Polygonal Approximation of Digital Curves Using a Multi-objective Genetic Algorithm

机译：使用多目标遗传算法的数字曲线多边形逼近

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In this paper, a polygonal approximation approach based on a multi-objective genetic algorithm is proposed. In this method, the optimization/exploration algorithm locates breakpoints on the digital curve by minimizing simultaneously the number of breakpoints and the approximation error. Using such an approach, the algorithm proposes a set of solutions at its end. This set which is called the Pareto Front in the multi objective optimization field contains solutions that represent trade-offs between the two classical quality criteria of polygonal approximation : the Integral Square Error (ISE) and the number of vertices. The user may choose his own solution according to its objective. The proposed approach is evaluated on curves issued from the literature and compared with many classical approaches.

机译：本文提出了一种基于多目标遗传算法的多边形逼近方法。在这种方法中，优化/探索算法通过同时最小化断点的数量和近似误差来在数字曲线上定位断点。使用这种方法，该算法在其末尾提出了一组解决方案。在多目标优化字段中称为“ Pareto前沿”的集合包含表示多边形近似的两个经典质量标准（积分平方误差（ISE）和顶点数）之间进行权衡的解决方案。用户可以根据其目标选择自己的解决方案。所提出的方法是根据文献中的曲线进行评估的，并与许多经典方法进行比较。

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来源
《International Workshop on Graphics Recognition(GREC 2005); 20050825-26; Hong Kong(CN)》|2005年|P.300-311|共12页
会议地点 Hong Kong(CN)
作者
Herve Locteau; Romain Raveaux; Sebastien Adam; Yves Lecourtier; Pierre Heroux; Eric Trupin;
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作者单位

LITIS, Universite de Rouen, F-76800 Saint-Etienne du Rouvray, France;

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原文格式 PDF
正文语种 eng
中图分类信息处理（信息加工）;
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入库时间 2022-08-26 13:50:30

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1. GENETIC ALGORITHMS FOR POLYGONAL APPROXIMATION OF DIGITAL CURVES [J] . PENG-YENG YIN International Journal of Pattern Recognition and Artificial Intelligence . 1999,第7期

机译：用于数字曲线的多边形逼近的遗传算法
2. A genetic algorithm with chromosome-repairing for min - # and min - ε polygonal approximation of digital curves [J] . Bin Wang, Huazhong Shu, Limin Luo Journal of visual communication & image representation . 2009,第1期

机译：数字曲线的Min-＃和Min-ε多边形逼近的染色体修复遗传算法。
3. A GENETIC ALGORITHM-BASED APPROACH FOR DETECTION OF SIGNIFICANT VERTICES FOR POLYGONAL APPROXIMATION OF DIGITAL CURVES [J] . BISWAJIT SARKAR, LOKENDRA KUMAR SINGH, DEBRANJAN SARKAR International Journal of Image and Graphics . 2004,第2期

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4. Polygonal Approximation of Digital Curves Using a Multi-objective Genetic Algorithm [C] . Herve Locteau, Romain Raveaux, Sebastien Adam, International Workshop on Graphics Recognition . 2006

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5. PRECISION ANALOG TO DIGITAL AND DIGITAL TO ANALOG CONVERSION USING REFERENCE RECIRCULATING ALGORITHMIC ARCHITECTURES (CODEC, CYCLIC, SUCCESSIVE APPROXIMATION) [D] . SHIH, CHENG-CHUNG. 1985

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7. Polygonal Approximation of Digital Curves Using a Multi-objective Genetic Algorithm [O] . Herve Locteau, Romain Raveaux, Sebastien Adam, 2006

机译：多目标遗传算法的数字曲线多边形近似

Polygonal Approximation of Digital Curves Using a Multi-objective Genetic Algorithm

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