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Smart flight control surfaces with microelectromechanical systems

机译:具有微机电系统的智能飞行控制表面

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Pitch, roll, and yaw moments can be developed by deflecting and changing the geometry of control surfaces. In this paper, smart flight control surfaces are designed using multi-node microelectromechanical systems (MEMS) to displace control surfaces and change the surface geometry. These MEMS augment translational motion microstructures (actuators-sensors), controlling/signal processing integrated circuits (ICs), radiating energy devices and antennas. The desired pitch, roll, and yaw moments are produced, drag can be reduced, and unsteady aerodynamic flows are controlled by smart flight control surfaces. That is, we achieve aerodynamic moment and active flow control capabilities. The major objective here is to report fundamental and applied research in design of smart flight control surfaces with MEMS-based actuator-sensor-IC arrays controlled by hierarchical distributed systems. We demonstrate the feasibility and effectiveness of the application of smart flight control surfaces for coordinated longitudinal and lateral vehicle control
机译:可以通过偏转和改变控制面的几何形状来产生俯仰,横滚和偏航力矩。在本文中,智能飞行控制表面是使用多节点微机电系统(MEMS)设计的,以放置控制表面并更改表面几何形状。这些MEMS增强了平移运动微结构(执行器-传感器),控制/信号处理集成电路(IC),辐射能设备和天线。产生所需的俯仰,侧倾和偏航力矩,可以减少阻力,并且通过智能飞行控制表面控制不稳定的空气动力学流量。也就是说,我们实现了气动力矩和主动流量控制功能。本文的主要目的是报告在智能飞行控制面设计中的基础研究和应用研究,这些研究由分层分布式系统控制的基于MEMS的执行器-传感器-IC阵列构成。我们展示了智能飞行控制面用于协调纵向和横向飞行器控制的可行性和有效性

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