[1]刘庆鑫,李霓,贾鹤鸣,等.改进䲟鱼优化算法和熵测度的图像多阈值分割[J].智能系统学报,2024,19(2):381-391.[doi:10.11992/tis.202205018]
 LIU Qingxin,LI Ni,JIA Heming,et al.An improved remora optimization algorithm for multilevel thresholding image segmentation using an entropy measure[J].CAAI Transactions on Intelligent Systems,2024,19(2):381-391.[doi:10.11992/tis.202205018]
点击复制

改进䲟鱼优化算法和熵测度的图像多阈值分割

《智能系统学报》[ISSN 1673-4785/CN 23-1538/TP] 卷: 19 期数: 2024年第2期 页码: 381-391 栏目: 学术论文—智能系统 出版日期: 2024-03-05
Title:
An improved remora optimization algorithm for multilevel thresholding image segmentation using an entropy measure
作者:
刘庆鑫1, 李霓2,3, 贾鹤鸣4, 齐琦1
1. 海南大学 计算机科学与技术学院, 海南 海口 570228;
2. 海南师范大学 数学与统计学院, 海南 海口 571158;
3. 海南师范大学 数据科学与智慧教育教育部重点实验室, 海南 海口 571158;
4. 三明学院 信息工程学院, 福建 三明 365004
Author(s):
LIU Qingxin1, LI Ni2,3, JIA Heming4, QI Qi1
1. School of Computer Science and Technology, Hainan University, Haikou 570228, China;
2. School of Mathematics and Statistics, Hainan Normal University, Haikou 571158, China;
3. Key Laboratory of Data Science and Intelligence Education of Ministry
关键词:
图像处理多阈值分割?鱼优化算法最小交叉熵透镜成像反向学习自适应权重因子全局优化遥感图像
Keywords:
image processingmultilevel thresholding segmentationremora optimization algorithmminimum cross entropylens opposite learningadaptive weight factorglobal optimizationremote sensing image
分类号:
TP391.41;TP18
DOI:
10.11992/tis.202205018
文献标志码:
2023-11-30
摘要:
针对传统图像多阈值分割方法存在效率低、分割质量差等问题,提出一种改进?鱼优化算法并结合熵测度(weight lens remora optimization algorithm, WLROA)的图像多阈值分割方法。针对?鱼优化算法易陷入局部极值等缺陷,引入透镜成像反向学习策略,生成透镜反向解来增加种群多样性,进而提高算法跳出局部极值能力;提出一种自适应权重因子,对个体位置进行自适应扰动,提高算法探索能力。以最小化交叉熵作为优化目标,利用WLROA确定最小交叉熵并获得相应分割阈值。选取部分伯克利大学分割数据集图像和遥感图像测试提出算法的分割性能,测试结果表明,WLROA与其他知名算法相比具有更好的分割效果,能够有效实现复杂图像的精确处理。
Abstract:
To improve the poor segmentation quality of traditional image thresholding segmentation techniques, this study proposes an image multilevel thresholding segmentation method. This method is based on an improved remora optimization algorithm and entropy measure, specifically called the weight lens remora optimization algorithm (WLROA). First, lens opposition-based learning was used to generate the lens opposite solution. This approach bolstered population diversity and improved the algorithm’s ability to overcome local optimal solutions. Furthermore, an adaptive weight factor was introduced to perturb the individuals’ positions appropriately. This modification aimed to improve the algorithm’s exploratory ability. The optimization objective was to minimize cross entropy. To achieve this, WLROA was used to determine the minimum cross entropy and obtain the corresponding thresholds. A selection of images from the Berkeley segmentation data set and remote sensing images were selected to assess the segmentation performance of the proposed algorithm. These results were then compared with those from other methods. The results revealed that, in comparison with other well-known algorithms, WLROA yielded better segmentation results and proved effective in accurately processing complex images.
参考文献/References:
[1] SU Hang, ZHAO Dong, YU Fanhua, et al. Horizontal and vertical search artificial bee colony for image segmentation of COVID-19 X-ray images[J]. Computers in biology and medicine, 2022, 142: 105181.
[2] 邢致恺, 贾鹤鸣, 宋文龙. 基于莱维飞行樽海鞘群优化算法的多阈值图像分割[J]. 自动化学报, 2021, 47(2): 363–377
XING Zhikai, JIA Heming, SONG Wenlong. Levy flight trajectory-based salp swarm algorithm for multilevel thresholding image segmentation[J]. Acta automatica sinica, 2021, 47(2): 363–377
[3] 贾鹤鸣, 彭晓旭, 邢致恺, 等. 改进萤火虫优化算法的Renyi熵污油图像分割[J]. 智能系统学报, 2020, 15(2): 367–373
JIA Heming, PENG Xiaoxu, XING Zhikai, et al. Renyi entropy based on improved firefly optimization algorithm for image segmentation of waste oil[J]. CAAI transactions on intelligent systems, 2020, 15(2): 367–373
[4] ABUALIGAH L, ELAZIZ M A, SUMARI P, et al. Reptile search algorithm (RSA): a nature-inspired meta-heuristic optimizer[J]. Expert systems with applications, 2022, 191: 116158.
[5] ABUALIGAH L, DIABAT A, MIRJALILI S, et al. The arithmetic optimization algorithm[J]. Computer methods in applied mechanics and engineering, 2021, 376: 113609.
[6] ABUALIGAH L, YOUSRI D, ABD ELAZIZ M, et al. Aquila optimizer: a novel meta-heuristic optimization algorithm[J]. Computers & industrial engineering, 2021, 157: 107250.
[7] MIRJALILI S. SCA: a sine cosine algorithm for solving optimization problems[J]. Knowledge-based systems, 2016, 96: 120–133.
[8] LIU Qingxin, LI Ni, JIA Heming, et al. Modified remora optimization algorithm for global optimization and multilevel thresholding image segmentation[J]. Mathematics, 2022, 10(7): 1014.
[9] LIU Qingxin, LI Ni, JIA Heming, et al. A chimp-inspired remora optimization algorithm for multilevel thresholding image segmentation using cross entropy[J]. Artificial intelligence review, 2023, 56(1): 159–216.
[10] LIU Qingxin, QI Qi, LI Ni. Federated opposite learning based arithmetic optimization algorithm for image segmentation using multilevel thresholding[C]//2023 26th International Conference on Computer Supported Cooperative Work in Design. Rio de Janeiro: IEEE, 2023: 1257-1262.
[11] JIA Heming, LANG Chunbo, OLIVA D, et al. Dynamic Harris Hawks optimization with mutation mechanism for satellite image segmentation[J]. Remote sensing, 2019, 11(12): 1421.
[12] HOUSSEIN E H, HUSSAIN K, ABUALIGAH L, et al. An improved opposition-based marine predators algorithm for global optimization and multilevel thresholding image segmentation[J]. Knowledge-based systems, 2021, 229: 107348.
[13] WU Bo, ZHOU Jianxin, JI Xiaoyuan, et al. An ameliorated teaching-learning-based optimization algorithm based study of image segmentation for multilevel thresholding using Kapur’s entropy and Otsu’s between class variance[J]. Information sciences, 2020, 533: 72–107.
[14] LIN Shanying, JIA Heming, ABUALIGAH L, et al. Enhanced slime mould algorithm for multilevel thresholding image segmentation using entropy measures[J]. Entropy, 2021, 23(12): 1700.
[15] 吴禄慎, 程伟, 胡赟. 应用改进布谷鸟算法优化多阈值图像分割[J]. 吉林大学学报(工学版), 2021, 51(1): 358–369
WU Lushen, CHENG Wei, HU Yun. Image segmentation of multilevel threshold based on improved cuckoo search algorithm[J]. Journal of Jilin university (engineering and technology edition), 2021, 51(1): 358–369
[16] WOLPERT D H, MACREADY W G. No free lunch theorems for optimization[J]. IEEE transactions on evolutionary computation, 1997, 1(1): 67–82.
[17] JIA Heming, PENG Xiaoxu, LANG Chunbo. Remora optimization algorithm[J]. Expert systems with applications, 2021, 185: 115665.
[18] FAN Qian, CHEN Zhenjian, ZHANG Wei, et al. ESSAWOA: enhanced Whale optimization algorithm integrated with salp swarm algorithm for global optimization[J]. Engineering with computers, 2022, 38(1): 797–814.
[19] RODR?GUEZ-ESPARZA E, ZANELLA-CALZADA L A, OLIVA D, et al. An efficient Harris Hawks-inspired image segmentation method[J]. Expert systems with applications, 2020, 155: 113428.
[20] ZHAO Songwei, WANG Pengjun, HEIDARI A A, et al. Multilevel threshold image segmentation with diffusion association slime mould algorithm and Renyi’s entropy for chronic obstructive pulmonary disease[J]. Computers in biology and medicine, 2021, 134: 104427.
[21] HE Qibin, SUN Xian, DIAO Wenhui, et al. Multimodal remote sensing image segmentation with intuition-inspired hypergraph modeling[J]. IEEE transactions on image processing, 2023, 32: 1474–1487.
[22] HUYNH-THU Q, GHANBARI M. Scope of validity of PSNR in image/video quality assessment[J]. Electronics letters, 2008, 44(13): 800.
[23] WANG Zhou, BOVIK A C, SHEIKH H R, et al. Image quality assessment: from error visibility to structural similarity[J]. IEEE transactions on image processing, 2004, 13(4): 600–612.
[24] ZHANG Lin, ZHANG Lei, MOU Xuanqin, et al. FSIM: a feature similarity index for image quality assessment[J]. IEEE transactions on image processing:a publication of the IEEE signal processing society, 2011, 20(8): 2378–2386.
[25] LI Xinli, LI Xiaoxiao, YANG Guotian. A novelty harmony search algorithm of image segmentation for multilevel thresholding using learning experience and search space constraints[J]. Multimedia tools and applications, 2023, 82(1): 703–723.
相似文献/References:
[1]李庆武,蔡艳梅,徐立中.基于分块分类的智能视频监控背景更新算法[J].智能系统学报,2010,5(3):272.
 LI Qing-wu,CAI Yan-mei,XU Li-zhong.Background update algorithm based on blocks classification forintelligent video surveillance[J].CAAI Transactions on Intelligent Systems,2010,5():272.
[2]邵真天,袁杰.一种基于曲波变换的图像去块算法[J].智能系统学报,2012,7(2):102.
 SHAO Zhentian,YUAN Jie.An image deblocking algorithm based on curvelet transformation[J].CAAI Transactions on Intelligent Systems,2012,7():102.
[3]王锦榕,袁学海,刘增良.基于图像处理技术的瞳孔和角膜反射中心提取算法[J].智能系统学报,2012,7(5):423.
 WANG Jinrong,YUAN Xuehai,LIU Zengliang.An extraction method of pupil and corneal reflection centers based on image processing technology[J].CAAI Transactions on Intelligent Systems,2012,7():423.
[4]傅博,姜勇,王洪光,等.输电线路巡检图像智能诊断系统[J].智能系统学报,2016,11(1):70.[doi:10.11992/tis.201503043]
 FU Bo,JIANG Yong,WANG Hongguang,et al.Intelligent diagnosis system for patrol check images of power transmission lines[J].CAAI Transactions on Intelligent Systems,2016,11():70.[doi:10.11992/tis.201503043]
[5]任晓霞,孙秀明,耿鹏,等.多小波和NSDFB组合域递归滤波多聚焦图像融合[J].智能系统学报,2016,11(2):241.[doi:10.11992/tis.201509017]
 REN Xiaoxia,SUN Xiuming,GENG Peng,et al.Multifocus image fusion using a recursive filter in the combined domain of multiwavelets and NSDFB[J].CAAI Transactions on Intelligent Systems,2016,11():241.[doi:10.11992/tis.201509017]
[6]梁义辉,战强.一种面向无线图像传输的视觉平台[J].智能系统学报,2016,11(5):608.[doi:10.11992/tis.201512014]
 LIANG Yihui,ZHAN Qiang.A visual platform for wireless image transmission[J].CAAI Transactions on Intelligent Systems,2016,11():608.[doi:10.11992/tis.201512014]
[7]李霞丽,吴立成,樊艳明.易于硬件实现的压缩感知观测矩阵的研究与构造[J].智能系统学报,2017,12(3):279.[doi:10.11992/tis.201606037]
 LI Xiali,WU Licheng,FAN Yanming.Study and construction of a compressed sensing measurement matrix that is easy to implement in hardware[J].CAAI Transactions on Intelligent Systems,2017,12():279.[doi:10.11992/tis.201606037]
[8]姜婷,袭肖明,岳厚光.基于分布先验的半监督FCM的肺结节分类[J].智能系统学报,2017,12(5):729.[doi:10.11992/tis.201706018]
 JIANG Ting,XI Xiaoming,YUE Houguang.Classification of pulmonary nodules by semi-supervised FCM based on prior distribution[J].CAAI Transactions on Intelligent Systems,2017,12():729.[doi:10.11992/tis.201706018]
[9]王科俊,赵彦东,邢向磊.深度学习在无人驾驶汽车领域应用的研究进展[J].智能系统学报,2018,13(1):55.[doi:10.11992/tis.201609029]
 WANG Kejun,ZHAO Yandong,XING Xianglei.Deep learning in driverless vehicles[J].CAAI Transactions on Intelligent Systems,2018,13():55.[doi:10.11992/tis.201609029]
[10]刘彪,黄蓉蓉,林和,等.基于卷积神经网络的盲文音乐识别研究[J].智能系统学报,2019,14(1):186.[doi:10.11992/tis.201805002]
 LIU Biao,HUANG Rongrong,LIN He,et al.Research on braille music recognition based on convolutional neural networks[J].CAAI Transactions on Intelligent Systems,2019,14():186.[doi:10.11992/tis.201805002]

备注/Memo

收稿日期:2022-05-17。
基金项目:国家自然科学基金项目(11861030);海南省自然科学基金项目(621RC511,2019RC176);海南省研究生创新科研课题(Qhys2021-190).
作者简介:刘庆鑫,硕士研究生,主要研究方向为启发式优化算法、图像处理。E-mail:qxliu@hainanu.edu.cn;李霓,副教授,主要研究方向为生存分析、纵向数据分析、复杂删失数据的统计推断。主持国家自然科学基金项目2项,发表学术论文20余篇。E-mail:lini@hainnu.edu.cn;齐琦,副研究员,博士生导师,博士,中国计算机学会人工智能与模型识别、计算经济学专委会委员。主要研究方向为组合优化、算法博弈、计算智能以及数据挖掘和机器学习。参与国家重点研发计划和海南省重大科技计划等3项,发表学术论文20多篇。 E-mail:qqi@hainanu.edu.cn
通讯作者:齐琦. E-mail:qqi@hainanu.edu.cn

更新日期/Last Update: 1900-01-01
Copyright © 《 智能系统学报》 编辑部
地址:(150001)黑龙江省哈尔滨市南岗区南通大街145-1号楼 电话:0451- 82534001、82518134 邮箱:tis@vip.sina.com