Design of Estimator for Computing Yaw and Pitch for a Twin Rotor MIMO system

K. Santhosh, P. Mohanthy
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Abstract

Performance of any system is identified through the observation of significant system parameters. Required parameters have to be measured using suitable sensors. But in some scenarios, it is difficult to measure some of the parameters due to issues in the placement of sensors. In such cases, estimators are developed to measure the parameters indirectly. In this paper, an attempt is made to develop an estimator to monitor the value of pitch and yaw of a twin-rotor multi input multi output system. The observer is developed using two methods one using Luenberger’s equations and the other using an Artificial Neural Network (ANN). For training the neural network model, the backpropagation algorithm is used. Tests have been conducted to analyze and compare the behavior of both observers. From the results, it is evident that a Luenberger observer performs better when sufficient system information is available and ANN observer performs better when inadequate system information is available
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双转子MIMO系统偏航和俯仰估计器设计
任何系统的性能都是通过观察重要的系统参数来识别的。必须使用合适的传感器测量所需的参数。但在某些情况下,由于传感器的放置问题,很难测量一些参数。在这种情况下,估计量被开发为间接测量参数。本文试图开发一种估计器来监测双转子多输入多输出系统的俯仰和偏航值。观测器使用两种方法开发,一种使用Luenberger方程,另一种使用人工神经网络(ANN)。为了训练神经网络模型,使用了反向传播算法。已经进行了测试来分析和比较两个观察者的行为。从结果中可以明显看出,当有足够的系统信息可用时,Luenberger观测器表现更好,而当有不充分的系统信息时,ANN观测器表现更好
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来源期刊
International Journal of Mechanics
International Journal of Mechanics Engineering-Computational Mechanics
CiteScore
1.60
自引率
0.00%
发文量
17
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