测绘通报 ›› 2017, Vol. 0 ›› Issue (1): 5-11.doi: 10.13474/j.cnki.11-2246.2017.0002
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QIAN Mengru1, LIANG Dongdong1, WU Xu2
Received:
2016-04-24
Online:
2017-01-25
Published:
2017-02-06
CLC Number:
QIAN Mengru, LIANG Dongdong, WU Xu. Research Progress of Map Color Design Based on People with Color-vision Deficiency[J]. 测绘通报, 2017, 0(1): 5-11.
[1] 王宁, 余隋怀, 苟秉宸,等. 面向色盲人群的计算机辅助色彩设计技术研究[J]. 科学技术与工程, 2007, 12(7):2880-2884. [2] 吴兵, 陈立刚. 面向色盲人群的媒体界面设计策略与流程[J]. 远程教育杂志, 2008(1):76-78. [3] 吴兵, 陈立钢. 面向色盲人群的色彩设计系统研究[J]. 巢湖学院学报, 2009, 10(6):77-81. [4] 周宪. 面向色盲人群的计算机辅助色彩设计系统研究[J]. 西安工业大学学报,2009(3):223-227. [5] 初苗, 田少辉. 面向色盲人群的包装色彩设计数字化技术研究[J]. 包装工程, 2010(12):115-118. [6] 朱健文. 界面设计中针对色盲人群的色彩选择方式研究[J]. 轻工科技, 2008, 24(5):102-103. [7] 张旭芳. 浅谈无障碍色彩设计[J]. 艺术与设计(理论), 2010(2):18-20. [8] 李霞, 杨露. 数字化交互中的无障碍色彩设计研究[J]. 装饰,2012(11):79-80. [9] 李霞, 李霜燕, 杨露. 网络环境中的无障碍交互色彩的情感研究[J]. 北京邮电大学学报(社会科学版), 2014, 16(03):39-44. [10] 杨露. 数字媒体无障碍交互色彩的认知与情感联想研究[D]. 北京:北京邮电大学, 2014. [11] 汪源源, 马煜, 顾晓东,等. 基于BP神经网络的色盲及色弱矫正方法:中国, CN1895191[P]. 2007-01-17. [12] YANG S J, RO Y M. Visual Contents Adaption for Color Vision Deficiency[C]//IEEE International Conference on Image Processing.[S.l.]:IEEE, 2003:453-456. [13] DENG Y, WANG Y, MA Y, et al. A Fixed Transformation of Color Images for Dichromats Based on Similarity Matrices[J].Lecture Notes in Computer Science,2007(4681):1018-1028. [14] 鲍吉斌. 基于图像颜色变换的色盲矫正方法研究[D]. 上海:复旦大学, 2009. [15] 鲍吉斌, 汪源源, 马煜,等. 基于H分量旋转的色盲矫正方法[J]. 生物医学工程学进展, 2008, 3(3):125-130. [16] 吴丽思. 色盲图像矫正算法研究及测试系统设计[D]. 武汉:武汉理工大学, 2014. [17] 孙养龙. 基于Android的色盲矫正系统设计与实现[D]. 郑州:郑州大学, 2014. [18] 白小双, 江南, 肖培培. 色盲地图的设色方案研究[C]//《测绘通报》测绘科学前沿技术论坛摘要集.北京:测绘出版社,2008:1-4. [19] 白小双, 华一新, 崔虎平. 面向色觉异常者的电子地图研究与实践[J]. 测绘通报, 2009(2):39-42. [20] 沈意浪, 傅梅杰. 针对色盲人群的地图色彩选择方式研究[J]. 科技资讯, 2012(15):216-217. [21] 汪华, 朱海红, 李霖. 利用地理属性量表的色盲人群地图色彩设计研究[J]. 武汉大学学报(信息科学版), 2012, 37(4):477-481. [22] 钟璇, 李霖, 朱海红. 针对色觉异常人群的地图设计研究[J]. 测绘科学, 2012, 37(4):90-92. [23] SCHEIBNER H M, BOYNTON R M. Residual Red-Green Discrimination in Dichromats[J]. Journal of the Optical Society of America(1917-1983), 1968, 58(8):1151-1158. [24] BERLIN B, KAY P. Basic Color Terms:Their Universality and Evolution[M].[S.l.]:CSLI, 1969. [25] JAMESON D, HURVICH L M. Dichromat Color Language:"Reds" and "Greens" Don't Look Alike But Their Colors Do[J]. Sensory Processes, 1978, 2(2):146-155. [26] PARAMEI G V, BIMLER D L, CAVONIUS C R. Effect of Luminance on Color Perception of Protanopes[J]. Vision Research, 1998, 38(21):3397-3401. [27] MONTAG E D. Surface Color Naming in Dichromats.[J]. Vision Research, 1994, 34(16):2137-2151. [28] UCHIKAWA K, NAKAJIMA C, SEGAWA K. Categorical Color Constancy for Dichromats[J]. Journal of Vision, 2005,5(8):272. [29] NAGEL W. Dichromatische Fovea, Trichromatische Peripherie[J]. Z Psychol Physiol Sinnesorg, 1905(39):93-101. [30] THOMAS W, ULRIKE D, RAINER H. Modeling Color Percepts of Dichromats.[J]. Vision Research, 2004, 44(24):2843-2855. [31] BYRNE A, HILBERT D. How Do Things Look to the Color-blind?[J]. Color Ontology & Color Science, 2010. [32] LILLO J, MOREIRA H, ÁLVARO, et al. Use of Basic Color Terms by Red-green Dichromats:General Description[J]. Color Research & Application, 2014, 39(4):360-371. [33] UCHIKAWA K. Categorical Color Perception of Color Normal and Deficient Observers[J]. Optical Review, 2014, 21(6):911-918. [34] PALMER S E, SCHLOSS K B. An Ecological Valence Theory of Human Color Preference[J]. Proceedings of the National Academy of Sciences of the United States of America, 2010, 107(19):8877-8882. [35] HUMPHREY N. The Colour Currency of Nature[J]. Colour for Architecture, 1976(5):95-98. [36] ADAMS R J. An Evaluation of Color Preference in Early Infancy[J]. Infant Behavior & Development, 1987, 10(2):143-150. [37] BORNSTEIN M H. Qualities of Color Vision in Infancy[J]. Journal of Experimental Child Psychology, 1975, 19(3):401-419. [38] SCHLOSS K B, MADELL D, PALMER S E. Ecological Influences on Individual Differences in Color Preference[J]. Attention Perception & Psychophysics, 2015, 77(8):2803-2816. [39] PETZOLD A, SHARPE L T. Hue Memory and Discrimination in Young Children[J]. Vision Research, 1998, 38(23):3759-3772. [40] SCHLOSS, KAREN B. Color Preferences Differ with Variations in Color Perception[J]. Trends in Cognitive Sciences, 2015, 19(10):554-562. [41] LING Y, HURLBERT A C. A New Model for Color Preference:Universality and Individuality[C]//Color and Imaging Conference.[S.l.]:[s.n.], 2007:8-11. [42] OU L C, LUO M R, WOODCOCK A, et al. A Study of Color Emotion and Color Preference, Part I:Color Emotions for Single Colors[J]. Color Research & Application, 2004, 29(3):232-240. [43] LETICIA Á, HUMBERTO M, JULIO L, et al. Color Preference in Red-green Dichromats[C]//Proceedings of the National Academy of Sciences.[S.l.]:[s.n.], 2015. [44] KUYK T K, RD V J, LAHEY M A, et al. The Ability of Protan Color Defectives to Perform Color-dependent Air Traffic Control Tasks[J]. American Journal of Optometry & Physiological Optics, 1986, 63(7):582-586. [45] MERTENS H W, MILBURN N J. Performance of Color-dependent Air Traffic Control Tasks as a Function of Color Vision Deficiency.[J]. Aviation Space & Environmental Medicine, 1996, 67(10):919-927. [46] OLSON J M, BREWER C A. An Evaluation of Color Selections to Accommodate Map Users with Color-Vision Impairments[J]. Annals of the Association of American Geographers, 1997, 87(1):103-134. [47] BREWER C A, MACEACHREN A M, PICKLE L W, et al. Mapping Mortality:Evaluating Color Schemes for Choropleth Maps[J]. Annals of the Association of American Geographers, 1997, 87(3):411-438. [48] JENNY B, KELSO N V. Color Design for the Color Vision Impaired[J]. Cartographic Perspectives, 2007(5):61-67. [49] BRETTEL H, VIÉNOT F, MOLLON J D. Computerized Simulation of Color Appearance for Dichromats.[J]. Journal of the Optical Society of America A, 1997, 14(10):2647-2655. [50] CAPILLA P, DÍEZ-AJENJO M A, LUQUE M J, et al. Corresponding-pair Procedure:A New Approach to Simulation of Dichromatic Color Perception[J]. Journal of the Optical Society of American A, 2004, 21(2):176-186. [51] LEE J, SANTOS W P D. An Adaptive Fuzzy-Based System to Simulate, Quantify and Compensate Color Blindness[J]. Integrated Computer Aided Engineering, 2011, 18(1):29-40. [52] SRIVIDHYA J P, SIVAKUMAR P, RAJARAM M. The Color Blindness Removal Technique in Image by Using Gradient Map Method[C]//2011 International Conference on Signal Processing, Communication, Computing and Networking Technologies(ICSCCN).[S.l.]:IEEE, 2011:24-29. [53] SHANKARAN R, HOVIS J K. Does Dichromatic Color Simulation Predict Color Identification Error Rates?[J]. Optometry & Vision Science, 2011, 88(5):621-627. [54] JULIO L, LETICIA A, HUMBERTO M. An Experimental Method for the Assessment of Color Simulation Tools[J]. Journal of Vision, 2014, 14(8):15. [55] IACCARINO G, MALANDRINO D, PERCIO M D, et al. Efficient Edge-services for Colorblind Users[C]//World Wide Web Conference Series.[S.l.]:[s.n.], 2006:919-920. [56] ICHIKAWA M, TANAKA K, KONDO S, et al. Web-Page Color Modification for Barrier-Free Color Vision with Genetic Algorithm[J]. Lecture Notes in Computer Science, 2003(2724):2134-2146. [57] WAKITA K, SHIMAMURA K. Smart Color:Disambiguation Framework for the Colorblind[C]//Proceedings of the 7th International ACM SIGACCESS Conference on Computers and Accessibility.[S.l.]:ACM, 2005:158-165. [58] JEFFERSON L, HARVEY R. Accommodating Color Blind Computer Users[C]//Proceedings of Assets. Oregon:ACM,2006:40-47. [59] RASCHE K, GEIST R, WESTALL J. Detail Preserving Reproduction of Color Images for Monochromats and Dichromats[J]. IEEE Computer Graphics Applications, 2005, 25(3):22-30. [60] HUANG J B, WU S Y, CHEN C S. Enhancing Color Representation for the Color Vision Impaired[C]//Proceedings of Eccv Workshop on Computer Vision Applications for the Visually Impaired.[S.l.]:[s.n.], 2008. [61] KUHN G R, OLIVEIRA M M, FERNANDES L A F. An Efficient Naturalness-Preserving Image-Recoloring Method for Dichromats[J]. IEEE Transactions on Visualization & Computer Graphics, 2008, 14(6):1747-1754. [62] NAKAUCHI S, ONOUCHI T. Detection and Modification of Confusing Color Combinations for Red Green Dichromats to Achieve a Color Universal Design[J]. Color Research & Application, 2008(33):203-211. [63] RUMINSKI J, WTOREK J, RUMIĦSKA J, et al. Color Transformation Methods for Dichromats[C]//20103rd Conference on Human System Interactions(HSI).[S.l.]:IEEE, 2010:634-641. [64] OHKUBO T, KOBAYASHI K, WATANABE K, et al. Development of a Time-sharing-based Color-assisted Vision System for Persons with Color-vision Deficiency[C]//Proceedings of SICE Annual Conference 2010.[S.l.]:IEEE, 2010:2499-2503. [65] JEONG J Y, KIM H J, WANG T S, et al. An Efficient Re-coloring Method with Information Preserving for the Color-blind[J]. IEEE Transactions on Consumer Electronics, 2011, 57(4):1953-1960. [66] GOOCH A A, OLSEN S C, TUMBLIN J, et al. Color2Gray:Salience-preserving Color Removal[J]. Acm Transactions on Graphics, 2005, 24(3):634-639. [67] GRUNDLAND M, DODGSON N A. Decolorize:Fast, Contrast Enhancing, Color to Grayscale Conversion[J]. Pattern Recognition, 2007, 40(11):2891-2896. [68] RASCHE K, GEIST R, WESTALL J. Re-coloring Images for Gamuts of Lower Dimension[C]//Computer Graphics Forum.[S.l.]:Blackwell Publishing, Inc, 2005:423-432. |
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