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April 10, 2013 - April 2, 2026

Available Issues

April 10, 2013 - April 2, 2026

Information Systems Research for Smart Sustainable Mobility: A Framework and Call for Action

Published Online:19 Sep 2022https://doi.org/10.1287/isre.2022.1167

References

  • Abbasi A, Sarker S, Chiang RH (2016) Big data research in information systems: Toward an inclusive research agenda. J. Assoc. Inform. Systems 17(2):1–32.Google Scholar
  • Abbasi A, Albrecht C, Vance A, Hansen J (2012) Metafraud: A meta-learning framework for detecting financial fraud. Management Inform. Systems Quart. 36(4):1293–1327.CrossrefGoogle Scholar
  • Abbasi A, Zahedi F, Zeng D, Chen Y, Chen H, Nunamaker JF Jr(2015) Enhancing predictive analytics for anti-phishing by exploiting website genre information. J. Management Inform. Systems 31(4):109–157.CrossrefGoogle Scholar
  • Adena M, Huck S (2020) Online fundraising, self-image, and the long-term impact of ask avoidance. Management Sci. 66(2):722–743.LinkGoogle Scholar
  • Adomavicius G, Gupta A, Zhdanov D (2009) Designing intelligent software agents for auctions with limited information feedback. Inform. Systems Res. 20(4):507–526.LinkGoogle Scholar
  • Adomavicius G, Bockstedt JC, Curley SP, Zhang J (2013) Do recommender systems manipulate consumer preferences? A study of anchoring effects. Inform. Systems Res. 24(4):956–975.LinkGoogle Scholar
  • Ahsen ME, Ayvaci MUS, Raghunathan S (2019) When algorithmic predictions use human-generated data: A bias-aware classification algorithm for breast cancer diagnosis. Inform. Systems Res. 30(1):97–116.LinkGoogle Scholar
  • Axhausen KW (2017) Toward an AV future: Key issues. Proc. Future Urban Mobility Sympos. (Institute for Transport Planning and Systems, ETH Zurich, Zurich). https://doi.org/10.3929/ethz-b-000169534.Google Scholar
  • Ba S, Lisic LL, Liu Q, Stallaert J (2013) Stock market reaction to green vehicle innovation. Production Oper. Management 22(4):976–990.CrossrefGoogle Scholar
  • Babar Y, Burtch G (2020) Examining the heterogeneous impact of ride-hailing services on public transit use. Inform. Systems Res. 31(3):820–834.LinkGoogle Scholar
  • Balduzzi P, Lynch AW (1999) Transaction costs and predictability: Some utility cost calculations. J. Financial Econom. 52(1):47–78.CrossrefGoogle Scholar
  • Bapna R, Goes P, Gupta A (2008a) Auctioning vertically integrated online services: Computational approaches for real-time allocation. J. Management Inform. Systems 25(3):65–98.CrossrefGoogle Scholar
  • Bapna R, Jank W, Shmueli G (2008b) Consumer surplus in online auctions. Inform. Systems Res. 19(4):400–416.LinkGoogle Scholar
  • Bapna R, Jank W, Shmueli G (2008c) Price formation and its dynamics in online auctions. Decision Support Systems 44(3):641–656.CrossrefGoogle Scholar
  • Bardhan I, Jh Oh, Zheng Z, Kirksey K (2015) Predictive analytics for readmission of patients with congestive heart failure. Inform. Systems Res. 26(1):19–39.LinkGoogle Scholar
  • Barfar A, Padmanabhan B (2017) Predicting presidential election outcomes from what people watch. Big Data 5(1):32–41.CrossrefGoogle Scholar
  • Batty M, Axhausen KW, Giannotti F, Pozdnoukhov A, Bazzani A, Wachowicz M, Ouzounis G, et al. (2012) Smart cities of the future. Eur. Physical J. Special Topics 214(1):481–518.CrossrefGoogle Scholar
  • Bemmaor AC, Glady N (2012) Modeling purchasing behavior with sudden “death”: A flexible customer lifetime model. Management Sci. 58(5):1012–1021.LinkGoogle Scholar
  • Berente N, Gu B, Recker J, Santhanam R (2021) Managing artificial intelligence. MIS Quart. 45(3):1433–1450.Google Scholar
  • Beverungen D, Breidbach CF, Poeppelbuss J, Tuunainen VK (2019) Smart service systems: An interdisciplinary perspective. Inform. Systems J. 29(6):1201–1206.CrossrefGoogle Scholar
  • Bhargava HK, Sundaresan S (2004) Computing as utility: Managing availability, commitment, and pricing through contingent bid auctions. J. Management Inform. Systems 21(2):201–227.CrossrefGoogle Scholar
  • Bichler M, Gupta A, Ketter W (2010) Designing smart markets. Inform. Systems Res. 21(4):688–699.LinkGoogle Scholar
  • Bimpikis K, Candogan O, Saban D (2019) Spatial pricing in ride-sharing networks. Oper. Res. 67(3):744–769.LinkGoogle Scholar
  • Brandt T, Dlugosch O (2020) Exploratory data science for discovery and ex-ante assessment of operational policies: Insights from vehicle sharing. J. Oper. Management May:1–22.Google Scholar
  • Breuker D, Matzner M, Delfmann P, Becker J (2016) Comprehensible predictive models for business processes. Management Inform. Systems Quart. 40(4):1009–1034.CrossrefGoogle Scholar
  • Bruun E, Givoni M (2015) Sustainable mobility: Six research routes to steer transport policy. Nature 523(7558):29–31.CrossrefGoogle Scholar
  • Burns LD (2013) Sustainable mobility: A vision of our transport future. Nature 497(7448):181–182.CrossrefGoogle Scholar
  • Burtch G, Carnahan S, Greenwood BN (2018) Can you gig it? An empirical examination of the gig economy and entrepreneurial activity. Management Sci. 64(12): 5497–5520.LinkGoogle Scholar
  • Cason TN, Kannan KN, Siebert R (2011) An experimental study of information revelation policies in sequential auctions. Management Sci. 57(4):667–688.LinkGoogle Scholar
  • Chen TD, Kockelman KM, Hanna JP (2016) Operations of a shared, autonomous, electric vehicle fleet: Implications of vehicle and charging infrastructure decisions. Transportation Res. Part A: Policy Practice 94:243–254.CrossrefGoogle Scholar
  • Chen YD, Brown SA, Hu PJH, King CC, Chen H (2011) Managing emerging infectious diseases with information systems: Reconceptualizing outbreak management through the lens of loose coupling. Inform. Systems Res. 22(3):447–468.LinkGoogle Scholar
  • Cheng Z, Pang MS, Pavlou PA (2020) Mitigating traffic congestion: The role of intelligent transportation systems. Inform. Systems Res. 31(3):653–674.LinkGoogle Scholar
  • Cherchi E (2017) A stated choice experiment to measure the effect of informational and normative conformity in the preference for electric vehicles. Transportation Res. Part A Policy Practice 100:88–104.CrossrefGoogle Scholar
  • Chica M, Rand W (2017) Building agent-based decision support systems for word-of-mouth programs: A freemium application. J. Marketing Res. 54(5):752–767.CrossrefGoogle Scholar
  • Cohen P, Hahn R, Hall J, Levitt S, Metcalfe R (2016) Using big data to estimate consumer surplus: The case of Uber. NBER Working paper no. 22627, National Bureau of Economic Research, Cambridge, MA.Google Scholar
  • Collins J, Ketter W, Gini M (2009) Flexible decision control in an autonomous trading agent. Electronic Commerce Res. Appl. 8(2):91–105.CrossrefGoogle Scholar
  • Collins J, Ketter W, Gini M (2010) Flexible decision support in dynamic inter-organisational networks. Eur. J. Inform. Systems 19(4):436–448.CrossrefGoogle Scholar
  • Corbett J (2013) Designing and using carbon management systems to promote ecologically responsible behaviors. J. Assoc. Inform. Systems 14(7):339–378.Google Scholar
  • Corbett J, Mellouli S (2017) Winning the SDG battle in cities: How an integrated information ecosystem can contribute to the achievement of the 2030 sustainable development goals. Inform. Systems J. 27(4):427–461.CrossrefGoogle Scholar
  • Costa DL, Kahn ME (2013) Energy conservation” nudges” and environmentalist ideology: Evidence from a randomized residential electricity field experiment. J. Eur. Econom. Assoc. 11(3):680–702.CrossrefGoogle Scholar
  • Cramton P, Geddes R, Ockenfels A (2018) Set road charges in real time to ease traffic. Nature 560:23–25.CrossrefGoogle Scholar
  • Dedrick J (2010) Green IS: Concepts and issues for information systems research. Comm. Assoc. Inform. Systems 27(1):173–184.Google Scholar
  • Demircan M, Ahadi R, Ketter W (2022a) Sustainability vs. price: Analysis of electric multi-modal vehicle sharing systems under ECIS 2022 Research Papers, 162. Accessed September 8, 2022, https://aisel.aisnet.org/ecis2022_rp/162.Google Scholar
  • Demircan M, Schroer K, Fritze MP, Ketter W (2022b) To differentiate or not to differentiate? The role of product characteristics in the sharing economy. ECIS 2022 Research Papers, 164. Accessed September 8, 2022, https://aisel.aisnet.org/ecis2022_rp/164.Google Scholar
  • Dietvorst BJ, Simmons JP, Massey C (2015) Algorithm aversion: People erroneously avoid algorithms after seeing them err. J. Experiment. Psych. General 144(1):114.CrossrefGoogle Scholar
  • Dlugosch O, Brandt T, Neumann D (2020) Combining analytics and simulation methods to assess the impact of shared, autonomous electric vehicles on sustainable urban mobility. Inform. Management 103285.Google Scholar
  • Du AY, Das S, Gopal RD, Ramesh R (2014) Optimal management of digital content on tiered infrastructure platforms. Inform. Systems Res. 25(4):730–746.LinkGoogle Scholar
  • Eckhardt GM, Houston MB, Jiang B, Lamberton C, Rindfleisch A, Zervas G (2019) Marketing in the sharing economy. J. Marketing 83(5):5–27.CrossrefGoogle Scholar
  • Firnkorn J, Müller M (2015) Free-floating electric carsharing-fleets in smart cities: The dawning of a post-private car era in urban environments? Environ. Sci. Policy 45:30–40.CrossrefGoogle Scholar
  • Fügener A, Grahl J, Gupta A, Ketter W (2021) Will humans-in-the-loop become borgs? Merits and pitfalls of working with AI. Management Inform. Systems Quart. 45(3):1527–1556.CrossrefGoogle Scholar
  • Fügener A, Grahl J, Ketter W, Gupta A (2022) Cognitive challenges in human-ai collaboration: Investigating the path toward productive delegation. Inform. Systems Res. 33(2):678–696.LinkGoogle Scholar
  • Fürstenau D, Baiyere A, Kliewer N (2019) A dynamic model of embeddedness in digital infrastructures. Inform. Systems Res. 30(4):1319–1342.LinkGoogle Scholar
  • Gottwalt S, Ketter W, Block C, Collins J, Weinhardt C (2011) Demand side management-A simulation of household behavior under variable prices. Energy Policy 39(12):8163–8174.CrossrefGoogle Scholar
  • Greenwood BN, Wattal S (2017) Show me the way to go home: An empirical investigation of ride-sharing and alcohol related motor vehicle fatalities. Management Inform. Systems Quart. 41(1):163–187.CrossrefGoogle Scholar
  • Guda H, Subramanian U (2019) Your Uber is arriving: Managing on-demand workers through surge pricing, forecast communication, and worker incentives. Management Sci. 65(5):1–20.Google Scholar
  • Hafermalz E, Johnston RB, Hovorka DS, Riemer K (2020) Beyond ‘mobility’: A new understanding of moving with technology. Inform. Systems J. 30(4):762–786.CrossrefGoogle Scholar
  • Hevner AR, Gregor S (2013) Positioning and presenting design science research for maximum impact. Management Inform. Systems Quart. 37(2):337–355.CrossrefGoogle Scholar
  • Hong Y, Wang C, Pavlou PA (2016) Comparing open and sealed bid auctions: Evidence from online labor markets. Inform. Systems Res. 27(1):49–69.LinkGoogle Scholar
  • Horni A, Nagel K, Axhausen KW (2016) The Multi-Agent Transport Simulation MATSim (Ubiquity Press, London).CrossrefGoogle Scholar
  • INRIX Research (2018) Inrix global traffic scorecard. Technical report, INRIX, Kirkland, WA. Accessed September 8, 2022, https://inrix.com/resources/inrix-2017-global-traffic-scorecard/.Google Scholar
  • Kahlen MT, Ketter W, Dalen JV (2018) Electric vehicle virtual power plant dilemma: Grid balancing vs. customer mobility. Production Oper. Management 27(11):2054–2070.CrossrefGoogle Scholar
  • Kannan KN, Pamuru V, Rosokha Y (2019) Using machine learning for modeling human behavior and analyzing friction in generalized second price auctions. Preprint, submitted January 26, https://dx.doi.org/10.2139/ssrn.3315772.Google Scholar
  • Karaenke P, Bichler M, Minner S (2019) Coordination is hard: Electronic auction mechanisms for increased efficiency in transportation logistics. Management Sci. 65(12):5884–5900.LinkGoogle Scholar
  • Keenan PB, Jankowski P (2019) Spatial Decision Support Systems: Three decades on. Decision Support Systems 116:64–76.CrossrefGoogle Scholar
  • Ketter W, Collins J, Gini M, Gupta A, Schrater P (2009) Detecting and forecasting economic regimes in multi-agent automated exchanges. Decision Support Systems 47(4):307–318.CrossrefGoogle Scholar
  • Ketter W, Collins J, Saar-Tsechansky M, Marom O (2018) Information systems for a smart electricity grid. ACM Trans. Management Inform. Systems 9(3):1–22.CrossrefGoogle Scholar
  • Ketter W, Peters M, Collins J, Gupta A (2016a) A multiagent competitive gaming platform to address societal challenges. Management Inform. Systems Quart. 40(2):447–460.CrossrefGoogle Scholar
  • Ketter W, Peters M, Collins J, Gupta A (2016b) Competitive benchmarking: An IS research approach to address wicked problems with big data and analytics. MANAGEMENT INFORM. SYSTEMS Quart. 40(4):1–53.CrossrefGoogle Scholar
  • Koroleva K, Kahlen M, Ketter W, Rook L, Lanz F (2014) Tamagocar: Using a simulation app to explore price elasticity of demand for electricity of electric vehicle users. Proc. 35th Internat. Conf. on Inform. Systems.Google Scholar
  • Lam AY (2016) Combinatorial auction-based pricing for multi-tenant autonomous vehicle public transportation system. IEEE Trans. Intelligent Transportation Systems 17(3):859–869.CrossrefGoogle Scholar
  • Lu Y, Gupta A, Ketter W, van Heck E (2016) Exploring bidder heterogeneity in multichannel sequential b2b auctions. Management Inform. Systems Quart. 40(3):645–662.CrossrefGoogle Scholar
  • Lu Y, Gupta A, Ketter W, van Heck E (2019a) Dynamic decision making in sequential business-to-business auctions: A structural econometric approach. Management Sci. 65(8).Google Scholar
  • Lu Y, Gupta A, Ketter W, Van Heck E (2019b) Information transparency in business-to-business auction markets: The role of winner identity disclosure. Management Sci. 65(9):4261–4279.LinkGoogle Scholar
  • Lyytinen K, Yoo Y (2002) Research commentary: The next wave of nomadic computing. Inform. Systems Res. 13(4):377–388.LinkGoogle Scholar
  • Maciejewski M, Bischoff J (2017) Congestion effects of autonomous taxi fleets. Transport 33(4):1–10.Google Scholar
  • Mahmassani HS (2016) 50th anniversary invited article: Autonomous vehicles and connected vehicle systems: Flow and operations considerations. Transportation Sci. 50(4):1140–1162.LinkGoogle Scholar
  • Masoum AS, Deilami S, Abu-Siada A, Masoum MA (2015) Fuzzy approach for online coordination of plug-in electric vehicle charging in smart grid. IEEE Trans. Sustainable Energy 6(3):1112–1121.CrossrefGoogle Scholar
  • McKinney V, Yoon K, Zahedi F (2002) The measurement of web-customer satisfaction: An expectation and disconfirmation approach. Inform. Systems Res. 13(3):296–315.LinkGoogle Scholar
  • Melville N (2010) Information systems innovation for environmental sustainability. Management Inform. Systems Quart. 34(1):1–21.CrossrefGoogle Scholar
  • Meyer G, Adomavicius G, Johnson PE, Elidrisi M, Rush WA, Sperl-Hillen JM, O’Connor PJ (2014) A machine learning approach to improving dynamic decision making. Inform. Systems Res. 25(2):239–263.LinkGoogle Scholar
  • Nishant R, Kennedy M, Corbett J (2020) Artificial intelligence for sustainability: Challenges, opportunities, and a research agenda. Internat. J. Inform. Management 53:102104.CrossrefGoogle Scholar
  • Oestreicher-Singer G, Zalmanson L (2013) Content or community? A digital business strategy for content providers in the social age. Management Inform. Systems Quart. 37(2):591–616.CrossrefGoogle Scholar
  • Osterwalder A, Pigneur Y, Tucci C (2005) Clarifying business models: Origins, present, and future of the concept. Comm. Assoc. Inform. Systems 15:1–43.Google Scholar
  • Papadopoulos P, Jenkins N, Cipcigan LM, Grau I, Zabala E (2013) Coordination of the charging of electric vehicles using a multi-agent system. IEEE Trans. Smart Grid 4(4):1802–1809.CrossrefGoogle Scholar
  • Pelechrinis K, Li B, Qian S (2016) Bike sharing and car trips in the city: The case of healthy ride Pittsburgh. Preprint, submitted October 18, https://dx.doi.org/10.2139/ssrn.2853543.Google Scholar
  • Pelletier S, Jabali O, Laporte G (2016) 50th anniversary invited article: Goods distribution with electric vehicles: Review and research perspectives. Transportation Sci. 50(1):3–22.LinkGoogle Scholar
  • Peters M, Ketter W, Saar-Tsechansky M, Collins J (2013) A reinforcement learning approach to autonomous decision-making in smart electricity markets. Machine Learn. 92:5–39.CrossrefGoogle Scholar
  • Peters M, Saar-Tsechansky M, Ketter W, Williamson SA, Groot P, Heskes T (2018) A scalable preference model for autonomous decision-making. Machine Learn. 107(6):1039–1068.CrossrefGoogle Scholar
  • Pfeiffer J, Pfeiffer T, Meißner M, Weiß E (2020) Eye-tracking-based classification of information search behavior using machine learning: Evidence from experiments in physical shops and virtual reality shopping environments. Inform. Systems Res. 31(3):675–691.LinkGoogle Scholar
  • Qi W, Shen ZJM (2018) A smart-city scope of operations management. Production Oper. Management 28(2):1–14.Google Scholar
  • Qiu L, Benbasat I (2009) Evaluating anthropomorphic product recommendation agents: A social relationship perspective to designing information systems. J. Management Inform. Systems 25(4):145–182.CrossrefGoogle Scholar
  • SAE (2018) J3016_201806: Taxonomy and definitions for terms related to driving automation systems for on-road motor vehicles. Accessed September 8, 2022, https://www.sae.org/standards/content/j3016_201806/.Google 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
  • Sarker S, Chatterjee S, Xiao X, Elbanna A (2019) The sociotechnical axis of cohesion for the IS discipline: Its historical legacy and its continued relevance. Management Inform. Systems Quart. 43(3):695–719.CrossrefGoogle Scholar
  • Scheffel T, Pikovsky A, Bichler M, Guler K (2011) An experimental comparison of linear and nonlinear price combinatorial auctions. Inform. Systems Res. 22(2):346–368.LinkGoogle Scholar
  • Schroer K, Ketter W, Lee TY, Gupta A, Kahlen M (2022) Data-driven competitor-aware positioning in on-demand vehicle rental networks. Transportation Sci. 56(1):182–200.LinkGoogle Scholar
  • Schwartz B (2016) The Paradox of Choice: Why More Is Less, revised ed. (Harper Perennial, New York).Google Scholar
  • Seidel S, Recker J, vom Brocke J (2013) Sensemaking and sustainable practicing: Functional affordances of information systems in green transformations. Management Inform. Systems Quart. 37(4):1275–1299.CrossrefGoogle Scholar
  • Seidel S, Chandra Kruse L, Székely N, Gau M, Stieger D (2018) Design principles for sensemaking support systems in environmental sustainability transformations. Eur. J. Inform. Systems 27(2):221–247.CrossrefGoogle Scholar
  • Shaheen S, Cohen A (2007) Growth in worldwide carsharing: An international comparison. Transportation Res. Record 1992:81–89.CrossrefGoogle Scholar
  • Shmueli G, Koppius OR (2011) Predictive analytics in information systems research. Management Inform. Systems Quart. 35(3):553–572.CrossrefGoogle Scholar
  • Simon HA (1979) Rational decision making in business organizations. Amer. Econom. Rev. 69(4):493–513.Google Scholar
  • Singh VK, Shrivastava U, Bouayad L, Padmanabhan B, Ialynytchev A, Schultz SK (2018) Machine learning for psychiatric patient triaging: An investigation of cascading classifiers. J. Amer. Medical Inform. Assoc. 25(11):1481–1487.CrossrefGoogle Scholar
  • Sperling D (2018) Three Revolutions: Steering Automated, Shared, and Electric Vehicles to a Better Future (Island Press, Washington, DC).CrossrefGoogle Scholar
  • Sundararajan A (2016) The Sharing Economy: The End of Employment and the Rise of Crowd-Based Capitalism (MIT Press, Cambridge, MA).Google Scholar
  • Thaler RH, Sunstein CR, Balz JP (2013) Choice architecture. Sharfir E, ed. The Behavioral Foundations of Public Policy (Princeton University Press, Princeton, NJ), 428–439.CrossrefGoogle Scholar
  • Tiefenbeck V, Goette L, Degen K, Tasic V, Fleisch E, Lalive R, Staake T (2018) Overcoming salience bias: How real-time feedback fosters resource conservation. Management Sci. 64(3):1458–1476.LinkGoogle Scholar
  • Valogianni K, Ketter W (2016) Effective demand response for smart grids: Evidence from a real-world pilot. Decision Support Systems 91:48–66.CrossrefGoogle Scholar
  • Valogianni K, Ketter W, Collins J, Zhdanov D (2020) Sustainable electric vehicle charging using adaptive pricing. Production Oper. Management 29(6):1550–1572.Google Scholar
  • Valogianni K, Gupta A, Ketter W, Sen S, van Heck E (2019) Multiple Vickrey auctions for sustainable electric vehicle charging. Proc. 40th Internat. Conf. on Inform. Systems.Google Scholar
  • Vickrey W (1969) Congestion theory and transport investment. Amer. Econom. Rev. 59(2):251–260.Google Scholar
  • Wadud Z, MacKenzie D, Leiby P (2016) Help or hindrance? The travel, energy and carbon impacts of highly automated vehicles. Transportation Res. Part A: Policy Practice 86:1–18.CrossrefGoogle Scholar
  • Wang Q, Li B, Singh PV (2018) Copycats vs. original mobile apps: A machine learning copycat-detection method and empirical analysis. Inform. Systems Res. 29(2):273–291.LinkGoogle Scholar
  • Watson RT, Boudreau MC, Chen AJ (2010) Information systems and environmentally sustainable development: Energy informatics and new directions for the IS community. Management Inform. Systems Quart. 24(4):665–694.Google Scholar
  • Willing C, Klemmer K, Brandt T, Neumann D (2017) Moving in time and space: Location intelligence for carsharing decision support. Decision Support Systems 99:75–85.CrossrefGoogle Scholar
  • World Health Organization (2005) Health effects of transport-related air pollution. Technical report, World Health Organization, Geneva.Google Scholar
  • World Health Organization (2018) Global status report on road safety. Technical report 4, World Health Organization, Geneva, Switzerland.Google Scholar
  • Yang M, Ren Y, Adomavicius G (2019) Understanding user-generated content and customer engagement on Facebook business pages. Inform. Systems Res. 30(3):839–855.LinkGoogle Scholar
  • Yang YC, Padmanabhan B (2010) Toward user patterns for online security: Observation time and online user identification. Decision Support Systems 48(4):548–558.CrossrefGoogle Scholar
  • Yoo Y, Henfridsson O, Lyytinen K (2010) Research commentary-the new organizing logic of digital innovation: An agenda for information systems research. Inform. Systems Res. 21(4):724–735.LinkGoogle Scholar
  • Zhang Y, Li B, Krishnan R (2020) Learning individual behavior using sensor data: The case of global positioning system traces and taxi drivers. Inform. Systems Res. 31(4):1301–1321.LinkGoogle Scholar
  • Zheng Z, Padmanabhan B (2006) Selectively acquiring customer information: A new data acquisition problem and an active learning-based solution. Management Sci. 52(5):697–712.LinkGoogle Scholar
  • Zhu H, Samtani S, Brown RA, Chen H (2021) A deep learning approach for recognizing activity of daily living (ADL) for senior care: Exploiting interaction dependency and temporal patterns. Management Inform. Systems Quart. 45(2):859–896.CrossrefGoogle Scholar
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