Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - April 2, 2026

Available Issues

April 10, 2013 - April 2, 2026

Consumer Acquisition for Recommender Systems: A Theoretical Framework and Empirical Evaluations

Published Online:15 May 2023https://doi.org/10.1287/isre.2023.1229

References

  • Acquisti A, Brandimarte L, Loewenstein G (2015) Privacy and human behavior in the age of information. Science 347(6221):509–514.CrossrefGoogle Scholar
  • Acquisti A, John LK, Loewenstein G (2013) What is privacy worth. J. Legal Stud. 42(2):249–274.CrossrefGoogle Scholar
  • Acquisti A, Taylor C, Wagman L (2016) The economics of privacy. J. Econom. Literature 54(2):442–492.CrossrefGoogle Scholar
  • Adomavicius G, Kwon Y (2011) Improving aggregate recommendation diversity using ranking-based techniques. IEEE Trans. Knowledge Data Engrg. 24(5):896–911.CrossrefGoogle Scholar
  • Adomavicius G, Kwon Y (2014) Optimization-based approaches for maximizing aggregate recommendation diversity. INFORMS J. Comput. 26(2):351–369.LinkGoogle Scholar
  • Adomavicius G, Tuzhilin A (2005) Toward the next generation of recommender systems: A survey of the state-of-the-art and possible extensions. IEEE Trans. Knowledge Data Engrg. 17(6):734–749.CrossrefGoogle Scholar
  • Adomavicius G, Zhang J (2012) Impact of data characteristics on recommender systems performance. ACM Trans. Management Inform. Systems 3(1):1–17.CrossrefGoogle Scholar
  • Adomavicius G, Bockstedt JC, Curley SP, Zhang J (2018) Effects of online recommendations on consumers’ willingness to pay. Inform. Systems Res. 29(1):84–102.LinkGoogle Scholar
  • Ainslie G, Haslam N (1992) Hyperbolic discounting. Loewenstein G, Elster J, eds. Choice Over Time (Russell Sage Foundation, New York), 57–92.Google Scholar
  • Anderson R, Moore T (2006) The economics of information security. Science 314(5799):610–613.CrossrefGoogle Scholar
  • Bell RM, Koren Y (2007) Scalable collaborative filtering with jointly derived neighborhood interpolation weights. Proc. 7th IEEE Internat. Conf. on Data Mining (IEEE, Piscataway, NJ), 43–52.Google Scholar
  • Berthold S, Böhme R (2010) Valuating privacy with option pricing theory. Economics of Information Security and Privacy (Springer, Berlin), 187–209.CrossrefGoogle Scholar
  • Bi X, Qu A, Wang J, Shen X (2017) A group-specific recommender system. J. Amer. Statist. Assoc. 112(519):1344–1353.CrossrefGoogle Scholar
  • Breese JS, Heckerman D, Kadie C (1998) Empirical analysis of predictive algorithms for collaborative filtering. Proc. 14th Conf. on Uncertainty in Artificial Intelligence (Morgan Kaufmann Publishers Inc., San Francisco), 43–52. https://cds.cern.ch/record/406734.Google Scholar
  • Brynjolfsson E, Hu Y, Simester D (2011) Goodbye pareto principle, hello long tail: The effect of search costs on the concentration of product sales. Management Sci. 57(8):1373–1386.LinkGoogle Scholar
  • Dandekar P, Fawaz N, Ioannidis S (2014) Privacy auctions for recommender systems. ACM Trans. Econom. Comput. 2(3):12.Google Scholar
  • Dasgupta P, Maskin E (2005) Uncertainty and hyperbolic discounting. Amer. Econom. Rev. 95(4):1290–1299.CrossrefGoogle Scholar
  • Deodhar M, Ghosh J, Saar-Tsechansky M, Keshari V (2017) Active learning with multiple localized regression models. INFORMS J. Comput. 29(3):503–522.LinkGoogle Scholar
  • Donmez P, Carbonell JG (2008) Proactive learning: Cost-sensitive active learning with multiple imperfect oracles. Lim E-P, Winslett M, eds. Proc. 17th ACM Conf.on Inform. and Knowledge Management (Association for Computing Machinery, New York), 619–628.Google Scholar
  • Economides N (1996) Network externalities, complementarities, and invitations to enter. Eur. J. Political Econom. 12(2):211–233.CrossrefGoogle Scholar
  • Feuerverger A, He Y, Khatri S (2012) Statistical significance of the Netflix challenge. Statist. Sci. 27(2):202–231.CrossrefGoogle Scholar
  • Frederick S, Loewenstein G, O’donoghue T (2002) Time discounting and time preference: A critical review. J. Econom. Literature 40(2):351–401.CrossrefGoogle Scholar
  • Funk S (2006) Netflix update: Try this at home. Accessed May 6, 2023, http://sifter.org/˜simon/journal/20061211.html.Google Scholar
  • Gantner Z, Drumond L, Freudenthaler C, Rendle S, Schmidt-Thieme L (2010) Learning attribute-to-feature mappings for cold-start recommendations. Webb GI, Liu B, Zhang C, Gunopulos D, Wu X, eds. Proc. IEEE Internat. Conf. on Data Mining (IEEE, Piscataway, NJ), 176–185. https://ieeexplore.ieee.org/xpl/conhome/5690658/proceeding.Google Scholar
  • Gao R, Saar-Tsechansky M (2020) Cost-accuracy aware adaptive labeling for active learning. Rossi F, Conitzer V, Sha F, eds. Proc. AAAI Conf. on Artificial Intelligence (AAAI Press, Palo Alto, CA), 2569–2576.Google Scholar
  • Geva T, Saar-Tsechansky M, Lustiger H (2019) More for less: Adaptive labeling payments in online labor markets. Data Mining Knowledge Discovery 33(6):1625–1673.CrossrefGoogle Scholar
  • Gkatzelis V, Aperjis C, Huberman BA (2015) Pricing private data. Electronic Marketing 25(2):109–123.CrossrefGoogle Scholar
  • Goldfarb A, Tucker CE (2011) Privacy regulation and online advertising. Management Sci. 57(1):57–71.LinkGoogle Scholar
  • Gomez-Uribe CA, Hunt N (2015) The netflix recommender system: Algorithms, business value, and innovation. ACM Trans. Management Inform. Systems 6(4):1–19.CrossrefGoogle Scholar
  • Harper FM, Konstan JA (2015) The movielens datasets: History and context. ACM Trans. Interactive Intelligent Systems 5(4):19.Google Scholar
  • He X, Liao L, Zhang H, Nie L, Hu X, Chua TS (2017) Neural collaborative filtering. Barrett R, Cummings R, Agichtein E, Gabrilovich E, eds. Proc. 26th Internat. Conf. on World Wide Web (International World Wide Web Conferences Steering Committee, Republic and Canton of Geneva, Switzerland), 173–182.Google Scholar
  • Heimbach I, Gottschlich J, Hinz O (2015) The value of user’s Facebook profile data for product recommendation generation. Electronic Marketing 25(2):125–138.CrossrefGoogle Scholar
  • Hosanagar K, Fleder D, Lee D, Buja A (2014) Will the global village fracture into tribes? Recommender systems and their effects on consumer fragmentation. Management Sci. 60(4):805–823.LinkGoogle Scholar
  • Huang SJ, Chen JL, Mu X, Zhou ZH (2017) Cost-effective active learning from diverse labelers. Sierra C, ed. Proc. 26th Internat. Joint Conf. Artificial Intelligence (International Joint Conferences on Artificial Intelligence, California), 1879–1885.Google Scholar
  • Huang Z (2007) Selectively acquiring ratings for product recommendation. Gini M, Kauffman RJ, Sarppo D, Dellarocas C, Dignum F, eds. Proc. 9th Internat. Conf. on Electronic Commerce (Association for Computing Machinery, New York), 379–388.Google Scholar
  • Jain P, Gyanchandani M, Khare N (2016) Big data privacy: A technological perspective and review. J. Big Data 3(1):25.CrossrefGoogle Scholar
  • Jannach D, Jugovac M (2019) Measuring the business value of recommender systems. ACM Trans. Management Inform. Systems 10(4):1–23.CrossrefGoogle Scholar
  • Juan Y, Zhuang Y, Chin WS, Lin CJ (2016) Field-aware factorization machines for CTR prediction. Sen S, Geyer W, Freyne J, Castells P, eds. Proc. 10th ACM Conf. on Recommender Systems (Association for Computing Machinery, New York), 43–50.Google Scholar
  • Katz ML, Shapiro C (1985) Network externalities, competition, and compatibility. Amer. Econom. Rev. 75(3):424–440.Google Scholar
  • Katz ML, Shapiro C (1986) Technology adoption in the presence of network externalities. J. Political Econom. 94(4):822–841.CrossrefGoogle Scholar
  • Kauffman RJ, McAndrews J, Wang YM (2000) Opening the “black box” of network externalities in network adoption. Inform. Systems Res. 11(1):61–82.LinkGoogle Scholar
  • Kleinberg J, Papadimitriou CH, Raghavan P (2001) On the value of private information. van Benthem J, ed. Proc. 8th Conf. on Theoretical Aspects of Rationality and Knowledge (Morgan Kaufmann Publishers Inc., San Francisco), 249–257.Google Scholar
  • Knijnenburg TA, Wessels LF, Reinders MJ, Shmulevich I (2009) Fewer permutations, more accurate p-values. Bioinformatics 25(12):i161–i168.CrossrefGoogle Scholar
  • Komiak SY, Benbasat I (2006) The effects of personalization and familiarity on trust and adoption of recommendation agents. Management Inform. Systems Quart. 30(4):941–960.CrossrefGoogle Scholar
  • Kong D, Saar-Tsechansky M (2014) Collaborative information acquisition for data-driven decisions. Machine Learn. 95(1):71–86.CrossrefGoogle Scholar
  • Koren Y, Bell R, Volinsky C (2009) Matrix factorization techniques for recommender systems. Computer 42(8):30–37.CrossrefGoogle Scholar
  • Laibson D (1997) Golden eggs and hyperbolic discounting. Quart. J. Econom. 112(2):443–478.CrossrefGoogle Scholar
  • Lam XN, Vu T, Le TD, Duong AD (2008) Addressing cold-start problem in recommendation systems. Kim W, Choi HJ, eds. Proc. 2nd Internat. Conf. on Ubiquitous Inform. Management and Comm. (Association for Computing Machinery, New York), 208–211.Google Scholar
  • Lee D, Hosanagar K (2019) How do recommender systems affect sales diversity? A cross-category investigation via randomized field experiment. Inform. Systems Res. 30(1):239–259.LinkGoogle Scholar
  • Lee D, Hosanagar K (2020) How do product attributes and reviews moderate the impact of recommender systems through purchase stages? Management Sci. 67(1):524–546.Google Scholar
  • Lewis DD, Gale WA (1994) A sequential algorithm for training text classifiers. Bruce Croft W, van Rijsbergen CJ, eds. Proc. 17th Annual Internat. ACM-SIGIR Conf. Res. Development Inform., vol. 94 (Springer-Verlag, Berlin), 3–12.Google Scholar
  • Li C, Li DY, Miklau G, Suciu D (2014) A theory of pricing private data. ACM Trans. Database Systems 39(4):1–28.CrossrefGoogle Scholar
  • Liebman E, Saar-Tsechansky M, Stone P (2019) The right music at the right time: Adaptive personalized playlists based on sequence modeling. Management Inform. Systems Quart. 43(3):765–786.CrossrefGoogle Scholar
  • McAuley J, Targett C, Shi Q, Van Den Hengel A (2015) Image-based recommendations on styles and substitutes. Gey F, Hearst M, Tong R, eds. Proc. 38th Internat. ACM SIGIR Conf. on Res. and Development in Inform. (Association for Computing Machinery, New York), 43–52.Google Scholar
  • Melville P, Saar-Tsechansky M, Provost F, Mooney R (2005) An expected utility approach to active feature-value acquisition. Han J, Wah BW, Raghavan V, Wu X, Rastogi R, eds. Proc. 5th IEEE Internat. Conf. on Data Mining (IEEE, Piscataway, NJ), 4.Google Scholar
  • Mohallick I, De Moor K, Özgöbek Ö, Gulla JA (2018) Toward new privacy regulations in Europe: Users’ privacy perception in recommender systems. Wang G, Chen J, Yang LT, eds. Proc. Internat. Conf. on Security, Privacy and Anonymity in Comput., Comm. and Storage (Springer, Berlin), 319–330.Google Scholar
  • Neumann N, Tucker CE, Whitfield T (2019) Frontiers: How effective is third-party consumer profiling? Evidence from field studies. Marketing Sci. 38(6):918–926.AbstractGoogle Scholar
  • Nget R, Cao Y, Yoshikawa M (2017) How to balance privacy and money through pricing mechanism in personal data market. Degenhardt J, Kallumadi S, de Rijke M, Si L, Trotman A, Xu Y, eds. Proc. SIGIR 2017 eCom Workshop, vol. 15 ( CEUR-WS.org, Aachen, Germany).Google Scholar
  • Ojala M, Garriga GC (2010) Permutation tests for studying classifier performance. J. Machine Learn. Res. 11(6):1833–1863.Google Scholar
  • Panniello U, Gorgoglione M, Tuzhilin A (2016) Research note—In CARSs we trust: How context-aware recommendations affect customers’ trust and other business performance measures of recommender systems. Inform. Systems Res. 27(1):182–196.LinkGoogle Scholar
  • Park ST, Chu W (2009) Pairwise preference regression for cold-start recommendation. Bergman L, Tuzhilin A, Burke R, Felfernig A, Schmidt-Thieme L, eds. Proc. 3rd ACM Conf. on Recommender Systems (Association for Computing Machinery, New York), 21–28.Google Scholar
  • Parker GG, Van Alstyne MW (2005) Two-sided network effects: A theory of information product design. Management Sci. 51(10):1494–1504.LinkGoogle Scholar
  • Rendle S (2012) Factorization machines with libfm. ACM Trans. Intelligent Systems Tech. 3(3):1–22.CrossrefGoogle Scholar
  • Resnick P, Iacovou N, Suchak M, Bergstrom P, Riedl J (1994) Grouplens: An open architecture for collaborative filtering of netnews. Smith JB, Don Smith F, Malone TW, eds. Proc. ACM Conf. on Comput. Supported Cooperative Work (Association for Computing Machinery, New York), 175–186.Google Scholar
  • Robinson GK (1991) That blup is a good thing: The estimation of random effects. Statist. Sci. 6(1):15–32.Google Scholar
  • Roeber B, Rehse O, Knorrek R, Thomsen B (2015) Personal data: How context shapes consumers’ data sharing with organizations from various sectors. Electronic Marketing 25(2):95–108.CrossrefGoogle Scholar
  • Roy N, McCallum A (2001) Toward Optimal Active Learning Through Monte Carlo Estimation of Error Reduction (ICML, Williamstown, MA).Google Scholar
  • Rubens N, Kaplan D, Sugiyama M (2011) Active learning in recommender systems. Kantor P, Ricci F, Rokach L, Shapira B, eds. Recommender Systems Handbook (Springer, Berlin), 735–767.CrossrefGoogle Scholar
  • Rubinstein A (2003) “Economics and psychology”? The case of hyperbolic discounting. Internat. Econom. Rev. 44(4):1207–1216.CrossrefGoogle Scholar
  • Saar-Tsechansky M, Provost F (2007) Decision-centric active learning of binary-outcome models. Inform. Systems Res. 18(1):4–22.LinkGoogle Scholar
  • Saar-Tsechansky M, Melville P, Provost F (2009) Active feature-value acquisition. Management Sci. 55(4):664–684.LinkGoogle Scholar
  • Sahoo N, Singh PV, Mukhopadhyay T (2012) A hidden Markov model for collaborative filtering. Management Inform. Systems Quart. 36(4):1329–1356.CrossrefGoogle Scholar
  • Salakhutdinov R, Mnih A, Hinton G (2007) Restricted Boltzmann machines for collaborative filtering. Ghahramani Z, ed. Proc. 24th Internat. Conf. on Machine Learn. (Association for Computing Machinery, New York), 791–798.Google Scholar
  • Sandikçi B, Maillart LM, Schaefer AJ, Alagoz O, Roberts MS (2008) Estimating the patient’s price of privacy in liver transplantation. Oper. Res. 56(6):1393–1410.LinkGoogle Scholar
  • Sarwar B, Karypis G, Konstan J, Riedl J (2001) Item-based collaborative filtering recommendation algorithms. Shen VY, Saito N, Lyu MR, Zurko ME, eds. Proc. 10th Internat. Conf. on World Wide Web (Association for Computing Machinery, New York), 285–295.Google Scholar
  • Schein AI, Popescul A, Ungar LH, Pennock DM (2002) Methods and metrics for cold-start recommendations. Proc. 25th Annual Internat. ACM SIGIR Conf. on Res. and Development in Inform. (Association for Computing Machinery, New York), 253–260.Google Scholar
  • Settles B (2009) Active learning literature survey. Technical report, Department of Computer Sciences, University of Wisconsin-Madison, Madison, WI.Google Scholar
  • Sheng VS, Zhang J (2019) Machine learning with crowdsourcing: A brief summary of the past research and future directions. Proc. AAAI Conf. on Artificial Intelligence (AAAI Press, Palo Alto, CA), 9837–9843.Google Scholar
  • Sidana S, Laclau C, Amini MR, Vandelle G, Bois-Crettez A (2017) Kasandr: A large-scale data set with implicit feedback for recommendation. Kando N, Sakai T, Joho H, Li H, de Vries AP, White RW, eds. Proc. 40th Internat. ACM SIGIR Conf. on Res. and Development in Inform. Retrieval (Association for Computing Machinery, New York), 1245–1248.Google Scholar
  • Smith B, Linden G (2017) Two decades of recommender systems at amazon. com. IEEE Internet Comput. 21(3):12–18.CrossrefGoogle Scholar
  • Spiekermann S, Acquisti A, Böhme R, Hui KL (2015a) The challenges of personal data markets and privacy. Electronic Marketing 25(2):161–167.CrossrefGoogle Scholar
  • Spiekermann S, Böhme R, Acquisti A, Hui KL (2015b) Personal data markets. Electronic Marketing 25(2):91–93.CrossrefGoogle Scholar
  • The Economist (2017) The world’s most valuable resource is no longer oil, but data. The data economy demands a new approach to antitrust rules. Leaders, The Economist (May 6), https://www.economist.com/leaders/2017/05/06/the-worlds-most-valuable-resource-is-no-longer-oil-but-data.Google Scholar
  • Van Alstyne M, Parker G (2017) Platform business: From resources to relationships. GfK Marketing Intelligence Rev. 9(1):24–29.Google Scholar
  • Van den Broeck E, Poels K, Walrave M (2015) Older and wiser? Facebook use, privacy concern, and privacy protection in the life stages of emerging, young, and middle adulthood. Soc. Media Soc. 1(2):2056305115616149.CrossrefGoogle Scholar
  • Wang J, Ipeirotis PG, Provost F (2017) Cost-effective quality assurance in crowd labeling. Inform. Systems Res. 28(1):137–158.LinkGoogle Scholar
  • Winkler AM, Ridgway GR, Douaud G, Nichols TE, Smith SM (2016) Faster permutation inference in brain imaging. Neuroimage 141:502–516.CrossrefGoogle Scholar
  • Xiao B, Benbasat I (2007) E-commerce product recommendation agents: Use, characteristics, and impact. Management Inform. Systems Quart. 31(1):137–209.CrossrefGoogle Scholar
  • Zhang Y, Zhao P, Cao J, Ma W, Huang J, Wu Q, Tan M (2018) Online adaptive asymmetric active learning for budgeted imbalanced data. Guo Y, Farooq F, eds. Proc. 24th ACM SIGKDD Internat. Conf. on Knowledge Discovery & Data Mining (Association for Computing Machinery, New York), 2768–2777.Google Scholar
  • Zhang Y, Zhao P, Niu S, Wu Q, Cao J, Huang J, Tan M (2019) Online adaptive asymmetric active learning with limited budgets. IEEE Trans. Knowledge Data Engrg. 33(6):2680–2692.Google Scholar
  • Zhang Z, Li T, Ding C, Zhang X (2007) Binary matrix factorization with applications. Proc. 7th IEEE Internat. Conf. on Data Mining (IEEE, Piscataway, NJ), 391–400.Google Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree