Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 Competitive Auctions Authors: A. V. Goldberg, J. D. Hartline, A. Wright, A. R. Karlin and M. Saks Presented By: Arik Friedman and Itai Sharon.

Published byByron Woods Modified over 8 years ago

Similar presentations

Presentation on theme: "1 Competitive Auctions Authors: A. V. Goldberg, J. D. Hartline, A. Wright, A. R. Karlin and M. Saks Presented By: Arik Friedman and Itai Sharon."— Presentation transcript:

1 1 Competitive Auctions Authors: A. V. Goldberg, J. D. Hartline, A. Wright, A. R. Karlin and M. Saks Presented By: Arik Friedman and Itai Sharon

2 2 Motivation – Current Trends Negligible cost of duplicating digital goods Emergence of the internet the problem: profit optimization for seller in an auction Possible uses: PPV-TV, audio files

3 3 Traditional Solution – Bayesian Auction Example: VCG selling mechanism However: –Accurate prior distribution unavailable or expensive –Might be infeasible or unacceptable to consumers Required: dynamic selling mechanism, for any market condition

4 4 Settings Single-round, sealed-bid, truthful auction mechanism Performance of algorithms gauged in terms of optimal algorithm –Worst-case analysis –Success  competitive algorithm Unlimited supply –Can be extended for limited supply

5 5 Agenda Optimal Auctions Bid-independent auction –Equivalent to truthful auction No symmetric, truthful, deterministic auction is competitive Two competitive randomized auctions: –DSOT –SCS Justyfing optimality of F (m)

6 6 Optimal Auctions A gauge for measuring auction performance

7 7 Single Round Sealed Bid Auctions n bidders b – vector of bids –Maximum amount each bidder will pay Auctioneer computes: (Randomized?) –Allocation x = (x 1,x 2,…,x n ) –Prices p = (p 1,p 2,…,p n ) For winning bidders (x i =1): 0≤p i ≤b i For losing bidders (x i =0): p i =0 Profit: R(b) = Σ i p i

8 8 Assumptions Each bidder i has private utility value u i Bidders want to maximize profit, u i x i -p i Bidders have full knowledge of auctioneer’s strategy Bidders do not collude

9 9 Some More Definitions Symmetric auctions: Values of x and p are independent of order of bids Deterministic Truthful auction: Bidder i’s profit is maximized by bidding u i Randomized Truthful auction: May be described as a probability distribution over deterministic truthful auctions

10 10 Optimal Auction – First Try The Optimal multiple-price omniscient auction: But: not truthful…  As we will see – not a good bound…

11 11 Optimal Auction – Second Try The Optimal single-price omniscient auction: –v i is the i th largest bid in b –All bidders with b i ≥v k win at price v k However – impossible to compete with... –As will be shown later

12 12 Theorem (T(b) vs. F(b)) For all bid vectors b F (b) ≥ T(b)/ln n There exist bid vectors b for which F(b) = Θ(T(b)/ln n)

13 13 Optimal Auction – Final Try The m-optimal single-price omniscient auction: –v i is the i th largest bid in b –Determines k such that k≥m and k  v k is maximized –All bidders with b i ≥v k win at price v k

14 14 Competitive Auctions – Definitions A – truthful auction β - the competitive ratio of A. A is β-competitive against F (m) if for all bid vectors b: E[A(b)] ≥ F (m) (b) / β A is competitive against F (m) if it is β-competitive against F (m) for constant β For m=2: A is [β-]competitive

15 15 Bid-Independent Auctions And Other Definitions …

16 16 Bid-Independent Auctions: Definitions 1≤i≤n f i : bid vectors  prices The deterministic bid-independent auction defined by the functions f i. For each bidder i: –t i = f i (b -i ), b -i = (b 1,…,b i-1,b i+1,…,b n ) –if b i ≥t i, bidder i wins at price t i –Otherwise, bidder i is rejected Bid-Independent = Truthful

17 17 Bid Independent  Truthful u i ≥ t i – bid at least t i and pay t i –specifically, bid u i u i < t i – can’t win without losing… –so bid u i and lose  u i maximizes bidder i’s profit.

18 18 Truthful  Bid Independent A – any truthful deterministic auction –We want to find f such that A f is identical to A. b i x =(b 1,…,b i-1,x,b i+1,…,b n ) If  x * such that in A(b i x* ) i wins and pays p then: f(b -i )=p otherwise f(b -i )=∞ Given p, We can show for A(b i x ) that: –If bidder i wins, he pays p. –Bidder i wins by bidding any x≥p.

19 19 Which Implies… A deterministic auction is truthful if and only if it is equivalent to a bid-independent auction Definition: a randomized bid-independent auction is a probability distribution over bid- independent auctions. Corollary: a randomized auction is truthful if and only if it is equivalent to a bid- independent auction

20 20 Measuring Performance

21 21 Theorem (can’t compete F (1) (b)) For any truthful auction A f and constant β≥1, there is a bid vector b such that E[R(b)] <F(b)/β

22 22 Proof Consider a bid-independent randomized auction on two bids, 1 and x≥1. let h be the smallest value greater or equal to 1 such that Pr[f(1)≥h] ≤ 1/2β. Then the profit on input vector b = (1,H) with H = 4βh is at most  For any constant β≥1, no auction is β-competitive against F =F (1)

23 23 Theorem (deterministic auctions are not competitive) Let A f be any symmetric, truthful, deterministic auction defined by a function f. Then A f is not competitive: for any 1≤m≤n, there exists a bid vector b of length n, such that R[b] ≤ F(m)(b) / ( ) nmnm

24 24 Proof Consider bid vectors whose bids are all n or 1. –For 0≤j≤n-1: f(j) is the price the auction assigns to a vector with j bids at n and n-1-j bids at 1. We can assume f(0)≤1. Let k be the largest integer in {0,…,n-1} such that f(k)≤1. Let b be the bid vector with k+1 bids at n, and n-k-1 bids at 1. –Profit of A f on b is (k+1)f(k) ≤ k+1 –If k≤m-1 then F (m) has profit n. –If k≥m then F (m) has profit at least (k+1)n. –Either case the profit is at most F (m) (b) / ( ). nmnm

Download ppt "1 Competitive Auctions Authors: A. V. Goldberg, J. D. Hartline, A. Wright, A. R. Karlin and M. Saks Presented By: Arik Friedman and Itai Sharon."

Similar presentations

Combinatorial Auction

Combinatorial Auction
Truthful Mechanisms for Combinatorial Auctions with Subadditive Bidders Speaker: Shahar Dobzinski Based on joint works with Noam Nisan & Michael Schapira.

Truthful Mechanisms for Combinatorial Auctions with Subadditive Bidders Speaker: Shahar Dobzinski Based on joint works with Noam Nisan & Michael Schapira.
Eric Shou Stat/CSE 598B. What is Game Theory? Game theory is a branch of applied mathematics that is often used in the context of economics. Studies strategic.

Eric Shou Stat/CSE 598B. What is Game Theory? Game theory is a branch of applied mathematics that is often used in the context of economics. Studies strategic.
Prior-free auctions of digital goods Elias Koutsoupias University of Oxford.

Prior-free auctions of digital goods Elias Koutsoupias University of Oxford.
Approximating optimal combinatorial auctions for complements using restricted welfare maximization Pingzhong Tang and Tuomas Sandholm Computer Science.

Approximating optimal combinatorial auctions for complements using restricted welfare maximization Pingzhong Tang and Tuomas Sandholm Computer Science.
CPS 296.1 Bayesian games and their use in auctions Vincent Conitzer

CPS Bayesian games and their use in auctions Vincent Conitzer
Mechanism Design, Machine Learning, and Pricing Problems Maria-Florina Balcan.

Mechanism Design, Machine Learning, and Pricing Problems Maria-Florina Balcan.
USING LOTTERIES TO APPROXIMATE THE OPTIMAL REVENUE Paul W. GoldbergUniversity of Liverpool Carmine VentreTeesside University.

USING LOTTERIES TO APPROXIMATE THE OPTIMAL REVENUE Paul W. GoldbergUniversity of Liverpool Carmine VentreTeesside University.
Seminar in Auctions and Mechanism Design Based on J. Hartline’s book: Approximation in Economic Design Presented by: Miki Dimenshtein & Noga Levy.

Seminar in Auctions and Mechanism Design Based on J. Hartline’s book: Approximation in Economic Design Presented by: Miki Dimenshtein & Noga Levy.
Prompt Mechanisms for Online Auctions Speaker: Shahar Dobzinski Joint work with Richard Cole and Lisa Fleischer.

Prompt Mechanisms for Online Auctions Speaker: Shahar Dobzinski Joint work with Richard Cole and Lisa Fleischer.
An Approximate Truthful Mechanism for Combinatorial Auctions An Internet Mathematics paper by Aaron Archer, Christos Papadimitriou, Kunal Talwar and Éva.

An Approximate Truthful Mechanism for Combinatorial Auctions An Internet Mathematics paper by Aaron Archer, Christos Papadimitriou, Kunal Talwar and Éva.
Multi-item auctions with identical items limited supply: M items (M smaller than number of bidders, n). Three possible bidder types: –Unit-demand bidders.

Multi-item auctions with identical items limited supply: M items (M smaller than number of bidders, n). Three possible bidder types: –Unit-demand bidders.
On Cheating in Sealed-Bid Auctions Ryan Porter Yoav Shoham Computer Science Department Stanford University.

On Cheating in Sealed-Bid Auctions Ryan Porter Yoav Shoham Computer Science Department Stanford University.
Private-value auctions: theory and experimental evidence (Part I) Nikos Nikiforakis The University of Melbourne.

Private-value auctions: theory and experimental evidence (Part I) Nikos Nikiforakis The University of Melbourne.
Auction Theory Class 3 – optimal auctions 1. Optimal auctions Usually the term optimal auctions stands for revenue maximization. What is maximal revenue?

Auction Theory Class 3 – optimal auctions 1. Optimal auctions Usually the term optimal auctions stands for revenue maximization. What is maximal revenue?
Optimal auction design Roger Myerson Mathematics of Operations research 1981.

Optimal auction design Roger Myerson Mathematics of Operations research 1981.
A Prior-Free Revenue Maximizing Auction for Secondary Spectrum Access Ajay Gopinathan and Zongpeng Li IEEE INFOCOM 2011, Shanghai, China.

A Prior-Free Revenue Maximizing Auction for Secondary Spectrum Access Ajay Gopinathan and Zongpeng Li IEEE INFOCOM 2011, Shanghai, China.
Competitive Auctions Review Rattapon Limprasittiporn.

Competitive Auctions Review Rattapon Limprasittiporn.
Congestion Games with Player- Specific Payoff Functions Igal Milchtaich, Department of Mathematics, The Hebrew University of Jerusalem, 1993 Presentation.

Congestion Games with Player- Specific Payoff Functions Igal Milchtaich, Department of Mathematics, The Hebrew University of Jerusalem, 1993 Presentation.
A Sufficient Condition for Truthfulness with Single Parameter Agents Michael Zuckerman, Hebrew University 2006 Based on paper by Nir Andelman and Yishay.

A Sufficient Condition for Truthfulness with Single Parameter Agents Michael Zuckerman, Hebrew University 2006 Based on paper by Nir Andelman and Yishay.

Similar presentations

Ads by Google