Spatial Data Mining And Decision Support Systems

• Adrienko, G. and Adrienko, N. (1999) “Knowledge-based Visualization to Support Spatial Data Mining”, Advances in Intelligent Data Mining (Lecture Notes in Computer Science # 1642) Hand, D.J., Kok, J.N. and Berthold, M.R. (Eds.), Berlin, Germany: Springer-Verlag.

  Google Scholar 

• Ascough II, James C., Rector, H. D., Hoag, D. L., McMaster, G. S., Vendenberg, B. C., Shaffer, M. J., Weltz, M. A. and Ahjua, L. R. (2002) “Multicriteria spatial decision support systems: overview, applications, and future research directions”, Rizzoli, A. E. and Jakeman, A. J. (Eds) Integrated Assessment and Decision Support, Proceeding of the First Biennial Meeting of the International Modelling and Software Society, Manno, Switzerland, pp. 175-180.

  Google Scholar 

• Balram S. and Dragicevic, S. (Eds.) (2006) “Collaborative Geographic Information Systems”, Hershey, PA: Idea Group Publishing.

  Google Scholar 

• Bedard, Y., Gosselin, P., Rivest, S., M. J. Proulx, Nadeau, M., Lebel, G. and Gagnon, M. F. (2003) “Integrating GIS Components with Knowledge Discovery Technology for Environmental Health Decision Support”, International Journal of Medical Informatics, pp. 79-94.

  Google Scholar 

• Bhargava H. K. and Power D. J. (2001) “Decision Support Systems and Web Technologies: a Status Report”, Proceedings of the Seventh Americas Conference on Information Systems, Boston, Mass, pp. 229-235.

  Google Scholar 

• Bremer, M.A. (Ed.) (2003) Knowledge Discovery and Data Mining: Theory and Practice, Institution of Electrical Engineers (IEE), London, UK.

  Google Scholar 

• Chelghoum, N., Zeitouni, K. and Boulmakoul, A. (2002) “A Decision Tree for Multi-layered Spatial Data”, Proceedings Symposium on Spatial Theory, Processing and Applications, Ottawa, ON.

  Google Scholar 

• Chorley, R.J. and Haggett, P. (1965) “Trend Surface Mapping in Geographic Research”, Transactions of the Institute of British Geographers, 7, 47-67.

  Article  Google Scholar 

• Claramunt, C. and Thériault, M. (1995) “Managing Time in GIS: An Event-oriented Approach”,In Recent Advances in Temporal Databases Clifford, J. and Tuzhilin, A. (Eds.), Berlin, Germany: Springer-Verlag.

  Google Scholar 

• Coiera E. (2003) The Guide to Health Informatics, 2nd Edition, London: Edward Arnold.

  Google Scholar 

• CRISP-DM (2000) CRISP 1.0 Process and User Guide, Cross-Industry Standard Process for Data Mining (CRISP-DM).

  Google Scholar 

• Densham, P. (1991) “Spatial Decision Support Systems”, Maguire, D.J., Goodchild, M. F., Rhind, D. W., (Eds) “Geographical Information Systems: principles and applications”, London: Longman, pp. 403-412.

  Google Scholar 

• Ding, Q., Ding, Q. and Perrizo, W. (2002) “Decision Tree Classification of Spatial Data Streams Using Peano Count Trees”, Proceedings ACM Symposium on Applied Computing, Madrid, Spain.

  Google Scholar 

• Ester, M., Frommelt, A., Kreigel, H.-P. and Sander, J. (1999) “Spatial Data Mining: Database Primitives, Algorithms and Efficient Database Support”, Data Mining and Knowledge Discovery, Vol. 4, No. 2/3, pp. 193-216.

  Article  Google Scholar 

• Fayyad, U.M., Piatetsky-Shapiro, G., Smyth, P. and Ulthurusamy, R. (Eds.) (1996) Advances in Knowledge Discovery and Data Mining, Menlo Park, CA: AAAI/MIT Press.

  Google Scholar 

• Feick R. D. and Hall, G. B. (1999) “Consensus Building in a Multi-Participant Decision Support System”, Journal of the Urban and Regional Information Systems Association, No. 11, pp. 17-24.

  Google Scholar 

• Feick, Robert D. and. Hall, G. B (2004) “A method for examining the spatial dimension of multi-criteria weight sensitivity in a Spatial Decision Support System”, International Journal of Geographic Information Science, Vol. 18, pp. 1-26.

  Article  Google Scholar 

• Fisher, P. (Ed.) (2005) “Developments in Spatial Data Handling”, Berlin: Springer.

  Google Scholar 

• Fotheringham, A.S., Brunsdon, C., and Charlton, M.E., (2002), Geographically Weighted Regression: The Analysis of Spatially Varying Relationships, Chichester, UK: Wiley.

  Google Scholar 

• Gahegan, M. and Brodaric, B. (2002) “Computational and Visual Support for Geographical Knowledge Construction: Filling in the Gaps between Exploration and Explanation”, Proceedings Symposium on Geospatial Theory, Processing and Applications, Ottawa, ON.

  Google Scholar 

• Gahegan, M., Wachowicz, M., Harrrower, M. and Rhyne, T. M. (2001) “The Integration of Geographic Visualization with Knowledge Discovery in Databases and Geocomputation”, Cartography and Geographic Information Systems, Vol. 28, No. 1, pp. 29-44.

  Article  Google Scholar 

• Goodchild, M.F. (1992) “Geographical Data Modeling”, Computers and Geosciences, Vol. 18, No. 4, pp. 410-408.

  Article  Google Scholar 

• Gorry, G. A. and Scott Morton, M. S. (1971) “A Framework for Management Information Systems”, Sloan Management Review, Vol. 13, No. 1, 56-79.

  Google Scholar 

• Green, D. R. and Bossomaier, T. (2002) Online GIS and Spatial Metadata, London: Taylor and Francis.

  Google Scholar 

• Griffith, D.A. (2003) Spatial Autocorrelation and Spatial Filtering: Gaining Understanding through Theory and Scientific Visualization, Berlin: Springer-Verlag.

  Google Scholar 

• Guo, D. (2003) “Coordinating Computational and Visualization Approaches for Interactive Feature Selection and Multivariate Clustering”, Information Visualization, Vol. 2, No. 4, pp. 232-246.

  Article  Google Scholar 

• Hall, G. B., Feick, R. D., and Bowerman, R. L. (1997) “GIS-based Decision Support Architecture and Applications for Developing Countries”, South African Journal of Geoinformation, Vol. 17, No. 3, pp. 73-80.

  Google Scholar 

• Han, J. (1999) “Data Mining” Encyclopedia of Distributed Computing Urban, J. and Dasgupta, P. (Eds.), Boston, MA: Kluwer Academic Publisher.

  Google Scholar 

• Han, J. and Kamber, M. (2001) Data Mining Concepts and Techniques, San Francisco, CA: Morgan Kaufmann Publishers.

  Google Scholar 

• Han, J., Kamber, M. and Tung, A.K.H. (2001) “Spatial Clustering Methods in Data Mining: A Survey” in Geographic Data Mining and Knowledge Discovery by Miller, H.G. and Han, J. (Eds.), London and New York: Taylor & Francis.

  Google Scholar 

• Hand, D.J. (1998) “Data Mining: Statistics and More?”, The American Statistician, Vol. 52, No. 2, pp. 112-118.

  Article  Google Scholar 

• Hand, D., Mannila, H. and Smyth, P. (2001) Principles of Data Mining, Cambridge, MA: MIT Press.

  Google Scholar 

• Hornsby, K. and Egenhofer, M.J. (2000) “Identity-based Change: A Foundation for Spatio-temporal Knowledge Representation”, International Journal of Geographical Information Systems, Vol. 14, No. 3, pp.207-224.

  Article  Google Scholar 

• Hu, X., Cercone, N and Ziarko, W. (1997) “Generation of Multiple Knowledge from Databases Based on Rough Sets Theory” In Rough Sets and Data Mining Lin, T.Y. and Cercone N. (eds.), Boston, MA: Kluwer Academic Publishing.

  Google Scholar 

• Jankowski P. (1995) “Integrating Geographical Information Systems and Multiple Criteria Decision Making Methods”, International Journal of Geographic Information Systems, Vol. 9, No. 3, 251-273.

  Google Scholar 

• Jankowski P. and Nyerges T. (2001a) GIS for Group Decision Making, London: Taylor and Francis.

  Google Scholar 

• Jankowski P. and Nyerges T. (2001b) “GIS-supported Collaborative Decision Making: results of an experiment”, Annals of the Association of American Geographers, No. 91, pp. 48-70.

  Article  Google Scholar 

• Keim, D.A. (2001) “Information Visualization and Visual Data Mining”, IEEE Transactions on Visualization and Computer Graphics, Vol. 7, No. 1, pp. 100-107.

  Google Scholar 

• Koperski, K. and Han, J. (1995) “Discovery of Spatial Association Rules in Geographic Information Databases”, In Advances in Spatial Databases (Lecture Notes in Computer Science 951), Egenhofer, M. J. and Herring, J. R. (Eds.), Berlin: Springer-Verlag.

  Google Scholar 

• Kruse, R., Gebhardt, J. and Klawonn, F. (1994) Foundation of Fuzzy Systems, Chichester, UK: J. Wiley & Sons.

  Google Scholar 

• Lee, I. (2004) “Mining Multivariate Associations with GIS Environment” Innovations in Applied Artificial Intelligence (Lecture Notes in Artificial Intelligence #3029), Orchard, C., Yang, C. and Ali, M. (Eds.), Heidelberg, Germany, Springer-Verlag.

  Google Scholar 

• Lehman, A., Overton, J. and Austin, M. P. (2002) “Regression Models for Spatial Prediction: Their Role for Biodiversity and Conservation”, Biodiversity and Conservation, No. 11, pp. 2085-2092.

  Article  Google Scholar 

• Lu, C.-T., Chen, D. and Kou, Y. (2003) “Algorithms for Spatial Outlier Detection”, Proceedings 3 ^rd IEEE International Conference on Data Mining (ICDM’03), Melbourne, FL.

  Google Scholar 

• Malczewski J. (1999) GIS and Multicriteria Decision Analysis, New York: John Wiley and Sons.

  Google Scholar 

• Malczewski, J. (No Date) “Internet Resources for Geo-Information-Based Decision Analysis”, http://publish.uwo.ca/∼jmalczew/gimda/intres4.htm, last accessed Friday, 3rd February 2006.

  Google Scholar 

• Malczewski, J. (2006) “GIS-based Multicriteria Decision Analysis: a Survey of the Literature”, Unpublished paper, Department of Geography, University of Western Ontario, London, Ontario, Canada.

  Google Scholar 

• McCormick, B.H., Definti, T.A. and Brown, M.D. (1987) “Visualization in Scientific Computing”, SIGGRAPH Computer Graphics Newsletter (Special Edition), Vol. 21, No. 6.

  Google Scholar 

• Miller, H.G. and Han, J. (Eds.) (2001) Geographic Data Mining and Knowledge Discovery, London and New York: Taylor & Francis.

  Google Scholar 

• Oracle (2003a) ”Spatial Analysis and Mining” Chapter 8 of Oracle Spatial User’s Guide and Reference, 10g Rel. 1(10.1), Redwood City, CA., Oracle Corporation.

  Google Scholar 

• Oracle (2003b) Oracle Data Mining Concepts. 10g Rel. 1(10.1), Redwood City, CA., Oracle Corporation.

  Google Scholar 

• Peng Z.-R. and Tsou M.-H. (2003) “Internet GIS: Distributed Geographic Information Services for the Internet and Wireless Networks”, New York: John Wiley and Sons.

  Google Scholar 

• Peuquet, D.J. and Duan, N. (1995) “An Event-based Spatiotemporal Data Model (ESTDM) for Temporal Analysis of Geographical Data”, International Journal of Geographical Information Systems, Vol. 9, No. 1, pp. 7-24.

  Google Scholar 

• Power, Daniel J. and Kaparthi, S. (2002) ‘Building Web-based spatial decision support systems, Studies in Informatics and Control, “Vol. 11, No. 4, pp. 291-302.

  Google Scholar 

• Ribarsky, W., Katz, J., F. Jiang and Holland, A. (1999) Discovery Visualization and Visual Data Mining, Technical Report #99-14, Georgia Institute of Technology, Graphics, Visualization and Usability Center, Atlanta, GA.

  Google Scholar 

• Rinner C. and Jankowski, P. (2002) “Web-based Spatial Decision Support -Technical Foundations and Applications”, In The Encycolpedia of Life Support Systems (EOLSS), Theme 1.9 “Advanced Geographic Information Systems, (Ed.) Claudia Bauzer Medeiros, Oxford, UK: UNESCO/EOLSS Publishers.

  Google Scholar 

• Rivest, S., Bedard, Y., and Marchand, P. (2001) “Towards Better Support for Spatial Decision Making: defining the Characteristics of Spatial On-Line Analytic Processing (SOLAP)”, Geomatica, Vol. 55, No. 4, pp. 539-555.

  Google Scholar 

• Rivest, S., Bédard, Y., Proulx, M.J. Nadeau, M., Hubert F. and Pastor, J. (2005) “SOLAP: Merging Business Intelligence with Geospatial Technology for Interactive Spatio-Temporal Exploration and Analysis of Data, Journal of International Society for Photogrammetry and Remote Sensing, Vol. 60, No. 1, pp. 17-33.

  Article  Google Scholar 

• Roddick, J.F. and Spiliopoulou, M. (2002) “A Survey of Temporal Knowledge Discovery Paradigms and Methods”, IEEE Transactions on Knowledge and Data Engineering, Vol. 14, No. 4, pp. 750-767.

  Article  Google Scholar 

• Shekhar, S. and Huang, Y. (2001) “Discovering Spatial Co-location Patterns: A Survey of Results”, In dvances in Spatial and Temporal Databases (Lecture Notes in Computer Science #2121), Jensen, C.S., Schneider, M., Seeger, B. and Tsotras, V.J. (Eds.), Heidleberg, Germany: Springer-Verlag.

  Google Scholar 

• Simon, H. (1977) The New Science of Management Decision, Englewood Cliffs, NJ: Prentice Hall.

  Google Scholar 

• Sui, D.Z. and Goodchild, M. (2001) “GIS as media?” Guest editorial. International Journal of Geographical Information Science, Vol. 15, No. 5, pp. 387-390.

  Article  Google Scholar 

• Uran, O. and Jansen, R. (2003) “Why are spatial decision support systems not used? Some experiences from the Netherlands”, Computers, Environment and Urban Systems, No. 27, pp. 511-526.

  Article  Google Scholar 

• van Leeuwen, Jos P. and Timmermans, Harry, J. P. (Eds.) (2004) “Recent Advances in Design and Decision Support Systems in Architecture and Urban Planning”, Dordecht, the Netherlands: Kluwer Academic Publishers.

  Google Scholar 

• Whitten, J. L. and Bentley, L. B. (1997) Systems Analysis and Design Methods, 4th Edition, Burr Ridge, IL: Irwin.

  Google Scholar 

• Whitten, I.H. and Frank, E. (2000) “Data Mining: Practical Machine Learning Tools and Techniques with Java Implementation”, San Francisco, CA: Morgan Kaufmann Publishers.

  Google Scholar 

• Wild R. H. and Giggs K. A. (2004) “A Web Portal/Decision Support System Architecture for Collaborative Intra-Government Planning”, Electronic Government, Vol. 1, No. 1, pp. 61-76.

  Article  Google Scholar 

• Yau, C. (1993) “Interactive decision support system for airline planning”, IEEE Transactions on Systems, Man and Cybernetics, Vol. 23, No. 6, pp. 1617-1625.

  Article  Google Scholar 

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