Improved binary cuckoo search algorithm for band selection in hyperspectral image

doi:10.13474/j.cnki.11-2246.2019.0110

Abstract

Abstract:

Spectral band selection serves as an important part in hyperspectral image classification. In this paper, an improved binary cuckoo search algorithm for band selection in hyperspectral image is proposed. Binary cuckoo search algorithm is improved by these two ways, one of which is that we update the nests of offspring by using a binary encoding algorithm. Another one is that the found nests are updated based on the crossover mode of genetic algorithm. The improved binary cuckoo search algorithm achieves the goal of dimensionality reduction of hyperspectral image by finding the bands with low correlation and the vital function in the image. The improved binary cuckoo algorithm is applied to PaviaU datasets and AVIRIS datasets, compared with binary cuckoo algorithm, binary particle swarm algorithm, minimum redundancy maximum correlation algorithm, relief algorithm. The results show that the improved binary cuckoo search algorithm is more efficient in the band selection, and the selected bands are more representative and can improve the precision of the image classification.

Key words: binary cuckoo search algorithm, hyperspectral image, dimensionality reduction, band selection

CLC Number:

P237

SONG Guangqin, DU Zhengshun, HE Zhi. Improved binary cuckoo search algorithm for band selection in hyperspectral image[J]. 测绘通报, 2019, 0(4): 43-48.

References

[1] 谭琨,杜培军. 基于再生核Hilbert空间小波核函数支持向量机的高光谱遥感影像分类[J]. 测绘学报,2011,40(2):142-147.
[2] FORERO V S, ANGULO J. Classification of hyperspectral images by tensor modeling and additive morphological decomposition[J]. Pattern Recognition, 2013, 46(2):566-577.
[3] 苏红军,杜培军,盛业华. 高光谱影像波段选择算法研究[J]. 计算机应用研究,2008,25(4):1093-1096.
[4] 丁雪梅,王汉军,王炤光,等. 基于改进ReliefF的无监督特征选择方法[J]. 计算机系统应用,2018,27(3):149-155.
[5] MUNDRA P A, RAJAPAKSE J C. SVM-RFE with MRMR filter for gene selection[J]. IEEE Transactions on Nanobioscience, 2010, 9(1):31-37.
[6] 沈泉飞,曹敏, 史照良,等. 基于布谷鸟算法的遥感影像智能分类[J]. 测绘通报,2017(1):65-68.
[7] ZHANG X, SUN Q, LI J. Optimal band selection for high dimensional remote sensing data using genetic algorithm[C]//International Conference on Earth Observation for Global Changes.[S.l.]:International Society for Optics and Photonics, 2009.
[8] 周爽. 蚁群算法在高光谱图像降维和分类中的应用研究[D]. 哈尔滨:哈尔滨工业大学,2010.
[9] 秦全德. 粒子群算法研究及应用[D]. 广州:华南理工大学, 2011.
[10] YANG X S, DEB S. Cuckoo search via Lévy flights[C]//2009 World Congress on NaBIC. Coimbatore:IEEE, 2010:210-214.
[11] YANG X S, DEB S. Multiobjective cuckoo search for design optimization[J]. Computers & Operations Research, 2013,40(6):1616-1624.
[12] GHERBOUDJ A, LAYEB A, CHIKHI S. Solving 0-1 knapsack problems by a discrete binary version of cuckoo search algorithm[M].[S.l.]:Inderscience Publishers, 2012.
[13] MEDJAHED S A, SAADI T A, BENYETTOU A, et al. Binary cuckoo search algorithm for band selection in hyperspectral image classification[J]. Iaeng International Journal of Computer Science, 2015,42(3):1-9.
[14] 张晶,吴虎胜. 改进二进制布谷鸟搜索算法求解多维背包问题[J]. 计算机应用,2015,35(1):183-188.
[15] 纪凯,韩栋. SVM支持向量机在遥感图像中的应用研究[J]. 湖南城市学院学报(自然科学版),2016,25(3):114-116.
[16] KENNEDY J, EBERHART R C. A discrete binary version of the particle swarm algorithm[C]//IEEE International Conference on Systems, Man, and Cybernetics. Computational Cybernetics and Simulation. Orlando:IEEE, 1997.
[17] 刘建华, 杨荣华, 孙水华. 离散二进制粒子群算法分析[J]. 南京大学学报(自然科学),2011,47(5):504-514.
[18] 冯登科,阮奇,杜利敏. 二进制布谷鸟搜索算法[J]. 计算机应用,2013,33(6):1566-1570.