Iranian Remote Sensing and GIS Society / Shahid Beheshti University Iranian Journal of Remote Sensing and GIS 2008-5966 10 2 2018 11 22 Improved Automatic Polygonal Restoration in Geographic Information Systems Improved Automatic Polygonal Restoration in Geographic Information Systems 75 94 96546 FA K Borna Assistant Prof. of Kharazmi University, Faculty of Mathematics and Computer Science, Dep. of Computer Science, Tehran F Fathi M.Sc. of Computer Engineering (Software), Institute of Technical and Vocational Higher Education, Agriculture Jihad, Agricultural Research, Education and Extension Organization (AREEO), Tehran Journal Article 2018 09 22 Repairing incorrect polygons for use in GIS software is semi-automated and time-consuming.Automatic polygon repair, interpretation of obscure polygons, and elimination of all existing bugsbased on definitions and global standards that have many uses in software related to GIS. Due to thecomplexity of the computation and data volumes in working with big data, there is always acompetition between the speed and the amount of memory used. In this paper, while introducing thestandard of the characteristics of simple complications in polygons, using Delaunay Triangulation andGTS functions in Java and with the help of the H2 database, a method is presented that receivespolygons in the form of a file in the CSV format and applies several effective algorithms toautomatically repair them. The polygons in the spatial data set are automated at optimal time and withminimal memory consumption and are repaired if necessary. The results show that this method,compared with the previous ones, our method leads to relative improvement in execution speed andprovides more than 50 percent saving (in average) in the main memory while working with big data. Repairing incorrect polygons for use in GIS software is semi-automated and time-consuming.Automatic polygon repair, interpretation of obscure polygons, and elimination of all existing bugsbased on definitions and global standards that have many uses in software related to GIS. Due to thecomplexity of the computation and data volumes in working with big data, there is always acompetition between the speed and the amount of memory used. In this paper, while introducing thestandard of the characteristics of simple complications in polygons, using Delaunay Triangulation andGTS functions in Java and with the help of the H2 database, a method is presented that receivespolygons in the form of a file in the CSV format and applies several effective algorithms toautomatically repair them. The polygons in the spatial data set are automated at optimal time and withminimal memory consumption and are repaired if necessary. The results show that this method,compared with the previous ones, our method leads to relative improvement in execution speed andprovides more than 50 percent saving (in average) in the main memory while working with big data. https://gisj.sbu.ac.ir/article_96546_aad5e462cbbee294bebd2e5ab3b8f1b6.pdf