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Designing Risk-Averse Bidding Strategies in Sequential Auctions for Transportation Orders

Designing Risk-Averse Bidding Strategies in Sequential Auctions for Transportation Orders
Designing Risk-Averse Bidding Strategies in Sequential Auctions for Transportation Orders
Designing efficient bidding strategies for agents participating in multiple, sequential auctions remains an important challenge for researchers in agent-mediated electronic markets. The problem is particularly hard if the bidding agents have complementary (i.e. super-additive) utilities for the items being auctioned, such as is often the case in distributed transportation logistics. This paper studies the effect that a bidding agent’s attitude towards taking risks plays in her optimal, decision-theoretic bidding strategy. We model the sequential bidding decision process as an MDP and we analyze, for a category of expectations of future price distributions, the effect that a bidder’s risk aversion profile has on her decision-theoretic optimal bidding policy. Next, we simulate the above strategies, and we study the effect that an agent’s risk aversion has on the chances of winning the desired items, as well as on the market efficiency and expected seller revenue. The paper extends the results presented in our previous work (reported in [1]), not only by providing additional details regarding the analytical part, but also by considering a more complex and realistic market setting for the simulations. This simulation setting is based on a real transportation logistics scenario [2]), in which bidders have to choose between several combinations (bundles) of orders that can be contracted for transportation.
139-160
Springer Berlin, Heidelberg
Robu, Valentin
36b30550-208e-48d4-8f0e-8ff6976cf566
La Poutre, J.A.
31ffa5ed-a4a3-40d7-ac47-db7a375d95ae
Robu, Valentin
36b30550-208e-48d4-8f0e-8ff6976cf566
La Poutre, J.A.
31ffa5ed-a4a3-40d7-ac47-db7a375d95ae

Robu, Valentin and La Poutre, J.A. (2009) Designing Risk-Averse Bidding Strategies in Sequential Auctions for Transportation Orders. In, Studies in Computational Intelligence. Springer Berlin, Heidelberg, pp. 139-160.

Record type: Book Section

Abstract

Designing efficient bidding strategies for agents participating in multiple, sequential auctions remains an important challenge for researchers in agent-mediated electronic markets. The problem is particularly hard if the bidding agents have complementary (i.e. super-additive) utilities for the items being auctioned, such as is often the case in distributed transportation logistics. This paper studies the effect that a bidding agent’s attitude towards taking risks plays in her optimal, decision-theoretic bidding strategy. We model the sequential bidding decision process as an MDP and we analyze, for a category of expectations of future price distributions, the effect that a bidder’s risk aversion profile has on her decision-theoretic optimal bidding policy. Next, we simulate the above strategies, and we study the effect that an agent’s risk aversion has on the chances of winning the desired items, as well as on the market efficiency and expected seller revenue. The paper extends the results presented in our previous work (reported in [1]), not only by providing additional details regarding the analytical part, but also by considering a more complex and realistic market setting for the simulations. This simulation setting is based on a real transportation logistics scenario [2]), in which bidders have to choose between several combinations (bundles) of orders that can be contracted for transportation.

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Published date: 6 October 2009
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Organisations: Agents, Interactions & Complexity
Learn more about Agents, Interactions & Complexity research

Identifiers

Local EPrints ID: 268197
URI: http://eprints.soton.ac.uk/id/eprint/268197
PURE UUID: 44f8fee1-7c36-4240-bf8b-fb22f99b946f

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Date deposited: 11 Nov 2009 18:41
Last modified: 14 Mar 2024 09:04

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Contributors

Author: Valentin Robu
Author: J.A. La Poutre

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