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    • 1. 发明申请
    • Automatically adjusting head restraint system
    • 自动调节头枕系统
    • US20060250016A1
    • 2006-11-09
    • US11121832
    • 2005-05-04
    • Jenne-Tai WangDorel SalaGary JonesJoseph McCleary
    • Jenne-Tai WangDorel SalaGary JonesJoseph McCleary
    • A47C1/10
    • B60N2/002B60N2/0232B60N2/809B60N2/838
    • A headrest positioning system for automatically adjusting the position of a headrest of a vehicle seat. The headrest can be a power headrest that is part of a power seat system, where the position of the headrest can be preset by a seat occupant with the other positions of the seat in a memory function. The system includes a seat occupant sensing system that senses the position of the seat occupant's head, eyes or other facial features to determine a desired position of the headrest. The system compares the actual position of the headrest to the desired position, and automatically adjusts the position of the headrest to the desired position. In one embodiment, an imaging system determines the position of the seat occupant's head. In another embodiment, the system determines the position of seat occupant's eyes based on the position of the driver side mirror.
    • 一种用于自动调节车辆座椅的头枕位置的头枕定位系统。 头枕可以是动力头枕,其是动力座椅系统的一部分,其中头枕的位置可以由座椅乘员预设,座椅的其他位置在记忆功能中。 该系统包括座椅乘员感测系统,其感测座椅乘员的头部,眼睛或其他面部特征的位置以确定头枕的期望位置。 该系统将头枕的实际位置与所需位置进行比较,并自动将头枕的位置调整到所需位置。 在一个实施例中,成像系统确定座椅乘员头部的位置。 在另一个实施例中,系统基于驾驶员侧视镜的位置来确定座椅乘员的眼睛的位置。
    • 3. 发明申请
    • Synchronized rear vision system
    • 同步后视系统
    • US20060158757A1
    • 2006-07-20
    • US11220465
    • 2005-09-07
    • Jenne-Tai WangDorel SalaKioumars Paryani
    • Jenne-Tai WangDorel SalaKioumars Paryani
    • G02B7/182
    • B60R1/025
    • A synchronized rear vision system for a vehicle includes a pair of external side rearview mirrors for attachment to the vehicle and an interior rearview mirror for attachment to the vehicle. The synchronized rear vision system also includes a system master controller for detecting an instantaneous position of one of the side rearview mirrors and calculating position output signals for at least another one of the side rearview mirrors and the interior rearview mirror to automatically position at least the another one of the side rearview mirrors and the interior rearview mirror based on the instantaneous position. The synchronized rear vision system may include a controller to readjust the position of the rearview mirrors based on a position of a driver seat of the vehicle.
    • 用于车辆的同步后视系统包括用于附接到车辆的一对外侧后视镜和用于附接到车辆的内部后视镜。 同步的后视系统还包括系统主控制器,用于检测侧后视镜中的一个后视镜的瞬时位置,并计算至少另一个侧后视镜和内后视镜的位置输出信号,以自动定位至少另一个 一个后视镜和内部后视镜基于瞬时位置。 同步的后视系统可以包括控制器,其基于车辆的驾驶员座位的位置来重新调整后视镜的位置。
    • 5. 发明授权
    • Performance-based classification method and algorithm for drivers
    • 基于性能的驱动程序分类方法和算法
    • US08606465B2
    • 2013-12-10
    • US12604595
    • 2009-10-23
    • Jenne-Tai WangMark O. NealChin-Hsu LinBing DengDorel M. Sala
    • Jenne-Tai WangMark O. NealChin-Hsu LinBing DengDorel M. Sala
    • B60R22/00E05F15/00G05D1/00
    • B60R21/01B60R2021/003B60R2021/006
    • A system and method for classifying the optimization of safety features on a vehicle for a driver of the vehicle based on the height and mass of the driver. The method includes determining a number of basic driver sizes based on driver height and mass and determining a driver's seat position for each basic driver height. The method also identifies a set of tunable design variables that are used to adjust the safety features of the vehicle and performs design optimization analysis to identify an optimal design for the vehicle safety features for each of the basic driver sizes. The method then identifies the design from the optimal designs that provides the best performance for randomly selected reference drivers and classifies all drivers into a predetermined number of classifications where each classification represents a particular optimal design.
    • 一种用于基于驾驶员的高度和质量对用于车辆驾驶员的车辆的安全特征进行优化的分类的系统和方法。 该方法包括基于驾驶员的高度和质量来确定基本驾驶员的数量,并确定每个基本的驾驶员高度的驾驶员的座位位置。 该方法还识别一组可调整的设计变量,用于调整车辆的安全特征,并执行设计优化分析,以确定每个基本驾驶员尺寸的车辆安全特征的最佳设计。 然后,该方法从最佳设计中识别设计,为随机选择的参考驱动程序提供最佳性能,并将所有驱动程序分类为预定数量的分类,其中每个分类表示特定的最佳设计。
    • 7. 发明授权
    • Adaptive load-limiting seat belt buckle presenter
    • 自适应负载限制安全带扣提示器
    • US07997620B1
    • 2011-08-16
    • US12720717
    • 2010-03-10
    • Ke DongJenne-Tai WangTito R. Huffman
    • Ke DongJenne-Tai WangTito R. Huffman
    • B60R22/20
    • B60R22/03B60R22/28B60R2022/1806B60R2022/288
    • An adaptive load-limiting seat belt buckle presenter includes a plow assembly movable within a tube and connected to the buckle by cables. Movement of the plow assembly presents the buckle at various positions relative to the occupant. The plow assembly has a plurality of plow elements that engage with the tube to plow troughs in the tube when an occupant restraining load moves the plow assembly within the tube. A plow actuator mechanism selects a number of the plurality of plow elements to be engaged or not engaged with the tube to thereby adapt the load-limiting capability of the presenter. A controller and various sensors cooperate to operate an adjusting motor for translating the plow assembly within the tube to present the buckle at a desired position and to also operate a rotary actuator to select the number of plow elements that will be engaged or not engaged.
    • 适应性限位安全带带扣呈现器包括可在管内移动并通过电缆连接到带扣的犁组件。 犁组件的运动在相对于乘员的各种位置处呈现带扣。 犁组件具有多个犁部件,当占用者约束载荷使犁组件在管内移动时,该犁部件与管接合以在管中犁槽。 犁致动器机构选择要与管接合或不与管接合的多个犁部件的数量,从而适应施主的负荷限制能力。 控制器和各种传感器协同操作调节电动机,用于在管内平移犁组件以将带扣呈现在期望的位置,并且还操作旋转致动器以选择将被接合或未接合的犁部件的数量。
    • 9. 发明申请
    • PERFORMANCE-BASED CLASSIFICATION METHOD AND ALGORITHM FOR DRIVERS
    • 基于性能的分类方法和驱动程序的算法
    • US20100121535A1
    • 2010-05-13
    • US12604595
    • 2009-10-23
    • Jenne-Tai WangMark O. NealChin-Hsu LinBing DengDoral M. Sala
    • Jenne-Tai WangMark O. NealChin-Hsu LinBing DengDoral M. Sala
    • G06F17/00
    • B60R21/01B60R2021/003B60R2021/006
    • A system and method for classifying the optimization of safety features on a vehicle for a driver of the vehicle based on the height and mass of the driver. The method includes determining a number of basic driver sizes based on driver height and mass and determining a driver's seat position for each basic driver height. The method also identifies a set of tunable design variables that are used to adjust the safety features of the vehicle and performs design optimization analysis to identify an optimal design for the vehicle safety features for each of the basic driver sizes. The method then identifies the design from the optimal designs that provides the best performance for randomly selected reference drivers and classifies all drivers into a predetermined number of classifications where each classification represents a particular optimal design.
    • 一种用于基于驾驶员的高度和质量对用于车辆驾驶员的车辆的安全特征进行优化的分类的系统和方法。 该方法包括基于驾驶员的高度和质量来确定基本驾驶员的数量,并确定每个基本的驾驶员高度的驾驶员的座位位置。 该方法还识别一组可调整的设计变量,用于调整车辆的安全特征,并执行设计优化分析,以确定每个基本驾驶员尺寸的车辆安全特征的最佳设计。 然后,该方法从最佳设计中识别设计,为随机选择的参考驱动程序提供最佳性能,并将所有驱动程序分类为预定数量的分类,其中每个分类表示特定的最佳设计。
    • 10. 发明授权
    • Vehicle hood assembly with rippled cushion support
    • 车罩组件,带有波纹垫片支撑
    • US07635157B2
    • 2009-12-22
    • US11853238
    • 2007-09-11
    • Jenne-Tai WangBing DengQing ZhouQi LiuYong Xia
    • Jenne-Tai WangBing DengQing ZhouQi LiuYong Xia
    • B62D25/10
    • B62D25/105
    • An energy-absorbing hood assembly for a vehicle includes an inner layer operatively secured to an upper layer having a first interface surface. The inner layer has opposing first and second surfaces defining a sinusoidal profile that is oriented to extend from the forward end of the vehicle towards the rearward end of the vehicle. The sinusoidal profile includes varying amplitudes and wavelengths along different regions of the hood assembly. The amplitudes and wavelengths are individually configured to provide regionally distinct predetermined levels of absorption and attenuation of kinetic energy imparted to the hood assembly by an object upon impact therebetween. Preferably, the hood assembly also includes a lower layer having a second interface surface; wherein the inner layer has a plurality of bonding surfaces attached to the first and second interface surfaces to thereby define a plurality of laterally oriented channels.
    • 用于车辆的能量吸收罩组件包括可操作地固定到具有第一界面表面的上层的内层。 内层具有相对的第一和第二表面,其限定正弦曲线,其被定向成从车辆的前端朝向车辆的后端延伸。 正弦曲线包括沿着罩组件的不同区域的变化的幅度和波长。 幅度和波长被单独地构造成提供区域上不同的预定水平的吸收和衰减由物体在其间碰撞时赋予罩组件的动能。 优选地,罩组件还包括具有第二界面表面的下层; 其中所述内层具有附接到所述第一和第二界面表面的多个粘合表面,从而限定多个横向定向的通道。