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Article

Collaboration and shared plans in the open world: studies of ridesharing

Authors:

Eric HorvitzAuthors Info & Claims

IJCAI'09: Proceedings of the 21st International Joint Conference on Artificial Intelligence

Pages 187 - 194

Published: 11 July 2009 Publication History

Abstract

We develop and test computational methods for guiding collaboration that demonstrate how shared plans can be created in real-world settings, where agents can be expected to have diverse and varying goals, preferences, and availabilities. The methods are motivated and evaluated in the realm of ridesharing, using GPS logs of commuting data. We consider challenges with coordination among self-interested people aimed at minimizing the cost of transportation and the impact of travel on the environment. We present planning, optimization, and payment mechanisms that provide fair and efficient solutions to the rideshare collaboration challenge. We evaluate different VCG-based payment schemes in terms of their computational efficiency, budget balance, incentive compatibility, and strategy proofness. We present the behavior and analyses provided by the ABC ridesharing prototype system. The system learns about destinations and preferences from GPS traces and calendars, and considers time, fuel, environmental, and cognitive costs. We review how ABC generates rideshare plans from hundreds of real-life GPS traces collected from a community of commuters and reflect about the promise of employing the ABC methods to reduce the number of vehicles on the road, thus reducing CO₂ emissions and fuel expenditures.

References

[1]

{Bowles and Gintis, 2005} S. Bowles and H. Gintis. Can Self-interest Explain Cooperation? Evolutionary and Institutional Economics Review, 2(1):21-41, 2005.

[2]

{Cavallo et al., 2006} R. Cavallo, D. C. Parkes, and S. Singh. Optimal Coordination of Loosely-Coupled Self-Interested Robots. AAAI, 2006.

[3]

{Clarke, 1971} E. H. Clarke. Multipart pricing of public goods. Public Choice, 1971.

[4]

{Devanur et al., 2005} N. R. Devanur, M. Mihail, and V. V. Vazirani. Strategyproof cost-sharing mechanisms for set cover and facility location games. Decision Support Systems, 2005.

[5]

{e Sustainability Initiative, 2008} Global e Sustainability Initiative. SMART 2020: Enabling the low carbon economy in the information age. 2008.

[6]

{Groves, 1973} T. Groves. Incentives in Teams. Econometrica, 1973.

[7]

{Horvitz et al., 2002} E. Horvitz, P. Koch, C. M. Kadie, and A. Jacobs. Coordinate: Probabilistic forecasting of presence and availability. In Proceedings of the Conference on Uncertainty in Artificial Intelligence UAI, 2002.

Digital Library

[8]

{Horvitz et al., 2005} E. Horvitz, P. Koch, R. Sarin, J. Apacible, and M. Subramani. Bayesphone: Precomputation of Context-Sensitive Policies for Inquiry and Action in Mobile Devices. UM, 2005.

Digital Library

[9]

{Horvitz et al., 2007} E. Horvitz, P. Koch, and M. Subramani. Mobile Opportunistic Planning: Methods and Models. UM, 2007.

Digital Library

[10]

{Hunsberger and Grosz, 2000} L. Hunsberger and B. J. Grosz. A combinatorial auction for collaborative planning. In ICMAS, 2000.

[11]

{Kamar and Horvitz, 2009} E. Kamar and E. Horvitz. Generating Shared Transportation Plans Under Varying Preferences: Ridesharing Models and Mechanisms. Technical report, MSR-TR-2009-2011, Microsoft Research, 2009.

[12]

{Kamar et al., 2008} E. Kamar, E. Horvitz, and C. Meek. Mobile opportunistic commerce: mechanisms, architecture, and application. In Proceedings of the 7th international joint conference on Autonomous agents and multiagent systems-Volume 2, pages 1087-1094, 2008.

Digital Library

[13]

{Krumm and Horvitz, 2005} J. Krumm and E. Horvitz. The Microsoft Multiperson Location Survey. Technical report, MSR-TR-2005-103, Microsoft Research, 2005.

[14]

{Krumm and Horvitz, 2006} J. Krumm and E. Horvitz. Predestination: Inferring Destinations from Partial Trajectories. Ubicomp, 2006.

Digital Library

[15]

{Li et al., 2005} X. Li, Z. Sun, and W. Wang. Cost sharing and strategyproof mechanisms for set cover games. In STACKS, 2005.

Digital Library

[16]

{Myerson and Satterthwaite, 1981} RB Myerson and MA Satterthwaite. Efficient Mechanisms for Bilateral Trading. Journal of Economic Theory, 29(2), 1981.

[17]

{Nisan and Ronen, 2007} N. Nisan and A. Ronen. Computationally Feasible VCG Mechanisms. JAIR, 2007.

Digital Library

[18]

{Parkes et al., 2001} D. C. Parkes, J. Kalagnanam, and M. Eso. Achieving Budget-Balance with Vickrey-Based Payment Schemes in Exchanges. In IJCAI, 2001.

[19]

{Vickrey, 1961} W. Vickrey. Counterspeculation, Auctions, and Competitive Sealed Tenders. The Journal of Finance, 1961.

Cited By

Shakya GElkind EVeloso MAgmon NTaylor M(2019)Problems in Computational Mechanism DesignProceedings of the 18th International Conference on Autonomous Agents and MultiAgent Systems10.5555/3306127.3332141(2444-2446)Online publication date: 8-May-2019
https://dl.acm.org/doi/10.5555/3306127.3332141
Mahin MHashem T(2019)Activity-aware Ridesharing Group Trip Planning Queries for Flexible POIsACM Transactions on Spatial Algorithms and Systems10.1145/33418185:3(1-41)Online publication date: 4-Sep-2019
https://dl.acm.org/doi/10.1145/3341818
Asghari MShahabi C(2017)An On-line Truthful and Individually Rational Pricing Mechanism for Ride-sharingProceedings of the 25th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems10.1145/3139958.3139991(1-10)Online publication date: 7-Nov-2017
https://dl.acm.org/doi/10.1145/3139958.3139991
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Information & Contributors

Information

Published In

cover image Guide Proceedings

IJCAI'09: Proceedings of the 21st International Joint Conference on Artificial Intelligence

July 2009

2107 pages

Editor:
Hiroaki Kitano

Sponsors

The Association for the Advancement of Artificial Intelligence (AAAI)
The International Joint Conferences on Artificial Intelligence, Inc. (IJCAI)

Publisher

Morgan Kaufmann Publishers Inc.

San Francisco, CA, United States

Publication History

Published: 11 July 2009

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Cited By

Shakya GElkind EVeloso MAgmon NTaylor M(2019)Problems in Computational Mechanism DesignProceedings of the 18th International Conference on Autonomous Agents and MultiAgent Systems10.5555/3306127.3332141(2444-2446)Online publication date: 8-May-2019
https://dl.acm.org/doi/10.5555/3306127.3332141
Mahin MHashem T(2019)Activity-aware Ridesharing Group Trip Planning Queries for Flexible POIsACM Transactions on Spatial Algorithms and Systems10.1145/33418185:3(1-41)Online publication date: 4-Sep-2019
https://dl.acm.org/doi/10.1145/3341818
Asghari MShahabi C(2017)An On-line Truthful and Individually Rational Pricing Mechanism for Ride-sharingProceedings of the 25th ACM SIGSPATIAL International Conference on Advances in Geographic Information Systems10.1145/3139958.3139991(1-10)Online publication date: 7-Nov-2017
https://dl.acm.org/doi/10.1145/3139958.3139991
Cheng PXin HChen LChirkova RYang JSuciu D(2017)Utility-Aware Ridesharing on Road NetworksProceedings of the 2017 ACM International Conference on Management of Data10.1145/3035918.3064008(1197-1210)Online publication date: 9-May-2017
https://dl.acm.org/doi/10.1145/3035918.3064008
Shen WLopes CCrandall J(2016)An online mechanism for ridesharing in autonomous mobility-on-demand systemsProceedings of the Twenty-Fifth International Joint Conference on Artificial Intelligence10.5555/3060621.3060688(475-481)Online publication date: 9-Jul-2016
https://dl.acm.org/doi/10.5555/3060621.3060688
Shen BHuang YZhao Y(2016)Dynamic ridesharingSIGSPATIAL Special10.1145/2876480.28764837:3(3-10)Online publication date: 11-Jan-2016
https://dl.acm.org/doi/10.1145/2876480.2876483
Hussain IKnapen LGalland SYasar ABellemans TJanssens DWets G(2016)Organizational-based model and agent-based simulation for long-term carpoolingFuture Generation Computer Systems10.1016/j.future.2016.02.01964:C(125-139)Online publication date: 1-Nov-2016
https://dl.acm.org/doi/10.1016/j.future.2016.02.019
Bistaffa FFarinelli AChalkiadakis GRamchurn SWerthner HZanker MGolbeck JSemeraro G(2015)Recommending Fair Payments for Large-Scale Social RidesharingProceedings of the 9th ACM Conference on Recommender Systems10.1145/2792838.2800177(139-146)Online publication date: 16-Sep-2015
https://dl.acm.org/doi/10.1145/2792838.2800177
Shuo Ma Yu Zheng Wolfson O(2015)Real-Time City-Scale Taxi RidesharingIEEE Transactions on Knowledge and Data Engineering10.1109/TKDE.2014.233431327:7(1782-1795)Online publication date: 2-Jun-2015
https://dl.acm.org/doi/10.1109/TKDE.2014.2334313
Pelzer DJiajian Xiao Zehe DLees MKnoll AAydt H(2015)A Partition-Based Match Making Algorithm for Dynamic RidesharingIEEE Transactions on Intelligent Transportation Systems10.1109/TITS.2015.241345316:5(2587-2598)Online publication date: 25-Sep-2015
https://dl.acm.org/doi/10.1109/TITS.2015.2413453
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