section 22, a control course calculating section 23, a determination section 24, and an intervention control executing section 25. The obstacle detecting section 22 detects an obstacle region around a vehicle. The control course calculating section 23 calculates an intervention control course, which can be taken by the vehicle, when the intervention control is executed after the driver's operation is allowed for a predetermined time. The determination section 24 determines whether the number of intervention control courses, which do not overlap the obstacle region, is equal to or smaller than a predetermined number from the obstacle region transmitted from the obstacle detecting section 22 and the intervention control course transmitted from the control course calculating section 23. The intervention control executing section 25 executes intervention control along the intervention control course when the number of intervention control courses is the predetermined number.
    • 在通过介入控制可以可靠地避免障碍物的范围内,可以通过尊重驾驶员的操作尽可能地减轻驾驶者的不适感的驾驶辅助装置。 驾驶辅助装置1的ECU2包括障碍物检测部22,控制路线计算部23,判定部24以及介入控制执行部25.障碍物检测部22检测车辆周围的障碍物区域。 控制路线计算部23在驾驶员的操作允许了规定时间之后执行干预控制时,计算车辆可以进行的介入控制路线。 确定部分24确定与障碍物区域不重叠的干预控制进程的数量是否等于或小于从障碍物检测部分22发送的障碍物区域的预定数量和从控制器发送的干预控制进程 课程计算部23.当干预控制课程的数量是预定数量时,干预控制执行部分25执行沿着干预控制过程的干预控制。
    • 79. 发明申请
    • VEHICLE TRAVELING CONTROLLER
    • 车辆行驶控制器
    • US20100217476A1
    • 2010-08-26
    • US12738644
    • 2008-10-14
    • Toshiki KindoKazuaki AsoMasahiro Harada
    • Toshiki KindoKazuaki AsoMasahiro Harada
    • B60R21/00G08G1/16
    • B60W30/09B60W10/18B60W10/20B60W30/095B60W30/18172B60W50/08B60W2040/0818B60W2540/00B60W2550/20B60W2710/18B60W2710/20B62D15/0265G05D1/0088G08G1/165G08G1/166G08G1/167
    • A vehicle traveling controller performs emergency evacuation traveling in the case of an emergency. The vehicle traveling controller determines whether a vehicle traveling in accordance with a normal traveling rule is not dangerous and becomes proper traveling or not based on environmental information around the vehicle, when it is determined that the vehicle traveling in accordance with the normal traveling rule becomes proper traveling, executes normal traveling control for instructing the vehicle to travel in accordance with the normal traveling rule, and when the vehicle traveling in accordance with the normal traveling rule does not become proper traveling, executes emergency evacuation traveling control for instructing the vehicle to perform emergency evacuation traveling not in accordance with the normal traveling rule. Therefore, emergency evacuation traveling with high safety can be performed, compared with vehicle traveling in accordance with the normal traveling rule, so safety of vehicle traveling can be improved.
    • 车辆行驶控制器在紧急情况下执行紧急疏散行驶。 车辆行驶控制装置根据正常行驶规则,根据正常行驶规则行驶的车辆是否合适,判定根据正常行驶规则行驶的车辆是否不危险,并且基于车辆周围的环境信息变为适当行驶 执行正常行驶控制,指示车辆按照正常行驶规则行驶,当根据正常行驶规则行驶的车辆不适当行驶时,执行用于指示车辆执行紧急事故的紧急撤离行驶控制 撤离行驶不符合正常行驶规则。 因此,与根据正常行驶规则行驶的车辆相比,可以进行高安全性的紧急撤离行驶,可以提高车辆行驶的安全性。
    • 80. 发明申请
    • HOST-VEHICLE RISK ACQUISITION
    • 主机风险收购
    • US20100121576A1
    • 2010-05-13
    • US12452395
    • 2008-07-10
    • Kazuaki AsoToshiki KindoMasahiro Harada
    • Kazuaki AsoToshiki KindoMasahiro Harada
    • G08G1/16
    • G08G1/166G01S13/726G01S2013/9353G08G1/16
    • A host-vehicle risk acquisition device includes a host-vehicle path acquisition portion that acquires a path of a host-vehicle, and an obstacle path acquisition portion that acquires a plurality of paths of an obstacle existing around the host-vehicle. A collision risk acquisition portion acquires an actual collision risk, which is a collision risk between the host-vehicle and the obstacle when the host-vehicle is in a travel state based on the path of the host-vehicle and the plurality of paths of the obstacle. An offset risk acquisition portion acquires an offset risk, which is a collision risk between the host-vehicle and the obstacle in an offset travel state, which is offset from the travel state of the host-vehicle.
    • 主机车辆风险获取装置包括获取主车辆的路径的主车辆路径获取部分和获取主机周围存在的障碍物的多条路径的障碍物路径获取部分。 碰撞风险获取部分基于主机车辆的路径和主车辆的路径,当主车辆处于行驶状态时,获取作为主机与障碍物之间的碰撞风险的实际碰撞风险 障碍。 偏移风险获取部获取偏移风险,该偏移风险是偏移行驶状态下的主车辆与障碍物之间的碰撞风险,该偏移风险偏离主车辆的行驶状态。