Roof Material Detection Based on Object-Based Approach Using WorldView-2 Satellite Imagery
| Autor: | Taherzadeh, Ebrahim, Shafri, Helmi Z. M., Shahi, Kaveh |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2014 |
| Předmět: | |
| DOI: | 10.5281/zenodo.1096451 |
| Popis: | One of the most important tasks in urban remote sensing is the detection of impervious surfaces (IS), such as roofs and roads. However, detection of IS in heterogeneous areas still remains one of the most challenging tasks. In this study, detection of concrete roof using an object-based approach was proposed. A new rule-based classification was developed to detect concrete roof tile. This proposed rule-based classification was applied to WorldView-2 image and results showed that the proposed rule has good potential to predict concrete roof material from WorldView-2 images, with 85% accuracy. {"references":["E. Taherzadeh, and H. Z. M. Shafri. \"Development of a Generic Model\nfor the Detection of Roof Materials Based on an Object-Based Approach\nUsing WorldView-2 Satellite Imagery.\" Adv. in Remote Sens 2013.","C. L. J. Arnold, and C. J. Gibbons, \"Impervious Surface Coverage: the\nEmergence of a Key Environmental Indicator,\" J. of Am Plan Assoc,\nVol. 62, No. 2, 1996, pp. 243-258.","Z. Sun, H. Guo, X. Li, L. Lu and X. Du, \"Estimating Urban Impervious\nSurfaces from Landsat-5 TM Imagery Using Multilayer Perceptron\nNeural Network and Support Vector Machine,\" J. of App. Remote Sens,\nVol. 5, No. 1, 2011.","T. R. Oke, \"Boundary Layer Climates,2nd Edition, Methuen and Co.\nLtd., Routledge, New York, 1987.","Y. Yang and P. Pan, \"Research on the Impact of Impervious Surface\nArea on Urban Heat Island in Jiangsu Province,\" Proceeding of SPIE\n8286, Int. Symposium on Lidar and Radar Mapping, Technologies and\nApplications, Nanjing, 26 May 2011.","L. Cao, P. Li and L. Zhang, \"Impact of Impervious surface face on\nUrban Heat Island in Wuhan, China,\" Proceed-ings in Int. Conf. on\nEarth Observation Data Proc. and Anal. (ICEODPA), Wuhan, 29\nDecember 2008.","I. J. A. Callejas, A. S. De Oliveira, FC. Durante and M. C. De J. A.\nNogueira, \"Relationship between Land Use/Cover and Surface\nTemperatures in the Urban Agglomeration of Cuiabá-Várzea Grande,\nCentral Brazil,\" J. of Appl. Remote Sens., Vol. 5, No. 1, 2011.","D. Lu, and Q. Weng. \"Use of impervious surface in urban land-use\nclassification\". Remote Sens of Environ. 102(1): 146-160, 2006.","F. Yuan, and M.E. Bauer. \"Comparison of impervious surface area and\nnormalized difference vegetation index as indicators of surface urban\nheat island effects in Landsat imagery\". Remote Sens of Environ.\n106(3): 375–386, 2007.\n[10] Q. Weng, \"Modeling Urban Growth Effect on Surface Runoff with the\nintegration of Remote sensing and GIS\". Environmental Management,\nVol. 28, No. 6, 2001, pp. 737-748.\n[11] Y. Wang and X. Zhang, \"A SPLIT Model for Extraction of Sub-Pixel\nImpervious Surface Information\" Photogramm. Eng. and Remote Sens,\nVol. 70, No. 7, 2004, pp. 821-828.\n[12] S. E. Clark, K. A. Steele, J. Spicher, C. Y. S. Siu, M. M. Lalor, R. Pitt\nand J. T. Kirby, \" Roofing Materials' contributions to Storm-Water\nRunoff Pollution,\" J. of Irrigation and Drainage Eng. Vol. 134, No. 5,\n2008, pp. 638-645.\n[13] S. Bhaskaran, B. Datt, T. Neal and B. Forster, \"Hail Storm Vulnerability\nAssessment by Using Hyperspectral Remote Sensing and GIS\nTechniques,\" Proc. of the IGARSS Symposium, Sydney, 9-13 July\n2001, pp. 1826-1828.\n[14] A. Szykier, \"Extraction of Roof Surface for Solar Analysis,\" Maps\nCapital Management, 2008. http://www.mapscapital.com/schoolpowers/\nmedia/pdf/RoofSurfaceExtraction.pdf\n[15] U. Rajasekar and Q. Weng, \"Urban Heat Island Monitoring and Analysis\nUsing Nonparametric Model: A Case of Indianapolis,\" ISPRS J. of\nRemote Sens, Vol. 64, No. 1, 2009, pp. 86-96.\n[16] M. Herold, M. Gardner, B. Hadley and D. Roberts, \"The Spectral\nDimension in Urban Land Cover Mapping from High-Resolution\nOptical Remote Sensing Data,\" Proceedings of the 3rd Symposium on\nRemote Sen. of Urban Areas, Istanbul, June 2002.\n[17] P. Wang, X. Feng, S. Zhao, P. Xiao and C. Xu, \"Com-parison of Object-\nOriented with Pixel-Based Classification Techniques on Urban\nClassification Using TM and IKONOS Imagery,\" Proc. in SPIE 6752,\nGeoinformatics, Nanjing, 26 July 2007.\n[18] E. Taherzadeh, H. Z. M. Shafri, S. H. K. Soltani, M. Shattri and R.\nAshurov, \"A Comparison between different Pixel-Based Classification\nMethods Over Urban Area Using Very High Resolution Data,\" ASPRS\nAnnual Conf., Sacramento, 19-23 March 2012.\n[19] S. V. D. Linden, A. Janz, B. Waske, M. Eiden and P.Hostert,\n\"Classifying Segmented Hyperspectral Data from a Heterogeneous\nUrban Environment Using Support Vector Machines,\" J. of Appl.\nRemote Sens. Vol. 1, No. 1, 2007.\n[20] D. Chen, D. A. Stow and P. Gong, \"Examining the Effect of Spatial\nResolution and Texture Window Size on classification Accuracy: An\nUrban Environment Case,\" Int. J. of Remote Sens. Vol. 25, No. 11,\n2004, pp. 1-16.\n[21] L. Wang, Q. Dai, L. Hong and G. Liu, \"Adaptive Regional Feature\nExtraction for Very High Spatial resolution Image Classification,\" J. of\nApplied Remote Sens. Vol. 6, No. 1, 2012.\n[22] Wang, P., Feng, X., Zhao, S., Xiao, P., and Xu, C, \"Comparison of\nobject-oriented with pixel-based classification techniques on urban\nclassification using TM and IKONOS imagery.\" Proc. In SPIE 6752,\nGeoinformatics: Remote Sens. Data and Info. Nanjing, China , May. 25,\n2007.\n[23] Gong, P., Marceau, D.J., and Howarth, P.J, \"A comparison of spatial\nfeature extraction algorithms for land-use classification with SPOT HRV\ndata.\" Remote Sens of Environ. 40(2): 137–151, 1992.\n[24] Shackelford, A. K., and Davis, C.H, \"A combined fuzzy pixel-based and\nobject-based approach for classification of high-resolution multispectral\ndata over urban areas.\" IEEE Transa Geoscience and Remote Sens.\n41(10): 2354–2363, 2003.\n[25] Wang, L., Dai, Q., Hong, L., and Liu, G, \"Adaptive regional feature\nextraction for very high spatial resolution image classification.\" J. of\nApp. Remote Sens. 6(1): 063506, 2012.\n[26] Goetz, S.J., Wright, R.K., Smith, A.J., Zinecker, E., and Schaub, E.,\n\"IKONOS imagery for resource management: tree cover, impervious\nsurfaces and riparian buffer analyses in the mid-Atlantic region.\" J. of\nRemote Sens. of Environ. 88(1): 195–208, 2003.\n[27] Lu, D., and Weng, Q., \"A survey of image classification methods and\ntechniques for improving classification performance.\" Int. J. of Remote\nSens. 28(5): 823–870, 2007.\n[28] U. C. Benz, P. Hofmann, G. Willhauck, I. Lingenfelder and M. Heynen,\n\"Multiresolution, \"Object-Oriented Fuzzy Analysis of Remote Sensing\nData for GIS-Ready Information,\" ISPRS J. of Photogramm. and\nRemote Sens. Vol. 58, No. 3-4, 2004, pp. 239-258.\n[29] L. Wang, W. P. Sousa, P. Gong and G. S. Biging, \"Comparison of\nIKONOS and QuickBird Images for Mapping Mangrove Species on the\nCaribbean Coast of Panama,\" Remote Sens. of Environ. Vol. 91, No. 3-\n4, 2004, pp. 432-440.\n[30] Liu, D., and F. Xia. \"Assessing Object-Based Classification: Advantages\nand Limitations.\" Remote Sens. Letters 1 (4): 187–194, 2010.\n[31] A. Hamedianfar, H. Z. M. Shafri, S. Mansor, and N. Ahmad. \"Improving\ndetailed rule-based feature extraction of urban areas from WorldView-2\nimage and lidar data.\" Int. J. of Remote Sens. 35, no. 5: 1876-1899,\n2014."]} |
| Databáze: | OpenAIRE |
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