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多层感知器在信号检测与分类中的性能评估

Performance evaluation of multilayer perceptrons in signal detection and classification.

作者信息

Michalopoulou Z H, Nolte L W, Alexandrou D

机构信息

Dept. of Electr. Eng., Duke Univ., Durham, NC.

出版信息

IEEE Trans Neural Netw. 1995;6(2):381-6. doi: 10.1109/72.363473.

Abstract

Multilayer perceptrons trained with the backpropagation algorithm are tested in detection and classification tasks and are compared to optimal algorithms resulting from likelihood ratio tests. The focus is on the problem of one of M orthogonal signals in a Gaussian noise environment, since both the Bayesian detector and classifier are known for this problem and can provide a measure for the performance evaluation of the neural networks. Two basic situations are considered: detection and classification. For the detection part, it was observed that for the signal-known-exactly case (M=1), the performance of the neural detector converges to the performance of the ideal Bayesian decision processor, while for a higher degree of uncertainty (i.e. for a larger M), the performance of the multilayer perceptron is inferior to that of the optimal detector. For the classification case, the probability of error of the neural network is comparable to the minimum Bayesian error, which can be numerically calculated. Adding noise during the training stage of the network does not affect the performance of the neural detector; however, there is an indication that the presence of noise in the learning process of the neural classifier results in a degraded classification performance.

摘要

使用反向传播算法训练的多层感知器在检测和分类任务中进行了测试,并与似然比测试得出的最优算法进行了比较。重点是高斯噪声环境中M个正交信号之一的问题,因为贝叶斯检测器和分类器在这个问题上是已知的,并且可以为神经网络的性能评估提供一种度量。考虑了两种基本情况:检测和分类。对于检测部分,观察到对于信号完全已知的情况(M = 1),神经检测器的性能收敛到理想贝叶斯决策处理器的性能,而对于更高程度的不确定性(即对于更大的M),多层感知器的性能不如最优检测器。对于分类情况,神经网络的错误概率与最小贝叶斯错误相当,可以通过数值计算得出。在网络训练阶段添加噪声不会影响神经检测器的性能;然而,有迹象表明神经分类器学习过程中噪声的存在会导致分类性能下降。

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