Authors: Xu Du, Aparna S. Varde

Abstract:

In this research, we propose to conduct diagnostic and predictive analysis about the key factors and consequences of urban population relocation. To achieve this goal, urban simulation models extract the urban development trends as land use change patterns from a variety of data sources. The results are treated as part of urban big data with other information such as population change and economic conditions. Multiple data mining methods are deployed on this data to analyze nonlinear relationships between parameters. The result determines the driving force of population relocation with respect to urban sprawl and urban sustainability and their related parameters. This work sets the stage for developing a comprehensive urban simulation model for catering to specific questions by targeted users. It contributes towards achieving sustainability as a whole.

Keywords: Data Mining, Environmental Modeling, Sustainability, Urban Planning.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1110816

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1728

References:

[1] Ewing, R., & Hamidi, S. (2014). Measuring Sprawl 2014. Retrieved from http://www.smartgrowthamerica.org/documents/measuring-sprawl-2014. pdf
[2] Smartgrowthamerica.org, 'What is "smart growth?" | Smart Growth America', 2015. (Online). Available: http://www.smartgrowthamerica.org/what-is-smart-growth.
[3] Nagy, R., & Lockaby, B. (2010). Urbanization in the Southeastern United States: Socioeconomic forces and ecological responses along an urban-rural gradient. Urban Ecosystems, 14(1), 71-86. doi:10.1007/s11252-010-0143-6
[4] Li, X., & Gar-On Yeh, A. (2004). Data mining of cellular automata's transition rules. International Journal Of Geographical Information Science, 18(8), 723-744. doi:10.1080/13658810410001705325
[5] Miller, H., & Han, J. (2001). Geographic data mining and knowledge discovery. London: Taylor & Francis.
[6] Rajasekar, U., & Weng, Q. (2009). Application of Association Rule Mining for Exploring the Relationship between Urban Land Surface Temperature and Biophysical/Social Parameters. Photogrammetric Engineering & Remote Sensing, 75(4), 385-396. doi:10.14358/pers.75.4.385
[7] Schneider, A., & Woodcock, C. (2008). Compact, Dispersed, Fragmented, Extensive? A Comparison of Urban Growth in Twenty-five Global Cities using Remotely Sensed Data, Pattern Metrics and Census Information. Urban Studies, 45(3), 659-692. doi:10.1177/0042098007087340
[8] Göktuğ, M. (2012). Urban Sprawl and Public Policy: A Complexity Theory Perspective. Emergence: Complexity & Organization, 14(4), 1-16.
[9] Santé, I., García, A., Miranda, D., & Crecente, R. (2010). Cellular automata models for the simulation of real-world urban processes: A review and analysis. Landscape And Urban Planning, 96(2), 108-122. doi:10.1016/j.landurbplan.2010.03.001
[10] Branch, G. (2015). 2010 Urban Area Facts - Geography - U.S. Census Bureau. Census.gov. Retrieved 18 February 2015, https://www.census.gov/geo/reference/ua/uafacts.html
[11] Agrawal R., Imieliński T. and Swami A., 'Mining association rules between sets of items in large databases', ACM SIGMOD Record, vol. 22, no. 2, pp. 207-216, 1993.
[12] MacQueen, J. Some methods for classification and analysis of multivariate observations. Proceedings of the Fifth Berkeley Symposium on Mathematical Statistics and Probability, Volume 1: Statistics, 281—297.
[13] Quinlan J.R., C4.5. San Mateo, Calif.: Morgan Kaufmann Publishers, 1993.
[14] Hamidi, S., & Ewing, R. (2014). A longitudinal study of changes in urban sprawl between 2000 and 2010 in the United States. Landscape And Urban Planning, 128, 72-82. doi:10.1016/j.landurbplan.2014.04.021
[15] Gis.cancer.gov,. (2015). County Level Urban Sprawl Indices - Geographic Information Systems & Science. Retrieved 25 April 2015, from http://gis.cancer.gov/tools/urban-sprawl/
[16] Pampoore-Thampi, A. & Varde, A. (2014). Mining GIS Data to Predict Urban Sprawl, ACM conference on Knowledge Discovery and Data Mining (KDD Bloomberg Track), New York City, NY, pp 118-125.
[17] IEEE Smart Cities, http://smartcities.ieee.org/
[18] Vienna University of Technology et al., European Smart Cities, www.smart-cities.eu
[19] Smartcitiescouncil.com, "Smart Cities Council | Definitions and overviews", 2015. (Online). Available: http://smartcitiescouncil.com/smart-cities-information-center/definitions -and-overviews.
[20] Pawlish, M., Varde, A., Robila, S. and Ranganathan, A. (2014). A Call for Energy Efficiency in Data Centers, Journal of ACM’s Special Interest Group on Management of Data Record (SIGMOD Record), 2014, Vol. 43, No. 1, pp. 45-51.
[21] Varde A., and Du X., Multicity Simulation with Data Mining for Urban Sustainability, Presentation at Bloomberg Data Science Labs, March 2015.