[1] 武芳, 巩现勇, 杜佳威. 地图制图综合回顾与前望[J]. 测绘学报, 2017, 46(10):1645-1664. DOI:10.11947/j.AGCS.2017.20170287. WU Fang, GONG Xianyong, DU Jiawei. Overview of the Research Progress in Automated Map Generalization[J]. Acta Geodaetica et Cartographica Sinica, 2017, 46(10):1645-1664. DOI:10.11947/j.AGCS.2017.20170287. [2] DOUGLAS D H, PEUCKER T K. Algorithms for the Reduction of the Number of Points Required to Represent a Digitized Line or its Caricature[J]. Cartographica:The International Journal for Geographic Information and Geovisualization, 1973, 10(2):112-122. [3] LI Zhilin, OPENSHAW S. A Natural Principle for the Objective Generalization of Digital Maps[J]. Cartography and Geographic Information Systems, 1993, 20(1):19-29. [4] VISVALINGAM M, WHYATT J D. Line Generalization by Repeated Elimination of Points[J]. The Cartographic Journal, 1993, 30(1):46-51. [5] GUO Qingsheng, BRANDENBERGER C, HURNI L. A Progressive Line Simplification Algorithm[J]. Geo-spatial Information Science, 2002, 5(3):41-45. [6] RAPOSO P. Scale-specific Automated Line Simplification by Vertex Clustering on a Hexagonal Tessellation[J]. Cartography and Geographic Information Science, 2013, 40(5):427-443. [7] TIENAAH T, STEFANAKIS E, COLEMAN D. Contextual Douglas-Peucker Simplification[J]. Geomatica, 2015, 69(3):327-338. [8] 李成名, 郭沛沛, 殷勇, 等. 一种顾及空间关系约束的线化简算法[J]. 测绘学报, 2017, 46(4):498-506. DOI:10.11947/j.AGCS.2017.20160546. LI Chengming, GUO Peipei, YIN Yong, et al. A Line Simplification Algorithm Considering Spatial Relations between Two Lines[J]. Acta Geodaetica et Cartographica Sinica, 2017, 46(4):498-506. DOI:10.11947/j.AGCS.2017.20160546. [9] 艾廷华, 郭仁忠, 刘耀林. 曲线弯曲深度层次结构的二叉树表达[J]. 测绘学报, 2001, 30(4):343-348. AI Tinghua, GUO Renzhong, LIU Yaolin. A Binary Tree Representation of Curve Hierarchical Structure in Depth[J]. Acta Geodaetica et Cartographica Sinica, 2001, 30(4):343-348. [10] 翟仁健, 武芳, 朱丽, 等. 利用地理特征约束进行曲线化简[J]. 武汉大学学报(信息科学版), 2009, 34(9):1021-1024, 1089. ZHAI Renjian, WU Fang, ZHU Li, et al. Structured Representation of Curve Shape[J]. Geomatics and Information Science of Wuhan University, 2009, 34(9):1021-1024, 1089. [11] 杜佳威, 武芳, 李靖涵, 等. 采用多元弯曲组划分的线要素化简方法[J]. 计算机辅助设计与图形学学报, 2017, 29(12):2189-2196. DU Jiawei, WU Fang, LI Jinghan, et al. Line Simplification Method Based on Multi-bends Groups Division[J]. Journal of Computer-Aided Design & Computer Graphics, 2017, 29(12):2189-2196. [12] 彭东亮, 邓敏, 刘慧敏. 更充分利用独立弯曲结构的线状要素Morphing变换方法[J]. 测绘学报, 2014, 43(6):637-644, 652. DOI:10.13485/j.cnki.11-2089.2014.0100. PENG Dongliang, DENG Min, LIU Huimin. Morphing Transformation of Linear Features by Using Independent Bend Structures More Sufficiently[J]. Acta Geodaetica et Cartographica Sinica, 2014, 43(6):637-644, 652. DOI:10.13485/j.cnki.11-2089.2014.0100. [13] QIAN Haizhong, ZHANG Meng, WU Fang. A New Simplification Approach Based on the Oblique-dividing-curve Method for Contour Lines[J]. International Journal of Geo-Information, 2016, 5(9):153. [14] AI Tinghua, KE Shu, YANG Min, et al. Envelope Generation and Simplification of Polylines Using Delaunay Triangulation[J]. International Journal of Geographical Information Science, 2017, 31(2):297-319. [15] 武芳, 邓红艳. 基于遗传算法的线要素自动化简模型[J]. 测绘学报, 2003, 32(4):349-355. WU Fang, DENG Hongyan. Using Genetic Algorithms for Solving Problems in Automated Line Simplification[J]. Acta Geodaetica et Cartographica Sinica, 2003, 32(4):349-355. [16] JIANG Bin, NAKOS B. Line Simplification Using Self-organizing Maps[C/DK]//A Working Paper Presented at ISPRS Workshop on Spatial Analysis and Decision Making. Hong Kong, China:ISPRS, 2003. [17] 郑春燕, 郭庆胜, 胡华科. 基于蚁群优化算法的线状目标简化模型[J]. 测绘学报, 2011, 40(5):635-638. ZHENG Chunyan, GUO Qingsheng, HU Huake. The Simplification Model of Linear Objects Based on Ant Colony Optimization Algorithm[J]. Acta Geodaetica et Cartographica Sinica, 2011, 40(5):635-638. [18] AI Tinghua, ZHOU Qi, ZHANG Xiang, et al. A Simplification of Ria Coastline with Geomorphologic Characteristics Preserved[J]. Marine Geodesy, 2014, 37(2):167-186. [19] 王厚祥, 李进杰. 海图制图综合[M]. 北京:测绘出版社, 1999. WANG Houxiang, LI Jinjie. Chart Cartographic Generalization[M]. Beijing:Surveying and Mapping Press, 1999. [20] CHRISTENSEN A H J. Cartographic Line Generalization with Waterlines and Medial-axes[J]. Cartography and Geographic Information Science, 1999, 26(1):19-32. [21] 王亮, 吴艳兰, 汤军, 等. 改进的双向缓冲海岸线综合方法研究[J]. 测绘科学, 2015, 40(1):18-21, 13. WANG Liang, WU Yanlan, TANG Jun, et al. A Coastline Generalization Method for Marine Delimitation[J]. Science of Surveying and Mapping, 2015, 40(1):18-21, 13. [22] 陈惠荣, 彭认灿, 郑义东, 等. 以弯曲骨架线为化简指标的海岸线综合方法[J]. 武汉大学学报(信息科学版), 2011, 36(12):1418-1422. CHEN Huirong, PENG Rencan, ZHENG Yidong, et al. Coastline Generalization Based on Skeleton Line of Curve Bends[J]. Geomatics and Information Science of Wuhan University, 2011, 36(12):1418-1422. [23] WANG Zeshen, MULLER J C. Complex Coastline Generalization[J]. Cartography and Geographic Information Systems, 1993, 20(2):96-106. [24] VISVALINGAM M, WHELAN J C. Implications of Weighting Metrics for Line Generalization with Visvalingam's Algorithm[J]. The Cartographic Journal, 2016, 53(3):253-267. [25] 金长茂, 眭良仁. 试论河口湾[J]. 海洋学报, 1989, 11(3):378-384. JIN Changmao, SUI Liangren. Discussion on the Estuary[J]. Acta Oceanologica Sinica, 1989, 11(3):378-384. [26] 夏东兴, 边淑华, 丰爱平, 等. 海岸带地貌学[M]. 北京:海洋出版社, 2014. XIA Dongxing, BIAN Shuhua, FENG Aiping, et al. Coastal Zone Geomorphology[M]. Beijing:China Ocean Press, 2014. [27] 王家耀, 范亦爱, 韩同春, 等. 普通地图制图综合原理[M]. 北京:测绘出版社, 1993. WANG Jiayao, FAN Yiai, HAN Tongchun, et al. Cartographic Generalization Theory of General Map[M]. Beijing:Surveying and Mapping Press, 1993. [28] 李振豪, 杨春成, 魏斌, 等. 道路与建筑物空间冲突的几何相似性移位算法[J]. 测绘学报, 2016, 45(6):747-755. DOI:10.11947/j.AGCS.2016.20150559. LI Zhenhao, YANG Chuncheng, WEI Bin, et al. A Displacement Algorithm Based on Geometry Similarity for Spatial Conflicts Between Roads and Buildings[J]. Acta Geodaetica et Cartographica Sinica, 2016, 45(6):747-755. DOI:10.11947/j.AGCS.2016.20150559. [29] 董箭, 彭认灿, 张立华, 等. 顾及"保真性"原则的双向滚动球变换DDM多尺度表达算法[J]. 测绘学报, 2017, 46(6):789-801. DOI:10.11947/j.AGCS.2017.20160558. DONG Jian, PENG Rencan, ZHANG Lihua, et al. Multi-scale Representation of Digital Depth Model Based on Double Direction Rolling Ball Transform According to the Reality Principle[J]. Acta Geodaetica et Cartographica Sinica, 2017, 46(6):789-801. DOI:10.11947/j.AGCS.2017.20160558. [30] 朱鲲鹏, 武芳, 王辉连, 等. Li-Openshaw算法的改进与评价[J]. 测绘学报, 2007, 36(4):450-456. DOI:10.3321/j.issn:1001-1595.2007.04.015. ZHU Kunpeng, WU Fang, WANG Huilian, et al. Improvement and Assessment of Li-Openshaw Algorithm[J]. Acta Geodaetica et Cartographica Sinica, 2007, 36(4):450-456. DOI:10.3321/j.issn:1001-1595.2007.04.015. |