To study the flying principle of micro-air vehicle (MAV), and to economize the test outlay of wind tunnel, the numerical simulation of MAV is introduced in this paper.
为了研究微型飞行器的飞行机理以及节约风洞实验资金,进行了微型飞行器的数值模拟方法研究。
The Swarming Micro Air Vehicle Network (SMAVNET) project comprises of robust, lightweight robots and software that allows the devices to wirelessly communicate with each other.
集群式的微型空中飞行器网络由耐用的轻质飞行器和软件组成。设备间可进行无线通信。
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。
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。
Micro air vehicle is a multidisciplinary system which integrates the technologies of aeronautical design, aeronautical manufacture, micro machinery, electronics and high capability digital computer.
微型飞行器是集航空设计、航空制造、微机械、电子、高性能数字计算机于一体的多学科交叉的综合系统。
Future mini-aircrafts, such as Micro air Vehicle (MAV) and Nano-satellite, requires RF front-end modules with functional complexity, high density and low power consumption.
随着微型无人机、微纳卫星的出现,迫切需要功能更强、集成度更高、功耗更低的微型集成射频模块。
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。
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。
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