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    • 3. 发明申请
    • Vehicle headlamp
    • 车头灯
    • US20070195543A1
    • 2007-08-23
    • US11705972
    • 2007-02-13
    • Atsushi SugimotoKiyotaka MochizukiNaohisa Tatara
    • Atsushi SugimotoKiyotaka MochizukiNaohisa Tatara
    • F21V1/00
    • B60Q1/076B60Q1/0094B60Q2300/112F21S41/43F21S41/698
    • A vehicle headlamp includes a lamp 110 having shade switching means 140 for providing a desired light distribution pattern by blocking a portion of light emitted from a light source. Light distribution pattern switching controlling means controls the shade switching means 140 in response to receipt of an instruction of switching a light distribution pattern of the lamp. Leveling means 130 controls deflection of an optical axis of the lamp in a vertical direction. The light distribution pattern switching controlling means controls the shade switching means 140 such that a cut line is formed by a height substantially the same as that of a cut line of high beam when an instruction of switching to a light distribution pattern of “remote optically recognizing beam” is received and controls the leveling means 130 such that the cut line is formed by a height of a cut line requested for “middle beam”.
    • 车辆前照灯包括具有灯罩切换装置140的灯110,用于通过阻挡从光源发射的光的一部分来提供期望的配光图案。 配光图案切换控制装置响应于接收到切换灯的配光图案的指令而控制色调切换装置140。 调平装置130控制灯的光轴在垂直方向上的偏转。 配光图案切换控制装置控制阴影切换装置140,使得当切换到“远程光学识别的配光图案”的指示时,切割线形成为与远光切割线基本相同的高度 梁“被接收并且控制调平装置130,使得切割线由”中间波束“所要求的切割线的高度形成。
    • 5. 发明授权
    • Vehicle headlamp
    • 车头灯
    • US07618173B2
    • 2009-11-17
    • US11705972
    • 2007-02-13
    • Atsushi SugimotoKiyotaka MochizukiNaohisa Tatara
    • Atsushi SugimotoKiyotaka MochizukiNaohisa Tatara
    • F21V7/00
    • B60Q1/076B60Q1/0094B60Q2300/112F21S41/43F21S41/698
    • A vehicle headlamp includes a lamp 110 having shade switching means 140 for providing a desired light distribution pattern by blocking a portion of light emitted from a light source. Light distribution pattern switching controlling means controls the shade switching means 140 in response to receipt of an instruction of switching a light distribution pattern of the lamp. Leveling means 130 controls deflection of an optical axis of the lamp in a vertical direction. The light distribution pattern switching controlling means controls the shade switching means 140 such that a cut line is formed by a height substantially the same as that of a cut line of high beam when an instruction of switching to a light distribution pattern of “remote optically recognizing beam” is received and controls the leveling means 130 such that the cut line is formed by a height of a cut line requested for “middle beam”.
    • 车辆前照灯包括具有灯罩切换装置140的灯110,用于通过阻挡从光源发射的光的一部分来提供期望的配光图案。 配光图案切换控制装置响应于接收到切换灯的配光图案的指令而控制色调切换装置140。 调平装置130控制灯的光轴在垂直方向上的偏转。 配光图案切换控制装置控制阴影切换装置140,使得当切换到“远程光学识别的配光图案”的指示时,切割线形成为与远光切割线基本相同的高度 梁“被接收并且控制调平装置130,使得切割线由”中间波束“所要求的切割线的高度形成。
    • 6. 发明申请
    • Lamp System For Vehicle
    • 汽车灯系统
    • US20080192496A1
    • 2008-08-14
    • US12025148
    • 2008-02-04
    • Kiyotaka MochizukiNaohisa Tatara
    • Kiyotaka MochizukiNaohisa Tatara
    • B60Q1/00
    • B60Q1/143B60Q2300/112B60Q2300/114B60Q2300/334B60Q2300/45F21S41/689
    • A vehicle lamp system includes lamps RHL and LHL. The lamp system can switch at least to a low beam distribution and a motorway light distribution. A light distribution switching control portion CONT for switching the light distribution based on operational information of the vehicle switches to the low beam distribution when it is determined that the vehicle speed is less than a predetermined speed in the motorway light distribution and a predetermined light distribution switching condition is satisfied. If presence of an obstacle is confirmed so as to apply a deceleration, it is possible to prevent the obstacle from being undetected by switching to the low beam distribution. Thus, it is possible to reliably keep away from the obstacle, thereby ensuring stable operation.
    • 车灯系统包括灯RHL和LHL。 灯系统可以至少切换到低光束分布和高速公路光分布。 在车道光分布中判定为车速低于预定速度时,基于车辆的操作信息切换配光的配光切换控制部CONT切换为近光分布,预定配光切换 条件满意 如果确定存在障碍物以施加减速度,则可以通过切换到近光分布来防止障碍物被检测不到。 因此,可以可靠地远离障碍物,从而确保稳定的操作。
    • 7. 发明申请
    • VEHICULAR LAMP SYSTEM
    • 车灯系统
    • US20090116259A1
    • 2009-05-07
    • US12257745
    • 2008-10-24
    • Hirohiko OhshioKiyotaka Mochizuki
    • Hirohiko OhshioKiyotaka Mochizuki
    • F21V14/00
    • F21S41/698
    • The light distribution of a vehicle headlamp can be changed between various modes, including a basic mode and a motorway mode. In the basic mode, shaded region changeover means block a high light intensity region, and deflection control means controls a lamp optical axis Lx to a straight travel direction. In the motorway mode, the shaded region changeover means does not block the high light intensity region, and the deflection control means controls deflection of the lamp optical axis to a host vehicle lane side. A light distribution in which the high light intensity region faces a far distance ahead of the host vehicle lane can be obtained, and the host vehicle lane is brightly illuminated without dazzling a driver of a preceding vehicle or an oncoming vehicle. Accordingly, illumination suited to the motorway mode during high speed and medium speed travel can be achieved.
    • 可以在各种模式之间改变车辆前照灯的光分布,包括基本模式和高速公路模式。 在基本模式中,阴影区域切换装置阻挡高光强度区域,并且偏转控制装置将灯光轴Lx控制到直线行进方向。 在高速公路模式中,阴影区域切换装置不阻挡高光强度区域,偏转控制装置控制灯光轴向主车辆车道侧的偏转。 可以获得其中高光强区域面对主车道前方远的距离的配光,并且主车辆车道被明亮地照亮,而不会使前方车辆或迎面而来的车辆的驾驶员眩目​​。 因此,可以实现在高速和中速行驶期间适合于高速公路模式的照明。
    • 8. 发明授权
    • Graphic method
    • 掩膜层的制备方法
    • US06535222B1
    • 2003-03-18
    • US09535247
    • 2000-03-27
    • Kiyotaka Mochizuki
    • Kiyotaka Mochizuki
    • G09G500
    • G06F17/5068G06T7/70G06T2207/30148Y10S438/942
    • A graphic method for preparing a surface map used to synthesize a masking layer. The proposed structures on a semiconductor surface are mapped as trapezoidal figures on a numerical grid. The first grouping step groups trapezoids into a plurality of groups based on Ymin, and groups are then internally sorted based on Xmin. A to-be-judged group is selected. A intra-group judging step uses a trapezoid as a to-be-judged figure in order of sorting, and trapezoids sorted after the to-be-judged trapezoid as a to-be-compared figures successively in order of sorting, determining if there is intersection and if so incrementally moving the to-be-compared figure, and repetitively executing an intersection judgment processing until there is no intersection or until the to-be-compared figure disappears. An inter-group judging step for using any one of said group sorted before the group-to-be-judged as a to-be-compared group in order of sorting, comparing the Y-values of the lower sides of the trapezoids in the group-a to-be-judged with a maximum Y-coordinate value (Ymax) of a trapezoid in the group-to-be-compared, and executing the intersection judgment processing, and incremental moving, between the trapezoid to be judged and the trapezoid to be compared only when the Y-value of the lower side is smaller than the Ymax. The process is from the step of selecting a group to be judged until there is no group remaining to be judged.
    • 用于制备用于合成掩模层的表面图的图形方法。 半导体表面上提出的结构被映射为数字网格上的梯形图。 第一个分组步骤基于Ymin将梯形组合成多个组,然后基于Xmin对组进行内部排序。 选择待判断的组。 组内判断步骤按照分类顺序使用梯形作为待判断图形,并且将待判断梯形后的梯形作为待比较的数据依次排列顺序排列,确定是否存在 是交叉点,如果是增量移动待比较的图形,并且重复执行交叉点判断处理,直到没有交点或直到待比较的图形消失。 一种组间判断步骤,用于按照排序顺序,将被判断组之前排序的所述组中的任一个排序为待比较组,比较所述梯形的下侧的Y值 在要比较的组中的梯形的最大Y坐标值(Ymax)被判断的组,并且执行所判断的梯形和所判断的梯形之间的交叉判断处理和增量移动 梯形仅在下侧的Y值小于Ymax时进行比较。 该过程来自选择要判断的组的步骤,直到没有组被判断为止。
    • 9. 发明授权
    • Headlamp aiming system
    • 前照灯瞄准系统
    • US08480270B2
    • 2013-07-09
    • US12996006
    • 2009-05-27
    • Kiyotaka Mochizuki
    • Kiyotaka Mochizuki
    • B60Q1/08
    • B60Q1/085B60Q1/076B60Q2200/38G01M11/062G01M11/065G01M11/068
    • A headlamp aiming system is configured to include: a lamp unit; an actuator configured to displace the light axis of the lamp unit; an imaging apparatus configured to acquire the information necessary for adjustment of the light axis; and an ECU configured to control the actuator. By imaging a light distribution pattern formed by lighting the lamp unit with the imaging apparatus, and by controlling the actuator by the ECU such that the deviation between the position of an attention point in a light distribution pattern, obtained from the imaged image information, and the position of a reference point that has been set beforehand becomes the minimum or zero, an attitude of the lamp unit is adjusted such that aiming of the lamp unit can be automatically performed in a self-contained manner.
    • 前照灯瞄准系统被配置为包括:灯单元; 致动器,被配置为移动灯单元的光轴; 成像装置,被配置为获取调整所述光轴所需的信息; 以及被配置为控制致动器的ECU。 通过对由成像装置照明灯单元而形成的配光图案进行成像,并且通过由ECU控制致动器,使得从成像图像信息获得的配光图案中的注意点的位置与第 预先设定的基准点的位置变为最小或为零,调节灯单元的姿态,使得能够以独立的方式自动执行灯单元的瞄准。
    • 10. 发明授权
    • Parallel graphic processing system using a network
    • US6008822A
    • 1999-12-28
    • US316391
    • 1999-05-21
    • Masahiro YumotoKiyotaka MochizukiSatoshi AkutagawaYasufumi Ishihara
    • Masahiro YumotoKiyotaka MochizukiSatoshi AkutagawaYasufumi Ishihara
    • G06T1/20G06T1/60
    • G06T1/20
    • A graphic processing system for accomplishing high-speed processing of data conversion processing by effectively utilizing file information of input graphic data to improve processing efficiency of data processing inside blocks, and by optimizing block division. This system includes a processing portion for dividing input graphic data in a block unit and executing conversion processing of the graphic data to mask production data, and a storage portion having an optimization condition file for storing the input data information, optimization information of the graphic data to be divided by the processing portion, processing result information, etc, capable of updating and registering the optimization information, and comprises the steps of executing graphic processing by utilizing file data when graphic data existing inside the block is approximate to the graphic data information registered to the optimization condition file; scanning the graphic data inside the block so as to judge whether or not the quantity of the graphic data inside the block exceeds a memory capacity in the processing portion for executing the conversion processing, and to judge the density and the property of the graphic data when the graphic data is not approximate to the graphic data information; and dividing the graphic data into optimum blocks so that the data quantity becomes the quantity that can be processed by the processing portion; and storing the divided information, the input graphic data information and the processing result information.