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Boosting the Accuracy of Commercial Real Estate Appraisals: An Interpretable Machine Learning Approach

Author

Listed:
  • Juergen Deppner

    (University of Regensburg, IRE|BS International Real Estate Business School)

  • Benedict Ahlefeldt-Dehn

    (University of Regensburg, IRE|BS International Real Estate Business School)

  • Eli Beracha

    (Florida International University, Hollo School of Real Estate)

  • Wolfgang Schaefers

    (University of Regensburg, IRE|BS International Real Estate Business School)

Abstract

In this article, we examine the accuracy and bias of market valuations in the U.S. commercial real estate sector using properties included in the NCREIF Property Index (NPI) between 1997 and 2021 and assess the potential of machine learning algorithms (i.e., boosting trees) to shrink the deviations between market values and subsequent transaction prices. Under consideration of 50 covariates, we find that these deviations exhibit structured variation that boosting trees can capture and further explain, thereby increasing appraisal accuracy and eliminating structural bias. The understanding of the models is greatest for apartments and industrial properties, followed by office and retail buildings. This study is the first in the literature to extend the application of machine learning in the context of property pricing and valuation from residential use types and commercial multifamily to office, retail, and industrial assets. In addition, this article contributes to the existing literature by providing an indication of the room for improvement in state-of-the-art valuation practices in the U.S. commercial real estate sector that can be exploited by using the guidance of supervised machine learning methods. The contributions of this study are, thus, timely and important to many parties in the real estate sector, including authorities, banks, insurers and pension and sovereign wealth funds.

Suggested Citation

  • Juergen Deppner & Benedict Ahlefeldt-Dehn & Eli Beracha & Wolfgang Schaefers, 2025. "Boosting the Accuracy of Commercial Real Estate Appraisals: An Interpretable Machine Learning Approach," The Journal of Real Estate Finance and Economics, Springer, vol. 71(2), pages 314-351, August.
    • Handle: RePEc:kap:jrefec:v:71:y:2025:i:2:d:10.1007_s11146-023-09944-1
    DOI: 10.1007/s11146-023-09944-1
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    1. Liv Osland, 2010. "An Application of Spatial Econometrics in Relation to Hedonic House Price Modelling," Journal of Real Estate Research, American Real Estate Society, vol. 32(3), pages 289-320.
    2. Juergen Deppner & Marcelo Cajias, 2022. "Accounting for Spatial Autocorrelation in Algorithm-Driven Hedonic Models: A Spatial Cross-Validation Approach," ERES 2022_84, European Real Estate Society (ERES).
    3. Liv Osland, 2010. "An Application of Spatial Econometrics in Relation to Hedonic House Price Modeling," Journal of Real Estate Research, Taylor & Francis Journals, vol. 32(3), pages 289-320, January.
    4. R. Kelley Pace & Darren Hayunga, 2020. "Examining the Information Content of Residuals from Hedonic and Spatial Models Using Trees and Forests," The Journal of Real Estate Finance and Economics, Springer, vol. 60(1), pages 170-180, February.
    5. Susanne, Cannon & Rebel, Cole, 2011. "How Accurate Are Commercial Real Estate Appraisals? Evidence from 25 Years of NCREIF Sales Data," MPRA Paper 52621, University Library of Munich, Germany, revised 25 May 2011.
    6. Jozef Zurada & Alan Levitan & Jian Guan, 2011. "A Comparison of Regression and Artificial Intelligence Methods in a Mass Appraisal Context," Journal of Real Estate Research, Taylor & Francis Journals, vol. 33(3), pages 349-388, January.
    7. repec:eme:jpvi00:14635789810221760 is not listed on IDEAS
    8. W.J. McCluskey & M. McCord & P.T. Davis & M. Haran & D. McIlhatton, 2013. "Prediction accuracy in mass appraisal: a comparison of modern approaches," Journal of Property Research, Taylor & Francis Journals, vol. 30(4), pages 239-265, December.
    9. Cannon, Susanne & Col, Rebel A., 2011. "How accurate are commercial-real-estate appraisals? evidence from 25 years of NCREIF sales data," MPRA Paper 32589, University Library of Munich, Germany.
    10. Thomas P. Brennan & Roger E. Cannaday & Peter F. Colwell, 1984. "Office Rent in the Chicago CBD," Real Estate Economics, American Real Estate and Urban Economics Association, vol. 12(3), pages 243-260, September.
    11. Sendhil Mullainathan & Jann Spiess, 2017. "Machine Learning: An Applied Econometric Approach," Journal of Economic Perspectives, American Economic Association, vol. 31(2), pages 87-106, Spring.
    12. Alexander N. Bogin & Jessica Shui, 2020. "Correction to: Appraisal Accuracy and Automated Valuation Models in Rural Areas," The Journal of Real Estate Finance and Economics, Springer, vol. 61(4), pages 730-731, November.
    13. Susanna Levantesi & Gabriella Piscopo, 2020. "The Importance of Economic Variables on London Real Estate Market: A Random Forest Approach," Risks, MDPI, vol. 8(4), pages 1-17, October.
    14. Edwin S. Mills, 1992. "Office Rent Determinants in the Chicago Area," Real Estate Economics, American Real Estate and Urban Economics Association, vol. 20(2), pages 273-287, June.
    15. Jorge Iván Pérez-Rave & Juan Carlos Correa-Morales & Favián González-Echavarría, 2019. "A machine learning approach to big data regression analysis of real estate prices for inferential and predictive purposes," Journal of Property Research, Taylor & Francis Journals, vol. 36(1), pages 59-96, January.
    16. Ingrid Nappi‐Choulet & Isabelle Maleyre & Tristan‐Pierre Maury, 2007. "A Hedonic Model of Office Prices in Paris and its Immediate Suburbs," Journal of Property Research, Taylor & Francis Journals, vol. 24(3), pages 241-263, September.
    17. Agostino Valier, 2020. "Who performs better? AVMs vs hedonic models," Journal of Property Investment & Finance, Emerald Group Publishing Limited, vol. 38(3), pages 213-225, March.
    18. John L. Glascock & Shirin Jahanian & C. F. Sirmans, 1990. "An Analysis of Office Market Rents: Some Empirical Evidence," Real Estate Economics, American Real Estate and Urban Economics Association, vol. 18(1), pages 105-119, March.
    19. K.C. Lam & C.Y. Yu & C.K. Lam, 2009. "Support vector machine and entropy based decision support system for property valuation," Journal of Property Research, Taylor & Francis Journals, vol. 26(3), pages 213-233, August.
    20. Manya M. Mooya, 2016. "Real Estate Valuation Theory," Springer Books, Springer, edition 1, number 978-3-662-49164-5, March.
    21. Steven C. Bourassa & Eva Cantoni & Martin Hoesli, 2010. "Predicting House Prices with Spatial Dependence: A Comparison of Alternative Methods," Journal of Real Estate Research, American Real Estate Society, vol. 32(2), pages 139-160.
    22. Jozef Zurada & Alan S. Levitan & Jian Guan, 2011. "A Comparison of Regression and Artificial Intelligence Methods in a Mass Appraisal Context," Journal of Real Estate Research, American Real Estate Society, vol. 33(3), pages 349-388.
    23. Robert Edelstein & Daniel Quan, 2006. "How Does Appraisal Smoothing Bias Real Estate Returns Measurement?," The Journal of Real Estate Finance and Economics, Springer, vol. 32(1), pages 41-60, February.
    24. Elli Pagourtzi & Vassilis Assimakopoulos & Thomas Hatzichristos & Nick French, 2003. "Real estate appraisal: a review of valuation methods," Journal of Property Investment & Finance, Emerald Group Publishing Limited, vol. 21(4), pages 383-401, August.
    25. Hu, Lirong & He, Shenjing & Han, Zixuan & Xiao, He & Su, Shiliang & Weng, Min & Cai, Zhongliang, 2019. "Monitoring housing rental prices based on social media:An integrated approach of machine-learning algorithms and hedonic modeling to inform equitable housing policies," Land Use Policy, Elsevier, vol. 82(C), pages 657-673.
    26. Stacy Sirmans & David Macpherson & Emily Zietz, 2005. "The Composition of Hedonic Pricing Models," Journal of Real Estate Literature, Taylor & Francis Journals, vol. 13(1), pages 1-44, January.
    27. Stephen Malpezzi, "undated". "Hedonic Pricing Models: A Selective and Applied Review," Wisconsin-Madison CULER working papers 02-05, University of Wisconsin Center for Urban Land Economic Research.
    28. Kihwan Seo & Deborah Salon & Michael Kuby & Aaron Golub, 2019. "Hedonic modeling of commercial property values: distance decay from the links and nodes of rail and highway infrastructure," Transportation, Springer, vol. 46(3), pages 859-882, June.
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