Synonyms
Focal test; Raster classification; Spatial decision tree
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References
Akselrod-Ballin A, Galun M, Basri R, Brandt A, Gomori MJ, Filippi M, Valsasina P (2006) An integrated segmentation and classification approach applied to multiple sclerosis analysis. In: 2006 IEEE computer society conference on computer vision and pattern recognition, vol 1. IEEE, pp 1122–1129
Anselin L (1995) Local indicators of spatial association-lisa. Geogr Anal 27(2):93–115
Bazell D, Aha DW (2001) Ensembles of classifiers for morphological galaxy classification. Astrophys J 548(1):219
Boncelet C (2005) Image noise models. In: Bovik AC (ed) Handbook of image and video processing, chapter 4.5, 2nd edn. Academic
Celebi ME, Kingravi HA, Aslandogan YA, Stoecker WV (2006) Detection of blue-white veil areas in dermoscopy images using machine learning techniques. In: Proceedings of SPIE, vol 6144. Citeseer, pp 61445T–1
Corcoran JM, Knight JF, Gallant AL (2013) Influence of multi-source and multi-temporal remotely sensed and ancillary data on the accuracy of random forest classification of wetlands in northern minnesota. Remote Sens 5(7):3212–3238
Deschamps A, Greenlee D, Pultz TJ, Saper R (2002) Geospatial data integration for applications in flood prediction and management in the red river basin. In: International geoscience and remote sensing symposium, Toronto. Symposium, geomatics in the era of RADARSAT (GER’97), Ottawa
Friedl MA, Brodley CE (1997) Decision tree classification of land cover from remotely sensed data. Remote Sens Environ 61(3):399–409. Elsevier
Hearne RR (2007) Evolving water management institutions in the red river basin. Environ Manage 40(6):842–852. Springer
Jiang Z, Shekhar S, Zhou X, Knight J, Corcoran J (2013) Focal-test-based spatial decision tree learning: a summary of results. In: 2013 IEEE 13th international conference on data Mining IEEE, pp 320–329
Jiang Z, Shekhar S, Zhou X, Knight J, Corcoran J (2015) Focal-test-based spatial decision tree learning. IEEE Trans Knowl Data Eng 27(6):1547–1559
Knight JF, Tolcser BP, Corcoran JM, Rampi LP (2013) The effects of data selection and thematic detail on the accuracy of high spatial resolution wetland classifications. Photogramm Eng Remote Sens 79(7):613–623
Li X, Claramunt C (2006) A spatial Entropy-Based decision tree for classification of geographical information. Trans GIS 10(3):451–467. Blackwell Publishing Ltd
Quinlan JR (1993) C4.5: programs for machine learning. Morgan Kaufmann
Van Westen CJ (2000) Remote sensing for natural disaster management. Int Arch Photogramm Remote Sens 33(B7/4; PART 7):1609–1617
Walsh B (2010) How wetlands worsen climate change. http://www.time.com/time/health/article/0,8599,1953751,00.html. Jan 2010
Yuan T, Kuo W (2008) Spatial defect pattern recognition on semiconductor wafers using model-based clustering and bayesian inference. Eur J Oper Res 190(1):228–240
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Jiang, Z. (2017). Focal-Test-Based Spatial Decision Tree. In: Shekhar, S., Xiong, H., Zhou, X. (eds) Encyclopedia of GIS. Springer, Cham. https://doi.org/10.1007/978-3-319-17885-1_1513
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DOI: https://doi.org/10.1007/978-3-319-17885-1_1513
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