This file is part of IDEAS, which uses RePEc data


[ Papers | Articles | Software | Books | Chapters | Authors | Institutions | JEL Classification | NEP reports | Search | New papers by email | Author registration | Rankings | Volunteers | FAQ | Blog | Help! ]

Space-Time Forecasting Using Soft Geostatistics: A Case Study in Forecasting Municipal Water Demand for Phoenix, AZ (2008#4)

Author info | Abstract | Publisher info | Download info | Related research | Statistics
Author Info
Seung-Jae Lee
Elizabeth A. Wentz () (Arizona State University)
Patricia Gober
Abstract

Managing environmental and social systems in the face of uncertainty requires the best possible forecasts of future conditions. We use space-time variability in historical data and projections of future population density to improve forecasting of residential water demand in the City of Phoenix, Arizona. Our future water estimates are derived using the first and second order statistical moments between a dependent variable, water use, and an independent variable, population density. The independent variable is projected at future points, and remains uncertain. We use adjusted statistical moments that cover projection errors in the independent variable, and propose a methodology to generate information-rich future estimates. These updated estimates are processed in Bayesian Maximum Entropy (BME), which produces maps of estimated water use to the year 2030. Integrating the uncertain estimates into the space-time forecasting process improves forecasting accuracy up to 43.9% over other space-time mapping methods that do not assimilate the uncertain estimates. Further validation studies reveal that BME is more accurate than co-kriging that integrates the error-free independent variable, but shows similar accuracy to kriging with measurement error that processes the uncertain estimates. Our proposed forecasting method benefits from the uncertain estimates of the future, provides up-to-date forecasts of water use, and can be adapted to other socioeconomic and environmental applications.

Download Info
To download:

If you experience problems downloading a file, check if you have the proper application to view it first. Information about this may be contained in the File-Format links below. In case of further problems read the IDEAS help page. Note that these files are not on the IDEAS site. Please be patient as the files may be large.

File URL: http://geodacenter.asu.edu/drupal_files/200804_Leeetal.pdf
Our checks indicate that this address may not be valid because: 404 Not Found. If this is indeed the case, please notify (Nick Burkhart)
File Format: application/pdf
File Function:
Download Restriction: no

Publisher Info
Paper provided by GeoDa Center for Geospatial Analysis and Computation in its series GeoDa Center Working Papers with number 2008-4.

Download reference. The following formats are available: HTML (with abstract), plain text (with abstract), BibTeX, RIS (EndNote, RefMan, ProCite), ReDIF
Length:
Date of creation: 2008
Date of revision:
Handle: RePEc:asg:wpaper:2008-4

Contact details of provider:
Postal: School of Geographical Sciences and Urban Planning Arizona State University P.O. Box 875302 Tempe, AZ 85287-5302
Web page: http://geodacenter.asu.edu/
More information through EDIRC

For technical questions regarding this item, or to correct its listing, contact: (Nick Burkhart).

Related research
Keywords: water use; forecasting; soft data; statistical moments; Bayesian Maximum Entropy;

Find related papers by JEL classification:
C53 - Mathematical and Quantitative Methods - - Econometric Modeling - - - Forecasting and Other Model Applications

Statistics
Access and download statistics

Did you know? A tutorial is available.

This page was last updated on 2009-11-30.

This information is provided to you by IDEAS at the Department of Economics, College of Liberal Arts and Sciences, University of Connecticut using RePEc data on a server sponsored by the Society for Economic Dynamics.