Computer Science ›› 2018, Vol. 45 ›› Issue (7): 248-251.doi: 10.11896/j.issn.1002-137X.2018.07.043
• Graphics, Image & Pattem Recognition • Previous Articles Next Articles
JI Li-xia, LIU Cheng-ming
CLC Number:
[1]XU Y C,CHEN L,YU H Y,et al.An Improved Preserving Hue Color Image Enhancement Algorithm[J].Computer Simulation,2015,32(9):281-285.(in Chinese) 徐义春,陈炼,于海洋,等.一种改进的色调不变的彩色图像增强算法[J].计算机仿真,2015,32(9):281-285. [2]LV L Z,QIANG Y.Medical CT Image Enhancement Algorithm Based on Laplacian Pyramid and Wavelet Transform[J].Computer Science,2016,43(11):300-303.(in Chinese) 吕鲤志,强彦.基于Laplacian金字塔和小波变换的医学CT图像增强算法[J].计算机科学,2016,43(11):300-303. [3]YANG S,SHAO L T,ZHANG J,et al.Image Fuzzy Enhancement Algorithm Based on Hybrid Artificial Fish Swarm Optimization[J].Computer Measurement & Control,2015,23(2):497-499.(in Chinese) 杨松,邵龙潭,张菁,等.基于混合人工鱼群的图像模糊增强算法[J].计算机测量与控制,2015,23(2):497-499. [4]WANG S M,ZHANG A W,HU S X,et al.The Retinex Algorithm of Image Enhancement Based on the Global and Local Illumination Estimation[J].Science Technology and Engineering,2015,15(34):100-104.(in Chinese) 王书民,张爱武,胡少兴,等.一种基于全局和局部光照估计的Retinex图像增强算法[J].科学技术与工程,2015,15(34):100-104. [5]QI N.Enhanced Algorithm for Foggy Video Image Based on Improved Retinex[J].Bulletin of Science and Technology,2015,31(10):106-108.(in Chinese) 戚娜.改进的Retinex雾天视频图像增强算法[J].科技通报,2015,31(10):106-108. [6]WANG J Y,LIANG C W,LI K Y.The DSA image enhancement algorithm based on wavelet transform and nonlinear piecewise function[J].Electronic Design Engineering,2016,24(22):115-117.(in Chinese) 汪家轶,梁成文,李凯扬.一种基于小波变换和非线性分段函数的DSA图像增强算法[J].电子设计工程,2016,24(22):115-117. [7]ZHU G Q,LI Q W,LIN S F,et al.Infrared image enhancement algorithm based on human visual characteristics in non sampled contourlet transform domain[J].Laser & Optoelectronics Progress,2015,52(1):49-54.(in Chinese) 朱国庆,李庆武,林少飞,等.基于人眼视觉特性的非下采样轮廓波变换域红外图像增强算法[J].激光与光电子学进展,2015,52(1):49-54. [8]GU M,ZHENG L T,YOU Z.Traffic image enhancement algorithm based on color space conversion[J].Chinese Journal of Scientific Instrument,2015,36(8):1901-1907.(in Chinese) 顾明,郑林涛,尤政.基于颜色空间转换的交通图像增强算法[J].仪器仪表学报,2015,36(8):1901-1907. [9]YUN H J,WU Z Y,WANG G J,et al.Enhancement of Infrared Image Combined with Histogram Equalization and Fuzzy Set Theory[J].Journal of Computer-Aided Design & Computer Graphics,2015,27(8):1498-1505.(in Chinese) 云海姣,吴志勇,王冠军,等.结合直方图均衡和模糊集理论的红外图像增强[J].计算机辅助设计与图形学学报,2015,27(8):1498-1505. [10]WANG X Y,ZHANG H Y,WU Y D,et al.Low-illumination image enhancement based on physical model[J].Journal of Computer Applications,2015,35(8):2301-2304.(in Chinese) 王小元,张红英,吴亚东,等.基于物理模型的低照度图像增强算法[J].计算机应用,2015,35(8):2301-2304. [11]BAISHUN C Q,FAN W T.Image Enhancement Based on Multi-Scale Decomposition of Bilateral Filtering.Journal of Chongqing University of Technology(Natural Science),2017,31(5):133-136.(in Chinese) 柏顺陈樵,范文涛.基于多尺度分解的双边滤波图像增强.重庆理工大学学报(自然科学),2017,31(5):133-136. |
[1] | CHEN Zhi-qiang, HAN Meng, LI Mu-hang, WU Hong-xin, ZHANG Xi-long. Survey of Concept Drift Handling Methods in Data Streams [J]. Computer Science, 2022, 49(9): 14-32. |
[2] | WANG Ming, WU Wen-fang, WANG Da-ling, FENG Shi, ZHANG Yi-fei. Generative Link Tree:A Counterfactual Explanation Generation Approach with High Data Fidelity [J]. Computer Science, 2022, 49(9): 33-40. |
[3] | ZHANG Jia, DONG Shou-bin. Cross-domain Recommendation Based on Review Aspect-level User Preference Transfer [J]. Computer Science, 2022, 49(9): 41-47. |
[4] | ZHOU Fang-quan, CHENG Wei-qing. Sequence Recommendation Based on Global Enhanced Graph Neural Network [J]. Computer Science, 2022, 49(9): 55-63. |
[5] | SONG Jie, LIANG Mei-yu, XUE Zhe, DU Jun-ping, KOU Fei-fei. Scientific Paper Heterogeneous Graph Node Representation Learning Method Based onUnsupervised Clustering Level [J]. Computer Science, 2022, 49(9): 64-69. |
[6] | CHAI Hui-min, ZHANG Yong, FANG Min. Aerial Target Grouping Method Based on Feature Similarity Clustering [J]. Computer Science, 2022, 49(9): 70-75. |
[7] | ZHENG Wen-ping, LIU Mei-lin, YANG Gui. Community Detection Algorithm Based on Node Stability and Neighbor Similarity [J]. Computer Science, 2022, 49(9): 83-91. |
[8] | LYU Xiao-feng, ZHAO Shu-liang, GAO Heng-da, WU Yong-liang, ZHANG Bao-qi. Short Texts Feautre Enrichment Method Based on Heterogeneous Information Network [J]. Computer Science, 2022, 49(9): 92-100. |
[9] | XU Tian-hui, GUO Qiang, ZHANG Cai-ming. Time Series Data Anomaly Detection Based on Total Variation Ratio Separation Distance [J]. Computer Science, 2022, 49(9): 101-110. |
[10] | NIE Xiu-shan, PAN Jia-nan, TAN Zhi-fang, LIU Xin-fang, GUO Jie, YIN Yi-long. Overview of Natural Language Video Localization [J]. Computer Science, 2022, 49(9): 111-122. |
[11] | CAO Xiao-wen, LIANG Mei-yu, LU Kang-kang. Fine-grained Semantic Reasoning Based Cross-media Dual-way Adversarial Hashing Learning Model [J]. Computer Science, 2022, 49(9): 123-131. |
[12] | ZHOU Xu, QIAN Sheng-sheng, LI Zhang-ming, FANG Quan, XU Chang-sheng. Dual Variational Multi-modal Attention Network for Incomplete Social Event Classification [J]. Computer Science, 2022, 49(9): 132-138. |
[13] | DAI Yu, XU Lin-feng. Cross-image Text Reading Method Based on Text Line Matching [J]. Computer Science, 2022, 49(9): 139-145. |
[14] | QU Qian-wen, CHE Xiao-ping, QU Chen-xin, LI Jin-ru. Study on Information Perception Based User Presence in Virtual Reality [J]. Computer Science, 2022, 49(9): 146-154. |
[15] | ZHOU Le-yuan, ZHANG Jian-hua, YUAN Tian-tian, CHEN Sheng-yong. Sequence-to-Sequence Chinese Continuous Sign Language Recognition and Translation with Multi- layer Attention Mechanism Fusion [J]. Computer Science, 2022, 49(9): 155-161. |
|