Handbook of Spectrum Auction Design
Published on 26. October 2017
Book
Hardback
932 pages
978-1-107-13534-5 (ISBN)
Description
Following the successful PCS Auction conducted by the US Federal Communications Commission in 1994, auctions have replaced traditional ways of allocating valuable radio spectrum, a key resource for any mobile telecommunications operator. Spectrum auctions have raised billions of dollars worldwide and have become a role model for market-based approaches in the public and private sectors. The design of spectrum auctions is a central application of game theory and auction theory due to its importance in industry and the theoretical challenges it presents. Several auction formats have been developed with different properties addressing fundamental questions about efficiently selling multiple objects to a group of buyers. This comprehensive handbook features classic papers and new contributions by international experts on all aspects of spectrum auction design, including pros and cons of different auctions and lessons learned from theory, experiments, and the field, providing a valuable resource for regulators, telecommunications professionals, consultants, and researchers.
Reviews / Votes
'This superb Handbook is a milestone in the progress of market design. It's a comprehensive analysis of designs, implementation, experimental testing, and bidding experience in auctions and similar markets for spectrum licenses. The authors achieved remarkable success in many auctions after the initial FCC auction began worldwide efforts to allocate licenses more efficiently via market mechanisms. The distinguished contributors report their solutions to difficult problems, the resulting performance, and remaining challenges.' Robert Wilson, Adams Distinguished Professor of Management, Stanford University 'The papers in this volume highlight both the theoretical and the practical issues that arise in spectrum auctions. The book includes contributions from many of the world's leading economists, game theorists, optimizers, and computer scientists. Anyone interested in the practical application of market design and resource allocation will find this text an important reference.' Karla Hoffman, George Mason University, Virginia 'Bichler and Goeree, both important contributors to the field, have curated an exceptional Handbook, which will be an invaluable resource for researchers and practitioners working on the design of auctions and secondary exchanges for spectrum and other applications with complex interdependencies.' Peter Bossaerts, Redmond Barry Distinguished Professor, University of Melbourne 'Spectrum auctions are a remarkable example of 'technology transfer' from research to practice, with beautiful theoretical ideas informing current auction designs that regularly generate tens of billions of dollars in revenue. Bichler and Goeree have masterfully assembled the 'greatest hits' of this literature, ranging from the early papers that laid the foundations to the latest developments on the 2016 FCC Incentive Auction.' Tim Roughgarden, Stanford University 'This Handbook is the answer to my search for a truly wholistic view on auction designs and will be an extremely valuable resource for consultations with regulatory authorities as well as bid strategy preparations.' Matthias Leonhard, DT Spectrum Projects, Deutsche TelekomMore details
Language
English
Place of publication
Cambridge
United Kingdom
Target group
Professional and scholarly
College/higher education
Product notice
sewn/stitched
Cloth over boards
Dimensions
Height: 261 mm
Width: 182 mm
Thickness: 55 mm
Weight
1766 gr
ISBN-13
978-1-107-13534-5 (9781107135345)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Martin Bichler | Jacob K. Goeree
Handbook of Spectrum Auction Design
E-Book
11/2017
Cambridge University Press
€98.99
Available for download
Persons
Martin Bichler is Professor of Informatics at the Technische Universitaet Muenchen (TUM), and a faculty member at the TUM School of Management. He is known for his academic work on market design, and he has acted as a consultant for private and public organizations including regulators, telecoms, and procurement organizations. Projects in which he is involved include the design of auctions for industrial procurement, logistics, advertising, fishery access rights, and spectrum sales. His research addresses algorithmic, game-theoretical, and behavioral questions and has appeared in leading journals in computer science, economics, operations research, and management science. He is currently Editor of Business and Information Systems Engineering and serves on the editorial boards of several academic journals. Jacob Goeree is SHARP Professor and Director of the AGORA Center for Market Design at University of New South Wales, Sydney. He is a world-leading experimenter, theorist and market designer whose research has influenced the design of spectrum auctions and markets for pollution permits and fishing shares. Goeree was Research Fellow of the Alfred P. Sloan Foundation and is Fellow of the Econometric Society and the Royal Netherlands Academy of Arts and Sciences. He served as President of the Economic Science Association and as Editor of Experimental Economics. He is an Associate Editor of the Journal of Economic Theory and Games and Economic Behavior.
Content
Preface; Part I. The Simultaneous Ascending Auction: 1. Putting auction theory to work: the simultaneous ascending auction; 2. An equilibrium analysis of the simultaneous ascending auction; 3. The efficiency of the FCC spectrum auctions; 4. Measuring the efficiency of an FCC spectrum auction; Part II. The Combinatorial Clock Auction Formats: 5. Combinatorial auction design; 6. The clock-proxy auction: a practical combinatorial auction design; 7. Spectrum auction design; 8. A practical guide to the combinatorial clock auction; 9. Market design and the evolution of the combinatorial clock auction; 10. Quadratic core-selecting payment rules for combinatorial auctions; 11. Core-selecting package auctions; 12. A new payment rule for core-selecting package auctions; 13. On the impossibility of core-selecting auctions; 14. Ascending combinatorial auctions with risk averse bidders; 15. Properties of the combinatorial clock auction; 16. Budget constraints combinatorial clock auctions; 17. (Un)expected bidder behavior in spectrum auctions: about inconsistent bidding and its impact on efficiency in the combinatorial clock auction; Part III. Alternative Auction Designs: 18. A combinatorial auction mechanism for airport time slot allocation; 19. A new and improved design for multiobject iterative auctions; 20. Hierarchical package bidding: a paper and pencil combinatorial auction; 21. Assignment messages and exchanges; 22. The product-mix auction: a new auction design for differentiated goods; 23. The continuous combinatorial auction architecture; 24. Coalition-based pricing in ascending combinatorial auctions; Part IV. Experimental Comparisons of Auction Designs: 25. Experiments testing multiobject allocation mechanisms; 26. Laboratory experimental testbeds: application to the PCS auction; 27. An experimental test of flexible combinatorial spectrum auction formats; 28. On the impact of package selection in combinatorial auctions: an experimental study in the context of spectrum auction design; 29. Do core-selecting combinatorial clock auctions always lead to high efficiency? An experimental analysis of spectrum auction designs; 30. Spectrum auction design: simple auctions for complex sales; Part V. The Bidders' Perspective: 31. Winning play in spectrum auctions; 32. Up in the air: GTE's experience in the MTA auction for personal communication services licenses; 33. Bidding complexities in the combinatorial clock auction; 34. Strategic bidding in combinatorial clock auctions - a bidder perspective; 35. Impact of budget-contraints on the efficiency of multi-lot spectrum auctions; Part VI. Secondary Markets and Exchanges: 36. Spectrum markets: motivation, challenges, and implications; 37. Designing the US incentive auction; 38. Solving the station repacking problem; 39. ICE: an expressive iterative combinatorial exchange; 40. ACE: a combinatorial market mechanism; Outlook.