1·A gyrocompass is required to indicate the heading of a land, sea, or air vehicle.
陀螺被用来指示陆上的、海上的或空中的运动体的方向。
2·Additional payloads will be integrated into the air vehicle and control segment in the future.
未来,还会有其他载荷被集成到无人机和控制部分中。
3·A computer-vision-based runway obstacle detection scheme for an unmanned combat air vehicle(UCAV) was presented.
提出了基于视觉的无人作战飞机跑道障碍物检测方案。
4·In the meantime, a little more than a year after having started it, NASA quietly dropped its personal air vehicle programme.
与此同时,在启动一年多后,国家航天和航空管理局悄悄地放弃了它的个人航空器项目。
5·The detection probability calculating method about low pulse repetition frequency(LPRF) PD radar against air vehicle is studied.
提出了低脉冲重复频率(LPRF)PD雷达探测飞行器目标的发现概率计算方法。
6·Results of wind tunnel test provide technology support for application of wing with wing-blade in flapping-wing micro air vehicle.
研究结果可为带翼刀机翼在扑翼飞行器上的应用提供技术支持。
7·Phase II, which started in March, is a six-month, $636,000 program to demonstrate a rudimentary, 3-inch flapping-wing air vehicle system.
从2008年3月开始的第二阶段,该公司将利用6个月时间和63.6万美元对这种3英寸扑翼飞行器系统进行论证。
8·A new technology of airspeed meter of micro air vehicle based on micro difference pressure senso, micro amplifier and DSP is introduced.
介绍了一种采用微差压传感器、微型放大器、微功耗数字信号处理器(DSP)设计的新型微型飞行器空速计。
9·To get the data of the micro air vehicle (MAV) 's attitude in true flight, the data transmit and receive equipment is the key technology.
要实现在真实飞行情况下对微型飞行器姿态等数据的测量,数据的无线收发是其关键技术。
10·A model is built based on support vector machine (SVM) for predicting the military unmanned air vehicle (UAV) development cost prediction.
应用支持向量机建立了军用无人机研制费用预测模型,并采用该模型对某型军用无人机研制费用进行了预测。