{"title":"A Fast and Robust Protocol for Reconstruction and Re-Enactment of Historical Sites","authors":"S. I. Abu Alasal, M. M. Esbeih, E. R. Fayyad, R. S. Gharaibeh, M. Z. Ali, A. A. Freewan, M. M. Jamhawi","volume":94,"journal":"International Journal of Computer and Information Engineering","pagesStart":1846,"pagesEnd":1852,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/9999551","abstract":"
This research proposes a novel reconstruction protocol
\r\nfor restoring missing surfaces and low-quality edges and shapes in
\r\nphotos of artifacts at historical sites. The protocol starts with the
\r\nextraction of a cloud of points. This extraction process is based on
\r\nfour subordinate algorithms, which differ in the robustness and
\r\namount of resultant. Moreover, they use different -but
\r\ncomplementary- accuracy to some related features and to the way
\r\nthey build a quality mesh. The performance of our proposed protocol
\r\nis compared with other state-of-the-art algorithms and toolkits. The
\r\nstatistical analysis shows that our algorithm significantly outperforms
\r\nits rivals in the resultant quality of its object files used to reconstruct
\r\nthe desired model.<\/p>\r\n","references":"[1]\tJ.C. Torres, G. Arroyo , C. Romo , J. De Haro, \"3D Digitization using Structure from Motion\" . CEIG - Spanish Computer Graphics Conference, 2012.\r\n[2]\tR. Hartly, P. Sturm \"Triangulation, Computer Vision and Image Understanding\" Volume 68, Issue 2, November 1997, pp. 146\u2013157.\r\n[3]\tJiang, X. Li, and G. Zhang, \"SIFT Hardware Implementation for Real-Time Image Feature Extraction,\" Circuits and Systems for Video Technology, 2014.\r\n[4]\tMathias Rothermel, Konrad Wenzel, Dieter Fritsch, Norbert Haala, \"SURE Photogrammetric surface reconstruction from imagery,\u201d unpublished.\r\n[5]\tF. Memoli, G. Sapiro, \"Comparing point clouds\", SGP '04 Proceedings of the 2004 Eurographics\/ACM SIGGRAPH symposium on Geometry processing.\r\n[6]\tCignoni, M. Callieri, M. Dellepiane, F. Ganovelli, G. Ranzuglia \"MeshLab: an open-source mesh processing tool\" Eurographics Italian Chapter Conference (2008).\r\n[7]\tF. Bernardin, J. Mittleman, H. Rushmeier \"The Ball-Pivoting Algorithm for Surface Reconstruction,\" IEEE Transaction on Visualization and Computer Graphics, Vol. 5, No.4, October-December1999.\r\n[8]\tO. Chum, T. Werner, and J. Matas, \"Epipolar geometry estimation via RANSAC benefits from the oriented epipolar constraint,\" in Pattern Recognition, 2004. ICPR 2004. Proceedings of the 17th International Conference, 2004, pp.112-115 Vol. 1.\r\n[9]\tS. Holmes, G. Sibley, G. Klein, and D. W. Murray, \"A relative frame representation for fixed-time bundle adjustment in SFM,\" in Robotics and Automation, 2009, pp. 2264-2269.\r\n[10]\tT. Tung, S. Nobuhara, and T. Matsuyama, \"Complete multi-view reconstruction of dynamic scenes from probabilistic fusion of narrow and wide baseline stereo,\" in Computer Vision, 2009 IEEE 12th International Conference (2009), pp. 1709-1716.\r\n[11]\tS. Park, S. lee, J. Kim \"A surface reconstruction algorithm using weighted alpha shapes\" FSKD'05 Proceedings of the Second international conference on Fuzzy Systems and Knowledge Discovery - Volume Part I, pp. 1141-1150.\r\n[12]\tM. Tang, M. Lee, Y. Kim, \"Interactive Hausdorff Distance Computation for General Polygonal Models\" ACM Transactions on Graphics (TOG) - Proceedings of ACM SIGGRAPH 2009 Volume 28 Issue 3, August 2009 Article No. 74.","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 94, 2014"}