1) carriage and track of the bodywork
车身姿态与轨迹
1.
The movement of vehicle is a kind of complex dynamic process, so it is of great significance to measure the carriage and track of the bodywork and wheel force in multi-direction for researching and estimating the dynamic performance of the vehicle, such as braking (including swerve), suspension, navigation stability and road profile collecting.
依托本课题组承担的江苏省交通科学研究计划项目《车辆安全性能评价及检测装置研究》(项目编号:05C02),以设计开发一种便携式的汽车道路试验数据采集及分析系统为目的,本文研究了多传感器测量技术原理和采集方案,设计了车身姿态与轨迹测量方法、数据采集装置等硬件及相关软件,并组成系统在汽车道路试验中得以应用,验证了系统设计的正确性和可靠性。
2) orbit and attitude control
轨道与姿态控制
1.
The system built a 3-D model of satellite by software LightWave, and developed a new orbit and attitude control module by the interface between STK and Matlab.
该仿真系统采用建模软件LightWave建立卫星三维模型,利用STK/Matlab模块提供的接口功能,开发新的轨道与姿态控制模块,为用户定制的轨道与姿态控制方案提供仿真、验证和演示。
3) claim trajectory with gesture claim
有姿态要求的轨迹
4) track-pose simulation model
轨迹-姿态仿真模型
5) attitude of bodywork
车身姿势
6) well track
井身轨迹
1.
Geologic steering of the horizontal well drilling is the real-time monitoring technique for realizing the geologic steering of the horizontal well drilling based on reservoir prediction and through geologic and engineering parameters measurement, this technique is quite suitable for horizontal well track control, especially drilling in the thin oil-gas layers of the complicated fault blocks.
水平井钻井地质导向技术建立在储集层预测基础上,通过对地质与工程参数的测量来实现水平井井身轨迹控制的实时监控,它尤其适用于复杂断块薄油气层的水平井井身轨迹控制。
2.
This paper expresses the change regulation of directional well track by establishing a mathematical model of well tracks and adopting the average angle method to program out true vertical depth, bottom coordinates and dogleg angle.
通过建立井身轨迹数学模型,采用平均角法进行程序设计,计算出垂深、地下坐标、狗腿等数据,得到井身的变化规律。
补充资料:车身主动控制系统
ABC-车身主动控制系统Active Body Control,ABC系统使汽车对侧倾、俯仰、横摆、跳动和车身高度的控制都能更加迅速、精确。车身的侧倾小,车轮外倾角度变化也小,轮胎就能较好地保持与地面垂直接触,使轮胎对地面的附着力提高,以充分发挥轮胎的驱动制动作用。而ABC的出现克服了悬挂设定舒适性和操控性之间的矛盾,最大限度地接近消费者对车辆在这两方面的要求。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条