Adaptive Neuro-Fuzzy Inference Systems for Wideband Signal Recovery in a Noise-Limited Environment

2007 IEEE International Fuzzy Systems Conference Pub Date : 2007-07-23 DOI:10.1109/FUZZY.2007.4295461

C. Tseng, M. Cole

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引用次数: 4

Abstract

A neuro-fuzzy detector in the continuous wavelet transform (CWT) domain is developed to enhance the performance of wideband acoustic signal detection in a noise-limited environment. The aim of the detector is to determine the motion parameters (radial range and velocity) of moving targets in active wideband sonar echolocation system at very low signal-to-noise ratio (SNR). The detection is based oh time-scale and time-delay of the received echo. The fuzzy detector is composed of two parts: noise reduction based on the adaptive noise cancelling (ANC) concept, and motion parameters estimation based on the correlation process. Using learning intelligent systems named adaptive neuro-fuzzy inference systems (ANFIS), noise embedded in the return signal is minimized which improves the output SNR. The resultant signal is then proceeded by a similarity measurement technique known as the wideband cross correlation process equivalent to the CWT operation for determining the motion parameters. Simulation results demonstrate that the neuro-fuzzy detector is effective in accurately predicting the motion parameters with less than 0.2% false target detection rate.

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限噪环境下宽带信号恢复的自适应神经模糊推理系统

为了提高噪声受限环境下宽带声信号的检测性能，提出了一种连续小波变换域的神经模糊检测器。在低信噪比的有源宽带声纳回波定位系统中，探测器的目的是确定运动目标的运动参数(径向距离和速度)。该检测基于接收回波的时间尺度和时延。该模糊检测器由两部分组成:基于自适应消噪(ANC)概念的降噪和基于相关过程的运动参数估计。采用自适应神经模糊推理系统(ANFIS)作为学习智能系统，将返回信号中的噪声最小化，提高了输出信噪比。由此产生的信号然后通过一种相似度测量技术进行处理，这种技术被称为宽带互相关过程，相当于用于确定运动参数的CWT操作。仿真结果表明，神经模糊检测器能够准确预测运动参数，假目标检测率小于0.2%。

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2007 IEEE International Fuzzy Systems Conference

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