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    • 1. 发明申请
    • In-vehicle radar device and communication device
    • 车载雷达装置及通讯装置
    • US20070164896A1
    • 2007-07-19
    • US11594947
    • 2006-11-09
    • Hideya SuzukiKazuhiko Hanawa
    • Hideya SuzukiKazuhiko Hanawa
    • G01S13/93G01S13/08
    • G08G1/161G01S7/006G01S7/023G01S13/931G01S2013/9325G01S2013/9353G01S2013/936G01S2013/9382
    • In order to consider an optimum control method and an optimum mounting method needed, a UWB having a communication function and a radar function are used. For an obstacle vehicle in front, the distance between two cars is measured using the radar function, and according to this distance, a hazard warning is issued to a driver or a pre-crash operation is carried out. Moreover, by informing its own position to each other between vehicles using the communication function, the distance to a vehicle near to the own vehicle is measured regardless of clutter, and according to this distance, a hazard warning is issued to a driver or a pre-crash operation is carried out. Moreover, the operating frequency and transmission power of a radar are changed based on its own location information, thereby reducing influence to and from other wireless system.
    • 为了考虑最佳控制方法和所需的最佳安装方法,使用具有通信功能和雷达功能的UWB。 对于前方的障碍车辆,使用雷达功能测量两辆车之间的距离,并且根据该距离,对驾驶员发出危险警告或进行预碰撞操作。 此外,通过使用通信功能在车辆之间通知彼此的位置,无论杂波如何,都测量到本车辆附近的车辆的距离,并且根据该距离,向驾驶员或预先发出危险警告 - 执行碰撞操作。 此外,雷达的工作频率和发射功率根据其自己的位置信息而改变,从而减少对其他无线系统的影响。
    • 4. 发明授权
    • Intelligent cruise control system for moving body
    • 智能巡航控制系统
    • US6044321A
    • 2000-03-28
    • US871887
    • 1997-06-09
    • Mitsuru NakamuraKazuhiko HanawaKazuo MatsuuraSatoru Kuragaki
    • Mitsuru NakamuraKazuhiko HanawaKazuo MatsuuraSatoru Kuragaki
    • B60K31/00B60K31/04B60R21/00B60T7/12B60W30/00F02D29/02
    • B60W30/16B60K31/0008B60K31/047B60W2520/10B60W2720/106Y02T10/84
    • An intelligent cruise control system is capable of maintaining a car-to-car distance allowing a collision to be avoided and carrying out follow-up running control without providing a sense of incompatibility to the driver. A radar circuit employed in a radar unit calculates a relative speed Vr of a car running ahead of a vehicle with an intelligent cruise control system installed therein with respect to the vehicle and a distance dr from the vehicle to the preceding car from a wave reflected by the preceding car. An ICC unit adjusts the speed of the vehicle by controlling the output of the engine of the vehicle in accordance with information such as the relative speed Vr and the distance dr received from the radar unit. In a follow-up running mode, the ICC unit controls the cruise of the vehicle in such a way that the speed of the vehicle and the distance from the vehicle to the preceding car are maintained at a target speed and a target car-to-car distance respectively. When the ICC unit forms a judgment that deceleration of the vehicle is not enough if only deceleration based on the engine brake is relied on, giving rise to fear of a rear-end collision of the vehicle with the preceding car, the ICC unit calculates a target deceleration and operates an automatic brake unit, letting the automatic brake unit generate a braking force appropriate for the target acceleration.
    • 智能巡航控制系统能够保持汽车到车辆的距离,从而避免碰撞,并执行后续运行控制,而不会对司机造成不兼容的感觉。 在雷达装置中采用的雷达电路用相对于车辆安装的智能巡航控制系统和从车辆到前一车辆的距离dr从车辆前方运行的汽车的相对速度Vr从由 前面的车。 ICC单元根据从雷达单元接收到的相对速度Vr和距离dr等信息来控制车辆的发动机的输出来调整车辆的速度。 在后续运行模式中,ICC单元以这样的方式控制车辆的巡航,使得车辆的速度和从车辆到前一个轿厢的距离保持在目标速度和目标车 - 车距分别。 当ICC单元形成仅依靠发动机制动器的减速的车辆的减速度不足时,ICC单元产生对车辆与前一轿厢的后端碰撞的担心时,ICC单元计算出 目标减速并操作自动制动单元,使自动制动单元产生适合于目标加速度的制动力。
    • 7. 发明授权
    • Automatic telephone exchange system for both speech signals and data
transfer
    • 自动电话交换系统,用于语音信号和数据传输
    • US4330886A
    • 1982-05-18
    • US162205
    • 1980-06-23
    • Takeo FukudaKazuhiko HanawaKiyoshi Urui
    • Takeo FukudaKazuhiko HanawaKiyoshi Urui
    • H04M3/00H04M11/00H04M11/06H04Q11/04
    • H04M11/068H04Q11/04
    • Telephones are coupled with data terminal equipments through data lines. The data lines are used to transfer the terminal data between the data terminal equipments and the telephones. Speech signals are transferred between the telephones and a PCM telephone exchange through speech lines. Control lines are used for transferring a time-division-multiplexed signal made of telephone control signals such as lamp energizing signals, and the terminal data, and also used for transferring another time-division-multiplexed signal made of function signals such as function key actuation signals and the terminal data. With such a connection, a speech signal is transferred between telephones through the PCM telephone exchange and speech lines and the terminal data are transferred through the control lines and the PCM telephone exchange.
    • 电话通过数据线与数据终端设备耦合。 数据线用于在数据终端设备和电话之间传送终端数据。 语音信号通过语音线路在电话和PCM电话交换机之间传输。 控制线用于传送由电话控制信号(例如灯激励信号)和终端数据构成的时分复用信号,并且还用于传送由诸如功能键致动的功能信号组成的另一个时分复用信号 信号和终端数据。 通过这样的连接,通过PCM电话交换机和语音线路在话机之间传送语音信号,终端数据通过控制线路和PCM电话交换机传送。
    • 8. 发明申请
    • Vehicle Control Device and Vehicle Control Method
    • 车辆控制装置和车辆控制方法
    • US20090228184A1
    • 2009-09-10
    • US12279943
    • 2006-03-06
    • Mikio UeyamaTatsuya YoshidaKazuhiko Hanawa
    • Mikio UeyamaTatsuya YoshidaKazuhiko Hanawa
    • B60W30/16G08G1/16
    • B60W30/16B60W30/09B60W30/095B60W2550/143B60W2550/20B60W2550/402G08G1/16G08G1/161G08G1/165
    • A cruise control device and an obstacle detection device are provided which achieve a safe and appropriate tracking control by avoiding a sudden recognition of a short following distance when a preceding vehicle is found in an uphill or downhill gradient, in a curve, or at an intersection, or by reducing the damage of a crash when the crash cannot be avoided. An obstacle determination process section is provided which receives information from a sensor which detects an obstacle, receives terrain information of the position of the host vehicle from a navigation device, and determines the presence of the obstacle when a predetermined condition is satisfied after the sensor detects the obstacle. The predetermined condition to determine the presence of the obstacle is changed based on the terrain information of the position of the host vehicle received from the navigation device.
    • 提供了一种巡航控制装置和障碍物检测装置,其通过在上坡或下坡坡度,曲线或交叉点处发现先前的车辆时避免突然的跟踪距离的突然识别,从而实现安全和适当的跟踪控制 ,或通过减少崩溃时不能避免的事故损坏。 提供了一种障碍物确定处理部分,其从检测障碍物的传感器接收信息,从导航装置接收主车辆的位置的地形信息,并且在传感器检测到之后满足预定条件时确定障碍物的存在 障碍。 基于从导航装置接收到的本车辆的位置的地形信息来改变用于确定障碍物的存在的预定条件。
    • 9. 发明授权
    • Intelligent cruise control device
    • 智能巡航控制装置
    • US06360158B1
    • 2002-03-19
    • US08923414
    • 1997-09-04
    • Kazuhiko HanawaMitsuru NakamuraKazuo MatsuuraSatoru Kuragaki
    • Kazuhiko HanawaMitsuru NakamuraKazuo MatsuuraSatoru Kuragaki
    • B60K3104
    • B60W30/16B60K31/0008
    • The present invention provides an intelligent cruise control device installed in a host vehicle and used for performing follow-up cruise control to follow up a moving target located in front of the host vehicle by supplying an operating signal to an auto cruise control device which is used for carrying out auto cruise control to adjust the speed of the host vehicle by carrying out an operation indicated by the operating signal generated by the operating part in accordance with an operation type such as acceleration and deceleration specified by the driver so that the host vehicle is running at the adjusted speed. The intelligent cruise control device further comprises: a storage means for storing information on the operating signal for each operation type such as acceleration and deceleration; an operation determining means for determining the type of an operation required by the host vehicle to follow up a moving target located in front of the host vehicle from information on the speed of the host vehicle and information on the range between the host vehicle and the moving target; and a signal generating means for reading out information on an operating signal for the type of an operation determined by the operation determining means from the storage means and for generating the operating signal in accordance with the information on the operating signal read out from the storage means.
    • 本发明提供了一种安装在主车辆中的智能巡航控制装置,其用于执行后续巡航控制,以通过向使用的自动巡航控制装置提供操作信号来跟随位于主车辆前方的移动目标 进行自动巡航控制,通过根据由驾驶员指定的加速和减速的操作类型执行由操作部产生的操作信号所指示的操作来调节本车辆的速度,使得主车辆 以调整速度运行。 智能巡航控制装置还包括:存储装置,用于存储关于加速和减速的各种操作类型的操作信号的信息; 操作确定装置,用于根据关于本车辆的速度的信息确定本车辆所需的操作的类型,以及关于主车辆与移动的车辆之间的距离的信息 目标; 信号发生装置,用于从存储装置读出由操作确定装置确定的操作类型的操作信号的信息,并根据关于从存储装置读出的操作信号的信息产生操作信号 。
    • 10. 发明授权
    • Car on-board radar axis adjusting method
    • 车载雷达轴调整方法
    • US6020844A
    • 2000-02-01
    • US225475
    • 1999-01-06
    • Jie BaiMitsuru NakamuraKazuhiko HanawaTatsuhiko MonjiKazuaki TakanoNoriharu Sato
    • Jie BaiMitsuru NakamuraKazuhiko HanawaTatsuhiko MonjiKazuaki TakanoNoriharu Sato
    • B60R21/00B60R11/02B60W30/00G01S7/03G01S7/40G01S13/93H01Q3/02
    • G01S7/4026H01Q3/02G01S2007/403G01S2007/4034G01S2007/4086G01S7/4972
    • In a method of adjusting the axis of a car on-board radar, especially, a car on-board mono-pulse radar having the function of transmitting radio waves, light or ultrasonic waves, a car axis and an offset axis are set and the mount angle of an antenna offset-mounted on the offset axis can be adjusted with high precision and with ease through a reduced number of process steps. In the method, at least two points are set on the car, at least two isosceles triangles having a common base defined by a line connecting the setting points and sides of different lengths are drawn, a line connecting vertexes on the same plane of the obtained isosceles triangles and an extension of that line are determined as the car axis, the radar antenna is mounted on the car at an offset position which is apart from the car axis by a constant distance in the horizontal direction, a straight line parallel to the car axis and passing through the offset position is determined as the offset axis, a reflector is disposed in a direction at a constant azimuth angle as viewed from the offset position of the antenna, and the reflector is used as a detection target of the radar to adjust the mount angle of the radar antenna such that an azimuth angle detection value of the reflector detected by the radar equals a setting value of the azimuth angle.
    • 在调整车载雷达的轴线的方法中,特别地,设置具有发射无线电波,光或超声波,汽车轴和偏移轴的功能的车载单脉冲雷达, 偏移安装在偏移轴上的天线的安装角度可以通过减少数量的工艺步骤以高精度和容易地调节。 在该方法中,在轿厢上设置至少两个点,至少两个具有由连接不同长度的设定点和侧面的线限定的公共基座的等腰三角形,连接顶点在所获得的相同平面上的线 将等腰三角形和该线的延伸线确定为轿厢轴线,雷达天线以与水平方向一定距离的偏离位置安装在轿厢上,平行于轿厢的直线 被确定为偏移位置时,从天线的偏移位置观察,将反射器设置在恒定方位角的方向上,并且将反射器用作雷达的检测对象以进行调整 雷达天线的安装角度使得由雷达检测的反射器的方位角检测值等于方位角的设定值。