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Truthful Spectrum Auction Design for Secondary Networks

Truthful Spectrum Auction Design for Secondary Networks. Yuefei Zhu ∗ , Baochun Li ∗ and Zongpeng Li † ∗ Electrical and Computer Engineering, University of Toronto † Computer Science, University of Calgary. Spectrum scarcity. There is a spectrum shortage

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Truthful Spectrum Auction Design for Secondary Networks

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  1. Truthful Spectrum Auction Design for Secondary Networks • Yuefei Zhu∗, Baochun Li∗ and Zongpeng Li† • ∗ Electrical and Computer Engineering, University of Toronto • † Computer Science, University of Calgary

  2. Spectrum scarcity • There is a spectrum shortage • AT&T: U.S. is quickly running out of spectrum (February 2012) • Solutions such as secondary access mitigate the problem • Secondary spectrum auctions

  3. Need for multi-hop support

  4. Multi-hop transmission

  5. What are the difficulties for multi-hop supported auctions?

  6. Challenges • Unawareness: unknown of the # of channels to bid for. • Interference: more complicated • Truthfulness: desirable but difficult to achieve

  7. Contributions • A heuristic auction • guarantees truthfulness • provides winning SNs with interference-free end-to-end multi-hop paths • A randomized auction • truthful in expectation • provably approximately-optimal in social welfare

  8. A heuristic truthful auction

  9. Our idea: Channel assignment • Virtual bid for SN i: • Sort SNs: • Greedilyassign channels to shortest paths as long as there are channels feasible for assignment Interference considered

  10. Our idea: Payment • Get a winner i’s “critical bid”: • Set bito 0, run the greedy assignment. The first bidder that makes it infeasible to accommodate i along its path is i’s “critical bidder”. • This “critical bidder” submits a “critical bid” of i • Payment:

  11. A toy example • Payment:

  12. Truthfulness • Lemma: The heuristic auction is individually rational. • is always no larger than • Theorem: The heuristic auction is truthful. • Proof of truthfulness is based on: • monotonic winner determination • bid-independent pricing • (Myerson’s characterization (1981))

  13. A randomized auction

  14. Problem formulation • An integer program: • Winner determination to weighted max-flow Social welfare s.t.

  15. Decomposition • Relaxthe variables to [0,1], getting a linear program (LPR) • If the integrality gap between the integer program (IP) and the LPR is at most , we can decompose the optimal solution as feasible assignment

  16. Decomposition (cont’d) • , we can view this decomposition as a probability distribution over the integer solutions, where a feasible channel assignment is selected with probability

  17. Randomized channel assignment: done!Payment?

  18. Payment • A VCG-like payment is used for ensuring truthfulness (in expectation) and approximately maximizing social welfare:

  19. Results • Theorem: The randomized auction is truthful in expectation. • Theorem: The randomized auction achieves optimal social welfare in expectation.

  20. Simulation results

  21. Auction efficiency with different numbers of SNs enrolled

  22. Auction efficiency with different sizes of SNs

  23. Auction efficiency with different auction settings

  24. Conclusions • Generalized secondary users • Provable truthfulness • Performance-guaranteed social welfare • Improved spectrum utilization

  25. Thank You google “iQua Toronto”

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