Extreme learning machine algorithm based on cloud quantum flower pollination

doi:10.11772/j.issn.1001-9081.2019101846

Journal of Computer Applications ›› 2020, Vol. 40 ›› Issue (6): 1627-1632.DOI: 10.11772/j.issn.1001-9081.2019101846

• Artificial intelligence • Previous Articles Next Articles

Extreme learning machine algorithm based on cloud quantum flower pollination

NIU Chunyan, XIA Kewen, ZHANG Jiangnan, HE Ziping

School of Electronics and Information Engineering, Hebei University of Technology, Tianjin 300401, China

Received:2019-10-30 Revised:2019-12-14 Online:2020-06-10 Published:2020-06-18
Contact: NIU Chunyan, born in 1993, M. S. candidate. Her research interests include computational intelligence, big data.
About author:XIA Kewen, born in 1965, Ph. D., professor. His research interests include intelligent information processing, wireless network.NIU Chunyan, born in 1993, M. S. candidate. Her research interests include computational intelligence, big data.ZHANG Jiangnan, born in 1994, Ph. D. candidate. Her research interests include computational intelligence, big data.HE Ziping, born in 1993, Ph. D. candidate. Her research interests include computational intelligence, big data.
Supported by:
National Natural Science Foundation of China (U1813222), the Tianjin Natural Science Foundation (18JCYBJC16500), the Key Research and Development Project of Hebei Province (19210404D).

基于云量子花朵授粉的极限学习机算法

牛春彦, 夏克文, 张江楠, 贺紫平

河北工业大学电子信息工程学院，天津 300401

通讯作者: 牛春彦(1993—)
作者简介:牛春彦（1993—），女，河北石家庄人，硕士研究生，主要研究方向：计算智能、大数据。夏克文（1965—），男，湖南邵阳人，教授，博士生导师，博士，主要研究方向：智能信息处理、无线网络。张江楠（1994—），女，河北保定人，博士研究生，主要研究方向：计算智能、大数据。贺紫平（1993—），女，湖南株洲人，博士研究生，主要研究方向：计算智能、大数据。
基金资助:
国家自然科学基金资助项目（U1813222）；天津市自然科学基金资助项目(18JCYBJC16500)；河北省重点研究开发项目（19210404D）。

Abstract

Abstract: In order to avoid the flower pollination algorithm falling into local optimum in the identification process of the extreme learning machine, an extreme learning machine algorithm based on cloud quantum flower pollination was proposed. Firstly, cloud model and quantum system were introduced into the flower pollination algorithm to enhance the global search ability of the flower pollination algorithm, so that the particles were able to perform optimization in different states. Then, the cloud quantum flower pollination algorithm was used to optimize the parameters of the extreme learning machine in order to improve the identification accuracy and efficiency of the extreme learning machine. In the experiments, six benchmark functions were used to simulate and compare several algorithms. It is verified by the comparison results that the performance of proposed cloud quantum flower pollination algorithm is superior to those of other three swarm intelligence optimization algorithms. Finally, the improved extreme learning machine algorithm was applied to the identification of oil and gas layers. The experimental results show that, the identification accuracy of the proposed algorithm reaches 98.62%, and compared with the classic extreme learning machine, its training time is shortened by 1.680 2 s. The proposed algorithm has high identification accuracy and efficiency, and can be widely applied to the actual classification field.

Key words: extreme learning machine, cloud model, flower pollination algorithm, identification of oil and gas layers, quantum system

摘要： 为了避免花朵授粉算法在极限学习机识别过程中易陷入局部最优，提出了一种基于云量子花朵授粉的极限学习机算法。首先,将云模型和量子系统引入到花朵授粉算法中，增强花朵授粉算法的全局搜索能力，使粒子能在不同状态下进行寻优。然后,采用云量子花朵授粉算法优化极限学习机的参数，提高极限学习机的识别精度和效率。实验中采用6个标准测试函数对多个算法进行仿真对比，对比结果验证了所提云量子花朵授粉算法的性能优于另外3种群智能优化算法。最后，将改进的极限学习机算法应用到油气层识别中，结果表明其识别精度达到98.62%，相较于经典极限学习机，其训练时间缩短了1.680 2 s，该算法具有较高的识别精度和效率，可以广泛应用到实际分类领域中。

关键词: 极限学习机, 云模型, 花朵授粉算法, 油气层识别, 量子系统

CLC Number:

TP181
TP391

NIU Chunyan, XIA Kewen, ZHANG Jiangnan, HE Ziping. Extreme learning machine algorithm based on cloud quantum flower pollination[J]. Journal of Computer Applications, 2020, 40(6): 1627-1632.

牛春彦, 夏克文, 张江楠, 贺紫平. 基于云量子花朵授粉的极限学习机算法[J]. 计算机应用, 2020, 40(6): 1627-1632.

References

1 李力行,战永平,付春丽.稠油开采方法综述[J].硅谷,2008(12):86-87,29. LI L X,ZHAN Y P,FU C L.Summary of heavy oil mining methods [J]. Silicon Valley, 2008(12): 86-87, 29.
2 甘露.极限学习机的研究与应用[D].西安:西安电子科技大学,2014:9-22. GANL. Research and application of extreme learning machine [J]. Xi’an: Xidian University, 2014: 9-22.
3 ZHENGJ, DONGZ, PANH, et al. Composite multi-scale weighted permutation entropy and extreme learning machine based intelligent fault diagnosis for rolling bearing [J]. Measurement, 2019, 143:69-80.
4 LAW A, GHOSHA. Multi-label classification using a cascade of stacked autoencoder and extreme learning machines [J]. Neurocomputing, 2019, 358: 222-234.
5 BAOR, CHENW, TANGG, et al. Classification of fresh and processed strawberry cultivars based on quality characteristics by using support vector machine and extreme learning machine [J]. Journal of Berry Research, 2018, 8(2): 81-94.
6 SHIHABUDHEENK V, MAHESHM, PILLAIG N. Particle swarm optimization based extreme learning neuro-fuzzy system for regression and classification [J]. Expert Systems with Applications, 2018, 92: 474-484.
7 SHANMUGAPRIYAD, PADMAVATHIG. A wrapper based feature subset selection using ACO-ELM-ANP and GA-ELM-ANP approaches for keystroke dynamics authentication [C]// Proceedings of the 2013 International Conference on Signal Processing, Image Processing and Pattern Recognition. Piscataway: IEEE, 2013:157-162.
8 SUNJ, WUX, PALADEV, et al. Convergence analysis and improvements of quantum-behaved particle swarm optimization [J]. Information Sciences, 2012, 193: 81-103.
9 YANGX, KARAMANOGLUM, HEX. Flower pollination algorithm: a novel approach for multi-objective optimization [J]. Engineering Optimization, 2014, 46(9): 1222-1237.
10 GAOY, ZHANGF, GUOQ, et al. Research on the searching performance of flower pollination algorithm with three random walks [J]. Journal of Intelligent and Fuzzy Systems, 2018, 35(1): 333-341.
11 肖辉辉,万常选,段艳明,等.基于模拟退火的花朵授粉优化算法[J].计算机应用,2015,35(4):1062-1066，1070. XIAOH H, WANC X, DUANY M, et al. Flower pollination algorithm based on simulated annealing [J]. Journal of Computer Applications, 2015, 35(4): 1062-1066，1070.
12 金鹏.改进量子行为粒子群算法的研究及其在优化问题中的应用[D].徐州:中国矿业大学,2018:22-27. JINGP. Research on improved quantum-behaved particle swarm optimization and its application in optimization problems [D]. Xuzhou: China University of Mining and Technology, 2018: 22-27.
13 HUANGG B, ZHUQ, SIEWC K. Extreme learning machine: theory and applications[J]. Neurocomputing, 2006, 70(1/2/3):489-501.
14 Sparse extreme learning machine for classification [J]. IEEE Transactions on Cybernetics, 2014, 44(10): 1858-1870.
15 GAOX, ZHANGZ Y, DUANL M. A quantum machine learning algorithm based on generative models [J]. Science Advances, 2018, 4(12): NoArticle. eaat9004.
16 HUANGG B. Reply to “Comments on “the extreme learning machine””[J]. IEEE Transactions on Neural Networks, 2008, 19(8): 1495-1496.
17 赵媛,郝丽莎.我国石油资源空间流动的形成机制[J].地理研究,2008,27(5):1027-1036. ZHAOY, HAOL S. The forming mechanism of crude oil flow in China [J]. Geographical Research, 2008, 27(5):1027-1036.

[1]	SUN Haoyi, WANG Chuanmei, DING Yiming. Extreme learning machine optimization based on hidden layer output matrix [J]. Journal of Computer Applications, 2021, 41(9): 2481-2488.
[2]	TANG Yanqiang, LI Chenghai, SONG Yafei. Network security situation prediction based on improved particle swarm optimization and extreme learning machine [J]. Journal of Computer Applications, 2021, 41(3): 768-773.
[3]	LAI Jie, WANG Xiaodan, LI Rui, ZHAO Zhenchong. Denoising autoencoder based extreme learning machine [J]. Journal of Computer Applications, 2019, 39(6): 1619-1625.
[4]	CHENG Yusheng, QIAN Kun, WANG Yibing, ZHAO Dawei. Multi-label lazy learning approach based on firefly method [J]. Journal of Computer Applications, 2019, 39(5): 1305-1311.
[5]	SHI Lili, XIA Kewen, DAI Shuidong, JU Wenzhe. Optimal design of energy storage spring in circuit breaker based on improved particle swarm optimization algorithm [J]. Journal of Computer Applications, 2019, 39(5): 1540-1546.
[6]	LI Shuai, WANG Guoyin, YANG Jie. Three-way group decisions model based on cloud aggregation [J]. Journal of Computer Applications, 2019, 39(11): 3163-3171.
[7]	ZHANG Fangyan, WANG Xin, XU Xinzheng. Partial occlusion face recognition based on structured occlusion coding and extreme learning machine [J]. Journal of Computer Applications, 2019, 39(10): 2893-2898.
[8]	YAN Hongwen, SHENG Chenggong. Short-term bus load forecasting based on hierarchical clustering method and extreme learning machine [J]. Journal of Computer Applications, 2018, 38(8): 2437-2441.
[9]	ZHENG Yaoyu, FANG Yangwang, WEI Xianzhi, CHEN Shaohua, GAO Xiang, WANG Hongke, PENG Weishi. Evaluation method for simulation credibility based on cloud model [J]. Journal of Computer Applications, 2018, 38(6): 1535-1541.
[10]	FAN Jun, WANG Xin, XU Hui. Prediction method of tectonic coal thickness based on particle swarm optimized hybrid kernel extreme learning machine [J]. Journal of Computer Applications, 2018, 38(6): 1820-1825.
[11]	GAO Huiyun, LU Huijuan, YAN Ke, YE Minchao. Selective ensemble algorithm for gene expression data based on diversity and accuracy of weighted harmonic average measure [J]. Journal of Computer Applications, 2018, 38(5): 1512-1516.
[12]	ZHANG Liyou, MA Jun, JIA Huayu. Application of fully online sequential extreme learning machine controller with PID compensation in input-disturbance system adaptive control [J]. Journal of Computer Applications, 2018, 38(4): 1213-1217.
[13]	ZHANG Huanhuan, HONG Min, YUAN Yubo. Deep sparse auto-encoder method using extreme learning machine for facial features [J]. Journal of Computer Applications, 2018, 38(11): 3193-3198.
[14]	ZHAI Junhai, ZHANG Sufang, WANG Cong, SHEN Chu, LIU Xiaomeng. Big data active learning based on MapReduce [J]. Journal of Computer Applications, 2018, 38(10): 2759-2763.
[15]	YANG Zhanglong, CHEN Ming. Quick visual Boolean operation on heavy mesh models [J]. Journal of Computer Applications, 2017, 37(7): 2050-2056.

Extreme learning machine algorithm based on cloud quantum flower pollination

基于云量子花朵授粉的极限学习机算法

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics