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    • 13. 发明授权
    • Drive assist display apparatus
    • 驱动辅助显示装置
    • US09067538B2
    • 2015-06-30
    • US13611838
    • 2012-09-12
    • Tadao IchinoseKoji Takahashi
    • Tadao IchinoseKoji Takahashi
    • H04N7/00B60R1/00B62D15/02
    • B60R1/00B60R2300/105B60R2300/303B60R2300/806B62D15/0275
    • Provided is a drive assist display apparatus which displays a main view 20 showing an image of a wide backward area of the vehicle, and a sub view 21-3 showing a view point conversion image of a vicinity of the vehicle 1 as if looked down from a virtual viewpoint, the sub view 21-3 having a down side region where a thickness of the view point conversion image of the bumper 13 from the taken image is moderately represented and left and right side regions except the region of the bumper 13 where a taken image of an area around the vehicle is substantially shown, the sub view 21-3 formed as provided with a cutout section having a width corresponding to a width of the vehicle in accordance with a reduction scale of the view point conversion image, and the cutout section having sides rounded in form.
    • 提供一种驾驶辅助显示装置,其显示示出车辆的向后区域的图像的主视图20,以及示出车辆1附近的视点转换图像的子视图21-3,如同从 虚拟视点,具有下侧区域的副图21-3,其中保险杠13的视点转换图像的厚度从拍摄图像适度地表示,以及除了保险杠13的区域之外的左侧和右侧区域,其中a 基本上示出了车辆周围区域的拍摄图像,子视图21-3形成为具有根据视点转换图像的缩小比例具有对应于车辆宽度的宽度的切口部分的切割部分,以及 切口部分的形状为圆形。
    • 14. 发明授权
    • Structure for front portion of vehicle and method for manufacturing vehicle
    • 车辆前部结构及车辆制造方法
    • US09004583B2
    • 2015-04-14
    • US14239950
    • 2012-08-08
    • Koji TakahashiMasaharu Endou
    • Koji TakahashiMasaharu Endou
    • B60R19/48B60R19/03B60R13/10B60D1/60B60R19/50B60R19/52
    • B60R19/48B60D1/60B60R13/10B60R19/50B60R19/52
    • A vehicle front structure includes: a bumper face disposed at a vehicle front end; and a lower grill disposed at a bumper opening section of the bumper face. The bumper face includes: a hook cover (20), after formed integrally with the bumper face within the bumper opening section, separated from the bumper face; and a hook cover holding mechanism (26) formed within the bumper opening section integrally with the bumper face to detachably fix the hook cover (20). The hook cover (20) includes: a cover body section (40) for closing a hook cover attachment portion in the bumper face; and a cover snap-fit claw (32) for snap-fitting onto a bumper engaging portion in the hook cover attachment portion. The hook cover holding mechanism (26) includes a hold latch nail (34) for engaging with the cover snap-fit claw (32) by resilient deformation of the hook cover (20).
    • 车辆前部结构包括:设置在车辆前端的保险杠面; 以及设置在保险杠表面的保险杠开口部分的下格栅。 保险杠表面包括:与保险杠开口部分中的保险杠面一体形成的与保险杠面分离的钩盖(20); 以及与保险杠面整体地形成在保险杠开口部内的钩盖保持机构26,以可拆卸地固定钩盖20。 钩盖(20)包括:盖主体部分(40),用于封闭保险杠表面中的钩盖附接部分; 以及用于卡扣配合到所述钩盖附接部分中的保险杠接合部​​分上的盖卡扣配合爪(32)。 钩盖保持机构(26)包括用于通过钩盖(20)的弹性变形与盖卡扣配合爪(32)接合的保持闩锁钉(34)。
    • 16. 发明申请
    • SUBSCRIBER-SIDE DEVICE AND OPTICAL TRANSMISSION SYSTEM
    • 订户侧设备和光传输系统
    • US20140226992A1
    • 2014-08-14
    • US14346892
    • 2011-12-12
    • Koji Takahashi
    • Koji Takahashi
    • H04L7/00
    • H04L7/0075H04L12/12H04L12/6418Y02D50/20Y02D50/40
    • An object of the present invention is to provide a subscriber-side device, which can generate accurate time information and can synchronize a time with other device even if a power supply of a portion that receives a downlink signal is in an OFF state, and to provide an optical transmission system including the same. The subscriber-side device of the present invention corrects and outputs free-running time information, which is generated based on a free-running clock signal, by a time correction value generated based on a frequency deviation between a synchronization clock signal and the free-running clock signal. When the downlink signal sent from the station-side device is in a signal interruption state of being incapable of recognizing or receiving the downlink signal, the subscriber-side device corrects and outputs the free-running time information by a time correction value generated before the downlink signal turns to the signal interruption state.
    • 本发明的目的是提供一种用户侧设备,即使接收下行链路信号的部分的电源处于OFF状态,也可以产生准确的时间信息并且可以与其他设备同步时间,并且 提供包括该光传输系统的光传输系统。 本发明的用户侧设备通过基于同步时钟信号和自由运行时钟信号之间的频率偏差产生的时间校正值来校正并输出基于自由运行时钟信号生成的自由运行时间信息, 运行时钟信号。 当从站侧设备发送的下行链路信号处于不能识别或接收下行链路信号的信号中断状态时,用户侧设备通过在自动运行时间信息之前产生的时间校正值来校正并输出自由运行时间信息 下行链路信号变为信号中断状态。
    • 18. 发明授权
    • Light emitting device, vehicle headlamp, and illumination device
    • 发光装置,车辆前照灯和照明装置
    • US08733957B2
    • 2014-05-27
    • US13280572
    • 2011-10-25
    • Koji Takahashi
    • Koji Takahashi
    • F21V9/16F21S8/10F21S8/12F21Y101/02
    • F21S41/173F21S41/14F21S41/16F21S41/24F21S41/675F21Y2101/00F21Y2115/30
    • A headlamp includes an laser element for emitting a laser beam; a light emitting section for emitting fluorescence by receiving the laser beam emitted from the laser element; and a parabolic mirror for reflecting the fluorescence emitted from the light emitting section, the light emitting section being placed so that a focal point of the parabolic mirror and a periphery of the focal point are positioned on the light emitting section, the light emitting section being most strongly excited at a portion corresponding to the focal point, meanwhile, at a portion corresponding to the periphery of the focal point, the light emitting section being excited with intensity being dependent on light intensity distribution of the excitation light on an irradiation surface of the light emitting section.
    • 前照灯包括用于发射激光束的激光元件; 用于通过接收从激光元件发射的激光束来发射荧光的发光部分; 以及用于反射从发光部发出的荧光的抛物面镜,所述发光部被配置为使得所述抛物面镜的焦点和所述焦点的周围位于所述发光部上,所述发光部为 在对应于焦点的部分处最强烈地激发,同时在与焦点的周边相对应的部分处,发光部分被强度激发,其取决于激发光在照射表面上的光强度分布 发光部分。
    • 19. 发明授权
    • Communication apparatus
    • 通讯设备
    • US08719674B2
    • 2014-05-06
    • US11817907
    • 2006-06-26
    • Koji TakahashiSeiji KozakiHideaki Yamanaka
    • Koji TakahashiSeiji KozakiHideaki Yamanaka
    • H03M13/00
    • H04L1/0047H04L7/048
    • A communication apparatus realizes an FEC function. In the communication apparatus, a T_FEC-pattern comparing unit calculates a code distance between a pattern of an input FEC frame falling in a certain detection window and the pre-defined T_FEC pattern for each of the detection windows one after another. Moreover, a code-distance comparing unit compares the code distances with each other to detect a code for boundary identification T_FEC between an IEEE802.3 frame and a FEC parity. Finally, a boundary-signal generating unit generates, based on the detected code for boundary identification T_FEC, a T_FEC boundary signal that indicates a detection position of the T_FEC in the input FEC frame.
    • 通信装置实现FEC功能。 在通信装置中,T_FEC模式比较单元一个接一个地计算出落在特定检测窗口中的输入FEC帧的模式与每个检测窗口的预定T_FEC模式之间的码距离。 此外,码距比较单元将码距离相互比较,以检测IEEE802.3帧和FEC奇偶校验之间的边界识别码T_FEC的码。 最后,边界信号生成单元基于检测出的边界识别码T_FEC生成表示输入FEC帧中的T_FEC的检测位置的T_FEC边界信号。