A gene expression programming approach for evolving multi-class image classifiers

2017 IEEE Latin American Conference on Computational Intelligence (LA-CCI) Pub Date : 2017-11-01 DOI:10.1109/LA-CCI.2017.8285696

Nelson Marcelo Romero Aquino, Manassés Ribeiro, M. Gutoski, C. Benítez, H. S. Lopes

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Abstract

This paper presents a methodology to perform multi-class image classification using Gene Expression Programming(GEP) in both balanced and unbalanced datasets. Descriptors are extracted from images and then their dimensionality are reduced by applying Principal Component Analysis. The aspects extracted from images are texture, color and shape that are, later, concatenated in a feature vector. Finally, GEP is used to evolve trees capable of performing as classifiers using the features as terminals. The quality of the solution evolved is evaluated by the introduced Cross-Entropy-Loss-based fitness function and compared with standard fitness function (both accuracy and product of sensibility and specificity). A novel GEP function linker Softmax-based is introduced. GEP performance is compared with the obtained by classifiers with tree structure, as C4.5 and Random Forest algorithms. Results show that GEP is capable of evolving classifiers able to achieve satisfactory results for image multi-class classification.

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多类图像分类器的基因表达编程方法

本文提出了一种利用基因表达编程(GEP)在平衡和非平衡数据集上进行多类图像分类的方法。首先从图像中提取描述符，然后利用主成分分析对描述符进行降维处理。从图像中提取的方面是纹理、颜色和形状，然后将它们连接在一个特征向量中。最后，使用GEP来进化能够使用特征作为终端执行分类器的树。通过引入的基于交叉熵损失的适应度函数来评价进化的解的质量，并与标准适应度函数进行比较(准确性和敏感性与特异性的乘积)。介绍了一种新的基于softmax的GEP函数连接器。将GEP算法的性能与树状结构分类器C4.5和随机森林算法的性能进行了比较。结果表明，GEP能够使进化分类器在图像多类分类中取得满意的结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2017 IEEE Latin American Conference on Computational Intelligence (LA-CCI)

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