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    • 2. 发明授权
    • Method and apparatus for measuring a vehicle seat H-point
    • 用于测量车辆座椅H点的方法和装置
    • US5456019A
    • 1995-10-10
    • US230477
    • 1994-04-20
    • Robert J. DowellJoseph A. Hamilton
    • Robert J. DowellJoseph A. Hamilton
    • G01B5/00G01B5/004G01B5/25
    • G01B5/0025G01B5/004
    • A method and apparatus for measuring the coordinates of a vehicle seat hip pivot axis, or H-point, including a vehicle seat assembly (10) supported on a support structure (30). The support structure (30) having x and z coordinate grid lines and an alignment pick-up bar (82) for aligning the seat (10) along predetermined x and z coordinate grid lines. A seat occupant simulating manikin (32) is positioned on the seat (10) for defining the vehicle seat hip pivot axis. Measuring device (92) for aligning and measuring the hip pivot axis, or H-point, includes a guide (120) fixedly supported at predetermined x,z coordinates on the support structure (30) for guiding a housing member (94) along an x-axis. A telescoping member (96) slidably extends from the housing member (94) along a y-axis and a measuring pointer (108) extends from the telescoping member (96) along a z-axis to align with and measure the hip pivot axis, or H-point, on the manikin.
    • 一种用于测量车辆座椅髋部枢转轴线或H点的坐标的方法和装置,包括支撑在支撑结构(30)上的车辆座椅组件(10)。 具有x和z坐标网格线的支撑结构(30)和用于沿着预定的x和z坐标网格线对准座(10)的对准拾取杆(82)。 模拟人体模型(32)的座椅乘员被定位在座椅(10)上,用于限定车辆座椅髋部枢转轴线。 用于对准和测量髋部枢转轴线或H点的测量装置(92)包括固定地支撑在支撑结构(30)上的预定x,z坐标处的引导件(120),用于沿壳体构件(94)引导壳体构件 x轴。 伸缩构件(96)沿着y轴从壳体构件(94)可滑动地延伸,并且测量指针(108)沿着z轴从伸缩构件(96)延伸以对准和测量髋部枢转轴线, 或H点,在人体模型。
    • 6. 发明授权
    • Global visualization process (GVP) and system for implementing a GVP
    • 全球可视化过程(GVP)和实施GVP的系统
    • US07239311B2
    • 2007-07-03
    • US10255413
    • 2002-09-26
    • Richard S. DunnWalter P. Gatewood, Jr.Wayne ErchakDonald JacksonChristopher S. AllportJoseph A. Hamilton
    • Richard S. DunnWalter P. Gatewood, Jr.Wayne ErchakDonald JacksonChristopher S. AllportJoseph A. Hamilton
    • G06T15/00G06T17/00
    • G06T17/05G06T19/003G06T2210/36
    • A system and process that incorporates hardware and software as elements to be combined with procedures and processes to obtain, format, store, combine, control, display, record, and visualize dynamic scenarios by interacting with accurate, realistic models and actual events within, on, and above a three-dimensional surface to be observed or modeled. One application provides a user-manipulated large-scale dynamic display of systems testing in a real world environment for real time visualization by test personnel. The Global Visualization Process (GVP) system is an integrated software solution for high-performance visualization. GVP software and process is capable of displaying extremely high resolution terrain models and imagery in real time over the entire surface of the planet, as well as a large number of moving entities and their associated graphical models. The system can display imagery at 2 cm/pixel, and infinitely detailed terrain in real time over the whole surface of a planet. All displayed data is referenced to the World Geodetic System 1984 (WGS-84) ellipsoid for true round-earth effects, and can be rendered in correct asymmetric stereo. These features, combined with a network application progamming interface (API), make GVP suitable for flight simulation out-the-window displays, command and control scenarios, and mission review or rehearsal.
    • 将硬件和软件作为要素组合的系统和过程,与程序和过程相结合,以通过与准确,现实的模型和实际事件进行交互来获取,格式化,存储,组合,控制,显示,记录和可视化动态场景 ,以及待观察或建模的三维表面以上。 一个应用程序提供用户操纵的大规模动态显示在现实世界环境中的系统测试,由测试人员进行实时可视化。 全球可视化过程(GVP)系统是用于高性能可视化的集成软件解决方案。 GVP软件和过程能够在地球的整个表面以及大量移动实体及其相关的图形模型上实时显示极高分辨率的地形模型和图像。 该系统可以在地球的整个表面上实时显示2厘米/像素的图像和无限细节的地形。 所有显示的数据参考世界大地测量系统1984(WGS-84)椭圆体,用于真正的圆球效应,并且可以以正确的非对称立体声渲染。 这些功能与网络应用程序编程接口(API)相结合,使GVP适用于飞行模拟窗外显示,命令和控制场景以及任务回顾或排练。