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    • 63. 发明授权
    • 3D image based alignment method
    • 基于3D图像的对准方法
    • US09341859B2
    • 2016-05-17
    • US13543356
    • 2012-07-06
    • Naoki SumiSatoru Takahashi
    • Naoki SumiSatoru Takahashi
    • G01B11/25G01B11/255G02B27/60H04N13/04G02B27/22
    • G02B27/60G02B27/2214H04N13/31H04N13/327
    • An alignment method applied to a barrier-type 3D display includes providing a 3D alignment device at least comprising an image capture tool and an alignment shift analysis software; disposing a display panel with a barrier laminated thereon in the 3D alignment device; presenting a display and a barrier alignment check patterns on the display panel and the barrier; the image capture tool capturing an image of a moiré pattern generated by the display and the barrier alignment check patterns; analyzing the image of the moiré pattern by the alignment shift analysis software, and determining at least three measurement points of the image of the moiré pattern; calculating position shift for each measurement point and rotation angle between display panel and barrier by the alignment shift analysis software; and adjusting corresponding position between display panel and barrier if the calculation results exceed predetermined alignment errors.
    • 应用于障壁型3D显示器的对准方法包括提供至少包括图像捕获工具和对准移位分析软件的3D对准装置; 在3D对准装置中设置层叠有阻挡层的显示面板; 在显示面板和屏障上呈现显示和屏障对准检查图案; 图像捕获工具捕获由显示器产生的莫尔图案和屏障对准检查图案; 通过对准偏移分析软件分析莫尔图案的图像,以及确定莫尔图案的图像的至少三个测量点; 通过对准移位分析软件计算每个测量点的位移和显示面板与屏障之间的旋转角度; 并且如果计算结果超过预定的对准误差,则调整显示面板与屏障之间的对应位置。
    • 65. 发明申请
    • COMMUNICATION CONTROL APPARATUS AND COMMUNICATION CONTROL METHOD
    • 通信控制装置和通信控制方法
    • US20150117465A1
    • 2015-04-30
    • US14365782
    • 2012-11-07
    • Kazuki HamadaKenji KitayamaKazunori WashioSatoru Takahashi
    • Kazuki HamadaKenji KitayamaKazunori WashioSatoru Takahashi
    • H04L12/911B66B1/34
    • H04L47/826B66B1/3446H04L1/0086H04L67/12H04L67/325H04L69/324
    • A communication control apparatus includes a high-reliability-signal transmission and reception control unit configured to perform control for continuously transmitting the high-reliability signal a specified number of times according to transmission timing specified within a transmission period, a transmission scheduler unit configured to calculate, on the basis of the specified transmission timing, a free time in which the high-reliability signal is not transmitted, and a non-high-reliability-signal transmission and reception control unit configured to perform, when the non-high-reliability signal cannot be transmitted within the free time, control for dividing the non-high-reliability signal into a size transmittable in the free time and transmitting the non-high-reliability signal as two or more packets. The transmission scheduler unit transmits the high-reliability signal at the specified transmission timing and transmits the divided non-high reliability signal in the free time.
    • 一种通信控制装置,包括:高可靠性信号发送接收控制部,其被配置为根据在发送期间内指定的发送定时,连续发送指定次数的高可靠性信号的控制;发送调度部, 基于规定的发送定时,不发送高可靠性信号的空闲时间,以及非高可靠性信号发送接收控制部,其在非高可靠性信号 不能在空闲时间内发送,控制将非高可靠性信号分割成在空闲时间内可传送的大小,并将非高可靠性信号作为两个或更多个分组发送。 发送调度器单元以规定的发送定时发送高可靠性信号,并在空闲时间发送分割的非高可靠性信号。
    • 66. 发明申请
    • DC FEEDER VOLTAGE CONTROL APPARATUS AND DC FEEDER VOLTAGE CONTROL SYSTEM
    • 直流供电电压控制装置和直流供电电压控制系统
    • US20150027838A1
    • 2015-01-29
    • US14373781
    • 2012-12-06
    • Kenji UedaToshihiro WadaYasushi MatsumuraSatoru TakahashiToshiyuki Katsurayama
    • Kenji UedaToshihiro WadaYasushi MatsumuraSatoru TakahashiToshiyuki Katsurayama
    • B60M3/02H02J1/00
    • B60M3/02H02J1/00
    • A DC feeder voltage control apparatus includes a model-information storing unit storing train model information on each train running in a control section, substation model information on each substation, and feeding network model information in the control section, a fixed-voltage-value storing unit storing a fixed voltage value of a substation voltage set for each substation, a train-operation-state-information acquiring unit acquiring positions and operation state information on the trains running in the control section, a first-substation-voltage fixing unit outputting the fixed voltage value to two first substations located at both ends of the control section, and a second-substation-voltage calculating unit calculating a setting voltage value of the substation voltage in at least one second substation located between the two first substations based on the information, and substation voltages and substation currents of the first substations to output to the second substation.
    • 直流馈电电压控制装置包括:模型信息存储单元,存储在控制部中运行的各列的列车模型信息,各变电站的变电站模型信息,以及控制部中的馈送网络模型信息,固定电压值存储 单元,存储为每个变电站设定的变电站电压的固定电压值,列车运行状态信息获取单元获取关于在控制部分中运行的列车的位置和操作状态信息;第一变电站电压定影单元, 固定电压值分配给位于控制部分两端的两个第一变电站,以及第二变电压计算单元,基于信息计算位于两个第一变电站之间的至少一个第二变电站中的变电站电压的设定电压值 以及第一变电站的变电站电压和变电站电流以输出到第二变电站。
    • 67. 发明申请
    • SPEED PROFILE CREATION DEVICE AND AUTOMATIC TRAIN OPERATION APPARATUS
    • 速度轮廓创建装置和自动火车操作装置
    • US20140222259A1
    • 2014-08-07
    • US14350431
    • 2012-02-29
    • Koki YoshimotoSatoru TakahashiKenji Ueda
    • Koki YoshimotoSatoru TakahashiKenji Ueda
    • B61L27/00
    • B61L27/0027
    • A speed profile creation device includes: a traveling simulator that creates, from a traveling instruction, a speed profile of allowing the train to travel through a traveling section together with a traveling time and energy consumption amount thereof by using a route condition, train performance, and a traveling condition; a traveling instruction draft creator that creates a plurality of traveling instruction drafts in which a reference speed profile is changed so that the energy consumption amount can decrease though the traveling time is lengthened a little; an optimum speed profile selector that selects an optimum speed profile in which an energy consumption amount reduction effect is maximum among the plurality of traveling instruction drafts; and a reference speed profile updating unit that updates the reference speed profile until the traveling time of the optimum speed profile becomes equivalent to the target traveling time.
    • 速度轮廓创建装置包括:行驶模拟器,其通过使用路线条件,列车性能,从行驶指示,创建允许列车行驶通过行驶部分的行驶时间和能量消耗量的速度轮廓, 和旅行状况; 创建多个行驶指令草案的旅行指令草案创建者,其中改变参考速度分布,使得能量消耗量可以随着行进时间的延长而减少; 选择最佳速度曲线选择器,其选择在所述多个行驶指示牵引中能量消耗量减小效应最大的最佳速度曲线; 以及参考速度轮廓更新单元,其更新基准速度轮廓,直到最佳速度轮廓的行驶时间变得等于目标行驶时间。
    • 68. 发明授权
    • Safety control device for an elevator apparatus and operating method thereof
    • 电梯装置的安全控制装置及其操作方法
    • US08430212B2
    • 2013-04-30
    • US12937800
    • 2008-06-27
    • Takaharu UedaSatoru Takahashi
    • Takaharu UedaSatoru Takahashi
    • B66B1/34
    • B66B5/02B66B5/0031
    • An elevator apparatus includes a safety circuit section including a plurality of abnormality detection units, a safety control device, failure detection unit, and circuit changeover unit. The safety control device controls electric power supply to a driving device and a brake device in accordance with a content of an abnormality detected by the abnormality detection units. The failure detection unit detects a failure of the safety control device. When the failure of the safety control device is detected, the circuit changeover unit forms a failure-time circuit in which the electric power supply to the driving device and the brake device is interrupted directly by the abnormality detection unit.
    • 电梯装置包括安全电路部分,其包括多个异常检测单元,安全控制装置,故障检测单元和电路转换单元。 安全控制装置根据由异常检测单元检测到的异常的内容来控制对驱动装置和制动装置的电力供给。 故障检测单元检测安全控制装置的故障。 当检测到安全控制装置的故障时,电路切换单元形成故障时电路,其中驱动装置和制动装置的电力供应被异常检测单元直接中断。