1 / 33

Finance 510: Microeconomic Analysis

Finance 510: Microeconomic Analysis. Optimal Mechanism Design. Optimal mechanism design deals with institutional rules chosen to serve some explicit optimization goal. Example.

shaunl
Download Presentation

Finance 510: Microeconomic Analysis

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Finance 510: Microeconomic Analysis Optimal Mechanism Design

  2. Optimal mechanism design deals with institutional rules chosen to serve some explicit optimization goal. Example Suppose that your learn of a long lost uncle that has died and has left you and your sister $3M. You and your sister need to decide how to split the $3M. However, the lawyers fees are $1M per negotiating round. • You and your sister agree to the following: • Coin flip decides who will make the first offer • Offers are made in $100,000 increments • Once an offer is made, the other has the right of refusal • No communication allowed during settlement

  3. You Offer Sister Round 1 Accept Reject Sister Offer You Round 2 Accept Reject You With $1M left to split, you offer your sister $100,000 (Which is strictly preferred to $0) Offer Sister Round 3 Accept Reject ($0,$0)

  4. You Offer Sister Round 1 Accept Reject With $2M left to split, your sister offers $1,000,000 (Which is strictly preferred by you to $900,000) Sister Offer You Round 2 Accept Reject You Offer Sister You: $900,000 Sister: $100,000 Round 3 Accept Reject ($0,$0)

  5. You With $3M left to split, you offer your sister $1,100,000 (Which is strictly preferred to $1,000,000) Offer Sister Round 1 You: $1,900,000 Sister: $1,100,000 Accept Reject Sister Offer You You: $1,000,000 Sister: $1,000,000 Round 2 Accept Reject You Offer Sister You: $900,000 Sister: $100,000 Round 3 Accept Reject ($0,$0)

  6. Optimal mechanism design deals with institutional rules chosen to serve some explicit optimization goal. • We initially had the following rules: • Coin flip decides who will make the first offer • Offers are made in $100,000 increments • Once an offer is made, the other has the right of refusal • No communication allowed during settlement Suppose that we drop the last rule (no communication) and as a result, you sister is able to convince you that she only cares about what she gets relative to you! i.e. ($0, $0) is preferred to ($600,000, $400,000)

  7. You Offer Sister Round 1 Accept Reject Sister Offer You Round 2 Accept Reject You With $1M left to split, you offer You: $400,000 Sister: $600,000 Offer Sister Round 3 Accept Reject ($0,$0)

  8. You Offer Sister Round 1 Accept Reject With $2M left to split, your sister offers $500,000 (Which is strictly preferred by you to $400,000) Sister Offer You Round 2 Accept Reject You Offer Sister You: $400,000 Sister: $600,000 Round 3 Accept Reject ($0,$0)

  9. You With $3M left to split, you offer You: $700,000 Sister: $2,300,000 Offer Sister Round 1 3.2 to one Accept Reject Sister Offer You You: $500,000 Sister: $1,500,000 Round 2 3 to one Accept Reject You Offer Sister You: $400,000 Sister: $600,000 Round 3 Accept Reject ($0,$0)

  10. Optimal mechanism design deals with institutional rules chosen to serve some explicit optimization goal. No Communication Communication You: $1,900,000 Sister: $1,100,000 You: $700,000 Sister: $2,300,000 If you were designing the rules of the negotiation process, which would you choose?

  11. It is customary for the goods or services to be handed out on a first come first serve basis. Therefore, if a line forms, the newest arrival goes to the end of the line. Could this mechanism be improved on? • With First Come First Serve • Lines are unnecessarily long • Goods/services aren’t necessarily distributed to those with the highest value • Individuals inefficiently alter their schedules to avoid the line • With Last Come First Serve • Lines disappear • Goods/services are distributed to those with the highest value (no lines) • Individuals need not alter their schedules

  12. Auction Design In 2000, revenues from online auctions was $6.5 Billion. In 2003, that number grew to $30 Billion!! Experts expect revenues in 2006 to exceed $50 Billion! • Auctions have been used for: • The Babylonians used auctions to arrange marriages • The Greeks used auctions to award mineral rights • The French utilized a “candle auction”. Bids were accepted until the candle burned out (similar to EBay's timed auctions) • The Dutch used auctions to sell tulips (creating the Dutch auction) • T-Bills are sold by the US Treasury via auction • The NYSE is an auction market

  13. Auctions are distinguished by their rules Sequential: There are always re-bid opportunities Simultaneous: Each player gets one bid Minimum Improvement: There exists a minimum “unit” for bidding Continuous: No minimum “unit” Minimum Improvement: There exists a minimum “unit” for bidding Continuous: No minimum “unit” Bids can be sealed (private), open outcry, or posted anonymously Some auctions have a minimum allowable bid (reserve price)

  14. Who Pays and How Much? All Bidders Pay: Anyone with an “acceptable” bid pays and gets the product First Price Auction: Highest Bid wins and pays his/her bid Nth Price Auction: Highest Bid wins and pays the amount of the Nth highest bid English Auctions: Open outcry auction. Last bidder (with the highest offer) wins (ascending auction) Dutch Auctions: The first bidder to accept wins as the auctioneer reads off descending prices (descending auction) Does Auction Type Matter?

  15. VS Sequential Minimum Bid Improvement Posted Prices Multiple Rounds Open Bidding Reserve Price First Price English Ascending Price Seller is Known Simultaneous Continuous Posted Prices (Reverse Auction) One Time (If Seller “Hits”) Credit Card Immediately Authorized No Reserve All Acceptable Bids Pay Dutch Auction Seller is Anonymous

  16. Suppose that you are bidding on an object of unknown value to you (but known to the seller). You know its worth between $0 and $100 to the seller and you also know that your value is 50% above the seller’s. What should your bidding strategy be? A ( $-55, $55) All Offers Refused R ( $0, $0) A ($27.50, $0) V = $0 $0 V = $55 R ( $0, $0) A ( $95, -$45) V = $100 $55 R ( $0, $0) A ( -$100, $100) BID R ( $0, $0) V = $0 A (-$17.50, $45) $100 V = $55 R ( $0, $0) V = $100 A ($50, $0) R ( $0, $0) Consider an example with three possible values: $100, $55, and $0

  17. The Winner’s Curse BID = $0 BID = $55 BID = $100 All offers rejected Accepted only if V = $0 Accepted if V = $100 or V = $55 Expected Gain = $0 Expected Gain = -$18 Expected Gain = -$39 The Best Strategy is to bid $0!! (the expected value is $51) The Winner’s curse states that in an Auction with asymmetric information, if you win the auction, you have definitely overpaid! Bidders are aware of the winner’s curse. Therefore, there is an incentive to underbid (or not bid at all)

  18. The Winner’s Curse Bids for Offshore Oil Contracts (in Millions of 1969 Dollars) Bids for FCC Spectrum Rights (in Millions of 1995 Dollars) Source: R. Weber, “Making More For Less”, Journal of Economics and Management Strategy, Fall 1997

  19. Open bidding allows bidders to react to information revealed in prior rounds. The FCC used open bidding when they recently auctioned broadband PCS Source: P. Crampton, “The FCC Spectrum Auctions”, Journal of Economics and Management Strategy, Fall 1997

  20. Suppose that the value of the Louisville, Kentucky market is a random variable with 6 equally likely possibilities: $10, $20, $30, $40, $50, $60 (Expected Value = $35) You are competing with one other bidder with the same priors (beliefs about the market value). - common value, common information Sealed Bid Auction Your Bid: <$35 Competitor’s Bid: <$35 Oral English Auction Your Bid: <$35 Competitor’s Bid: <$35 The open auction yields no benefits over the sealed bid auction because there is no information to reveal.

  21. Now, suppose that you and your competitor have the same values, but different information about the distribution - common value, private information You: $20, $40, $60 (each with the same probability) Expected Value = $40 Opponent: $10, $40, $60 (each with the same probability) Expected Value = $33.67 Sealed Bid Auction Your Bid: <$40 Competitor’s Bid: <$33 You should win the auction and pay less than $40

  22. Now, suppose that you and your competitor have the same values, but different information about the distribution - common value, private information You: $20, $40, $60 (each with the same probability) Expected Value = $40 Opponent: $10, $40, $60 (each with the same probability) Expected Value = $33.67 Both parties learn that $10, $20, $30, and $50 are not possibilities (you eliminated $10, $30, and $50 while your opponent eliminated $20 ,$30, and $50) Oral English Auction: Round 1 Your Bid: <$40 Competitor’s Bid: <$34 Oral English Auction: Round 1 Your Bid: <$50 Competitor’s Bid: <$50 Both bids in round 2 are more informed!!

  23. Private Value Auctions In private value settings, each bidder has the same information, but a places a different value on the object (e.g. fine art). In this setting, those with high valuation prefer not to reveal themselves and, hence, would underbid in an open outcry auction Suppose that there are two bidders for an object. (A and B). Both believe the value of the object to be between $0 and $10M (with a uniform distribution). Both are following strategies of bidding an amount equal to some fraction of their true value Bidder A places value on the object Bidder A places value on the object

  24. Both are following strategies of bidding an amount equal to some fraction of their true value Bidder A places value on the object Bidder A places value on the object Bidder A wins if

  25. 1 10M 10M

  26. Optimal Bidding by Player A First Order Necessary Conditions

  27. Both are following strategies of bidding an amount equal to some fraction of their true value Bidder A places value on the object Bidder A places value on the object The Nash equilibrium of this game is for both bidders to submit a bid equal to ½ of their private values. With to bidders, optimal strategy is to underbid by 50%!!!

  28. It can be shown that with N bidders, the optimal strategy is 2 5 10 Number if Bidders -10% -20% With Private Value auctions, it pays to have a lot of bidders (as the number if bidders gets arbitrarily large, everyone bids their true value!) -50%

  29. Alternatively, we could deal with the underbidding problem by holding asecond price auction In this setup, the highest bidder wins, but pays the amount equal to the second highest bid Lets repeat the previous example, but with a second price auction

  30. Is there any incentive to bid higher than your private valuation? No. By raising your bid, you increase your odds of winning, but you face the possibility of paying more than you private value! Is there any incentive to bid lower than your private valuation? No. Lowering your bid has no impact on your purchase price, but lowers you odds of winning. Second price auctions avoid underbidding as well as the winner’s curse by giving bidders the incentive to reveal their values (incentive compatibility)

  31. Do All Auctions Yield the Same (Expected) Revenues? Dutch Auctions = 1st Price Auctions (sealed bid) As the price falls, the individual with the highest value will be the first to speak. He/She will win, and pay an amount equal to his/her bid English Auctions = 2nd Price Auctions (sealed bid) As the price rises, the individual with the highest value will be the last to bid and will offer an amount just slightly higher than the previous bidder. 1st Price Auctions (sealed bid) vs. 2nd Price Auctions (sealed bid)?? In first price auctions, the high bid is paid, but everybody has the strategy of underbidding.

  32. Revenue Equivalence • It turns out that you can rake the expected returns from different auction rules. The two important questions are • Are valuations privately or commonly held? • Are bidders risk neutral or risk averse?

  33. Revenue Equivalence Consider the following Products. If you were the seller, which auction type would you prefer? Treasury Bills? IPOs? The type of auction you choose depends on the environment you face!! Artwork? Logging Rights?

More Related