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The Journal of Real Estate Finance and Economics

Erschienen in:

01.08.2007

Spatial Dependence, Housing Submarkets, and House Price Prediction

verfasst von: Steven C. Bourassa, Eva Cantoni, Martin Hoesli

Erschienen in: The Journal of Real Estate Finance and Economics | Ausgabe 2/2007

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Abstract

This paper compares alternative methods of controlling for the spatial dependence of house prices in a mass appraisal context. Explicit modeling of the error structure is characterized as a relatively fluid approach to defining housing submarkets. This approach allows the relevant submarket to vary from house to house and for transactions involving other dwellings in each submarket to have varying impacts depending on distance. We conclude that—for our Auckland, New Zealand, data—the gains in accuracy from including submarket variables in an ordinary least squares specification are greater than any benefits from using geostatistical or lattice methods. This conclusion is of practical importance, as a hedonic model with submarket dummy variables is substantially easier to implement than spatial statistical methods.

Vorheriger Artikel Neighborhood Street Layout and Property Value: The Interaction of Accessibility and Land Use Mix

Nächster Artikel The Impact of Railway Stations on Residential and Commercial Property Value: A Meta-analysis

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An alternative approach would be to incorporate variables measuring neighborhood characteristics (as in Dubin 1988, for example). Such data would typically be available for small areas defined for census purposes. However, census areas are less likely to correspond to housing submarkets than are the valuer-defined areas used here.

Bourassa et al. (2003) show that the latter method, although quite simple, results in significant improvements in the accuracy of predictions based on a market-wide hedonic equation; thus we test for its impact here.

This code is available at http://www.spatial-statistics.com. Other general results on sparse matrices exist; see, for example, Bai and Golub (1997) and Reusken (2002).

A sale was removed from the sample if it fell into one of the following categories: (a) the property had a land area larger than 0.25 ha (this excluded properties that may have been sold primarily for redevelopment purposes); (b) the property had a floor area either less than 30 square meters (probably due to an error in data entry); (c) the transaction was flagged as not being “arm’s length”; or (d) the property was located on an island.

The OLS predictions are calculated as \(\exp {\left( {\widehat{{{\text{In}}Y}}} \right)}\), although the correct transformation would be \(\exp {\left( {\widehat{{{\text{In}}Y}} + 0.5\widehat{\sigma }^{2} } \right)}\). Because we are unable to implement equivalent transformations for predictions based on the other methods, we do not add \( 0.5\widehat{\sigma }^{2} \) before taking the antilogs of the OLS predictions. Given the large sample size, this has only a trivial impact on the results.

The body of each boxplot is constructed from the first to the third quartiles, while the whiskers are set at ±1.5 times the inter-quartile range from the median. However, if no observation exists at that distance, the whisker is set at the closest observation towards the body of the boxplot. If there are observations outside of the whiskers, each of these is depicted by a line. Within the body of each boxplot, the median over the 100 splits appears as a bar, while the 95% confidence interval is depicted by the indented and unshaded area in the center of the plot.

For comparison purposes, Fik et al. (2003) note that Freddie Mac prefers to have at least 50% of predictions within 10% of the actual values.

The adjustment using average residuals in submarkets is ineffective when submarket dummy variables are included in the model because the average of residuals for each submarket equals zero.

In the list of variables in Table 2, we deleted variables from “Walls in good condition” to “Average quality of the principal structure” and from “Water view” to “Very good neighborhood.”

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Titel: Spatial Dependence, Housing Submarkets, and House Price Prediction
verfasst von: Steven C. Bourassa
Eva Cantoni
Martin Hoesli
Publikationsdatum: 01.08.2007
Verlag: Springer US
Erschienen in: The Journal of Real Estate Finance and Economics / Ausgabe 2/2007
Print ISSN: 0895-5638
Elektronische ISSN: 1573-045X
DOI: https://doi.org/10.1007/s11146-007-9036-8

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The Impact of Railway Stations on Residential and Commercial Property Value: A Meta-analysis

The Effect of Time-on-Market and Location on Search Costs and Anchoring: The Case of Single-Family Properties

Regulatory Capital Arbitrage and the Potential Competitive Impact of Basel II in the Market for Residential Mortgages

Neighborhood Street Layout and Property Value: The Interaction of Accessibility and Land Use Mix