poster

Geo-spotting: mining online location-based services for optimal retail store placement

Authors:

Dmytro Karamshuk,

Anastasios Noulas,

Salvatore Scellato,

Vincenzo Nicosia,

Cecilia MascoloAuthors Info & Claims

KDD '13: Proceedings of the 19th ACM SIGKDD international conference on Knowledge discovery and data mining

Pages 793 - 801

https://doi.org/10.1145/2487575.2487616

Published: 11 August 2013 Publication History

Abstract

The problem of identifying the optimal location for a new retail store has been the focus of past research, especially in the field of land economy, due to its importance in the success of a business. Traditional approaches to the problem have factored in demographics, revenue and aggregated human flow statistics from nearby or remote areas. However, the acquisition of relevant data is usually expensive. With the growth of location-based social networks, fine grained data describing user mobility and popularity of places has recently become attainable.

In this paper we study the predictive power of various machine learning features on the popularity of retail stores in the city through the use of a dataset collected from Foursquare in New York. The features we mine are based on two general signals: geographic, where features are formulated according to the types and density of nearby places, and user mobility, which includes transitions between venues or the incoming flow of mobile users from distant areas. Our evaluation suggests that the best performing features are common across the three different commercial chains considered in the analysis, although variations may exist too, as explained by heterogeneities in the way retail facilities attract users. We also show that performance improves significantly when combining multiple features in supervised learning algorithms, suggesting that the retail success of a business may depend on multiple factors.

References

[1]

Everything you need to know about foursquare's new merchant tools. http://goo.gl/3DhfT.

[2]

Foursquare at 35 million users. 2013. http://goo.gl/ThfnF.

[3]

A. Athiyaman. Location decision making: the case of retail service development in a closed population. In Academy of Marketing Studies, volume 15, page 13, 2010.

[4]

J. Bao, Y. Zheng, and M.F. Mokbel. Location-based and preference-aware recommendation using sparse geo-social networking data. In ACM SIGSPATIAL GIS, 2012.

Digital Library

[5]

O. Berman and D. Krass. The generalized maximal covering location problem. Computers & Operations Research, 29(6):563--581, 2002.

Digital Library

[6]

C. Burges, T. Shaked, E. Renshaw, A. Lazier, M. Deeds, N. Hamilton, and G. Hullender. Learning to rank using gradient descent. In Proceedings of the 22nd international conference on Machine learning, pages 89--96. ACM, 2005.

Digital Library

[7]

T.M. Cover, J.A. Thomas, and J. Wiley. Elements of information theory, volume 6. Wiley Online Library, 1991.

Digital Library

[8]

M.A. Hearst, ST Dumais, E. Osman, J. Platt, and B. Scholkopf. Support vector machines. Intelligent Systems and their Applications, IEEE, 13(4):18--28, 1998.

Digital Library

[9]

K. Järvelin and J. Kekäläinen. Cumulated gain-based evaluation of ir techniques. ACM Transactions on Information Systems (TOIS), 20(4):422--446, 2002.

Digital Library

[10]

Pablo Jensen. Network-based predictions of retail store commercial categories and optimal locations. Phys. Rev. E, 74:035101, Sep 2006.

[11]

Pablo Jensen. Analyzing the localization of retail stores with complex systems tools. In Proceedings of the 8th International Symposium on Intelligent Data Analysis: Advances in Intelligent Data Analysis VIII, IDA '09, pages 10--20, Berlin, Heidelberg, 2009. Springer-Verlag.

Digital Library

[12]

A. Kubis and M. Hartmann. Analysis of location of large-area shopping centres. a probabilistic gravity model for the halle-leipzig area. Jahrbuch für Regionalwissenschaft, 27(1):43--57, 2007.

[13]

Neal Lathia and Licia Capra. Mining mobility data to minimise travellers' spending on public transport. In Proceedings of the 17th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, KDD '11, pages 1181--1189, New York, NY, USA, 2011. ACM.

Digital Library

[14]

Neal Lathia, Daniele Quercia, and Jon Crowcroft. The hidden image of the city: sensing community well-being from urban mobility. Pervasive Computing, pages 91--98, 2012.

Digital Library

[15]

O.Z. Maimon and L. Rokach. Data mining and knowledge discovery handbook. Springer US, 2010.

[16]

M. Mehaffy, S. Porta, Y. Rofè, and N. Salingaros. Urban nuclei and the geometry of streets: The "emergent neighborhoods" model. Urban Design International, 15(1):22--46, 2010.

[17]

S. Porta, V. Latora, F. Wang, S. Rueda, E. Strano, S. Scellato, A. Cardillo, E. Belli, F. Càrdenas, B. Cormenzana, et al. Street centrality and location of economic activities in barcelona. Urban Studies, 2011.

[18]

S. Porta, V. Latora, F. Wang, E. Strano, A. Cardillo, S. Scellato, V. Iacoviello, and R. Messora. Street centrality and densities of retail and services in bologna, italy. Environment and Planning B: Planning and Design, 36(3):450--465, 2009.

[19]

D. Quercia, N. Lathia, F. Calabrese, G. Di Lorenzo, and J. Crowcroft. Recommending social events from mobile phone location data. In Proceedings of ICDM '10, pages 971--976, dec. 2010.

Digital Library

[20]

J.R. Quinlan. Learning with continuous classes. In Proceedings of the 5th Australian joint Conference on Artificial Intelligence, pages 343--348. Singapore, 1992.

[21]

I.H. Witten, E. Frank, and M.A. Hall. Data Mining: Practical machine learning tools and techniques. Morgan Kaufmann, 2011.

Digital Library

[22]

Jing Yuan, Yu Zheng, and Xing Xie. Discovering regions of different functions in a city using human mobility and pois. In Proceedings of the 18th ACM SIGKDD international conference on Knowledge discovery and data mining, pages 186--194. ACM, 2012.

Digital Library

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Index Terms

Geo-spotting: mining online location-based services for optimal retail store placement
1. Information systems
  1. Information systems applications
    1. Data mining

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cover image ACM Conferences

KDD '13: Proceedings of the 19th ACM SIGKDD international conference on Knowledge discovery and data mining

August 2013

1534 pages

ISBN:9781450321747

DOI:10.1145/2487575

Editors:
Rayid Ghani
University of Chicago
,
Ted E. Senator
SAIC
,
Paul Bradley
MethodCare, Inc.
,
Rajesh Parekh
Groupon
,
Jingrui He
Stevens Institute of Technology
,
General Chairs:
Robert L. Grossman
University of Chicago and Open Data Group
,
Ramasamy Uthurusamy
General Motors Corporation (retired)
,
Program Chairs:
Inderjit S. Dhillon
University of Texas
,
Yehuda Koren
Google

Copyright © 2013 ACM.

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Published: 11 August 2013

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KDD' 13: The 19th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining

August 11 - 14, 2013

Illinois, Chicago, USA

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KDD '13 Paper Acceptance Rate 125 of 726 submissions, 17%;

Overall Acceptance Rate 1,133 of 8,635 submissions, 13%

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https://doi.org/10.1109/TVCG.2024.3456392
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https://doi.org/10.7232/JKIIE.2024.50.3.173
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