Neural-Based Model of Spiral Antenna Radiation Patterns for Detection of Angle of Arrival

IEEE International Workshop on Antenna Technology Small Antennas and Novel Metamaterials, 2006. Pub Date : 2006-03-06 DOI:10.1109/IWAT.2006.1609049

P. Salem, Chen Wu, M. Yagoub

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Abstract

Neural networks have been continually growing in popularity and have been utilized in many new fields and applications. The neural network technique can replace the traditional 'look-up table' in electronic support (ES) receivers (1). In this paper, neural networks were implemented to model the desired spiral antenna radiation patterns. These spiral antennas are used in ES payload for ultra wideband (UWB) applications. It is not possible or practical to measure spiral antenna radiation patterns at all the radiation angles due to the limitation of time. Thus, in this paper we present a neural network that can model the measured antenna patterns of two adjacent ultra-wide bandwidth spiral antennas. Thus the amplitude and phase of the spiral antenna radiation field at a given radiation direction can be predicted based on the knowledge of polarization, frequency, elevation angle (�), and azimuth angle (�). Using polarization, frequency, and the ratio of adjacent antenna received powers as inputs, a neural network was built to predict the angle of arrival (AOA) of an incoming wave.

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基于神经网络的螺旋天线辐射方向图到达角检测模型

神经网络越来越受欢迎，并在许多新的领域和应用中得到了应用。神经网络技术可以取代传统的电子支持(ES)接收机中的“查找表”(1)。在本文中，实现了神经网络来模拟所需的螺旋天线辐射方向图。这些螺旋天线用于超宽带(UWB)应用的ES有效载荷。由于时间的限制，测量螺旋天线在所有辐射角的辐射方向图是不可能的，也是不现实的。因此，在本文中，我们提出了一个神经网络，可以模拟两个相邻的超宽带螺旋天线的测量天线方向图。这样就可以根据极化、频率、仰角和方位角的信息预测螺旋天线辐射场在给定辐射方向上的幅值和相位。以极化、频率和相邻天线接收功率的比值为输入，建立神经网络来预测入射波的到达角。

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IEEE International Workshop on Antenna Technology Small Antennas and Novel Metamaterials, 2006.

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