Pre-Optimization of High Dimensional Extreme Learning Machine with Cooperative Coevolution

2021 11th International Conference on Intelligent Control and Information Processing (ICICIP) Pub Date : 2021-12-03 DOI:10.1109/ICICIP53388.2021.9642187

J. Li, Chen Peng, Yuyan Wang, Yumin Yin, Bolin Liao

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引用次数: 1

Abstract

Extreme Learning Machine (ELM) is a special type of single hidden layer feedforward neural network, which uses pseudo-inverse to compute weights of the output layer, and is often faster than the gradient-based methods. However, due to the random initialization of input weights and biases, the performance of this algorithm is not always stable, and is less effective in large-scale applications. Therefore, in this paper, based on an effective large-scale optimization algorithm, i.e., cooperative coevolutionary particle swarm optimization (CCPSO), an improved hybrid ELM learning algorithm, named CCPSO-ELM, is proposed, where the input weights and the hidden layer biases are optimized using CCPSO. Compared with the traditional ELM algorithm, as well as ELM optimized by traditional PSO, the CCPSO-ELM is more likely to avoid local optima, has smaller optimization errors, and is more robust against noises. The results are verified by experiments on two different types of problems, i.e., large-scale multivariate function approximation and pattern classification.

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基于协同进化的高维极限学习机预优化

极限学习机(Extreme Learning Machine, ELM)是一种特殊类型的单隐层前馈神经网络，它使用伪逆来计算输出层的权值，通常比基于梯度的方法更快。然而，由于输入权重和偏差的随机初始化，该算法的性能并不总是稳定的，并且在大规模应用中效果较差。因此，本文在有效的大规模优化算法——协同进化粒子群优化算法(cooperative coevolutionary particle swarm optimization, CCPSO)的基础上，提出了一种改进的混合ELM学习算法CCPSO-ELM，利用CCPSO对输入权值和隐层偏差进行优化。与传统的ELM算法以及传统粒子群优化的ELM算法相比，CCPSO-ELM更容易避免局部最优，优化误差更小，对噪声的鲁棒性更强。通过两种不同类型的问题(即大规模多元函数逼近和模式分类)的实验验证了结果。

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2021 11th International Conference on Intelligent Control and Information Processing (ICICIP)

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