53 research outputs found
Security bid auctions for agency contracts
A principal uses security bid auctions to award an incentive contract to one among several agents, in the presence of hidden action and hidden information. Securities range from cash to equity and call options. âSteeperâ securities are better surplus extractors that narrow the gap between the two highest valuations, yet reduce effort incentives. In view of this trade-off, the generalized equity auction that includes a (possibly negative) cash reward to the winner tends to outperform all other auctions, although it cannot extract the entire surplus implement efficient effort. Hence, profit sharing emerges without risk aversion or limited liability
Auctions with imperfect commitment when the reserve may signal the auctioneer's type
If bidders are uncertain whether the auctioneer sticks to the announced reserve, some bidders respond by not bidding, speculating that the auctioneer may revoke the reserve. However, the reserve inadvertently signals the auctioneer's type, which drives a unique separating and a multitude of pooling equilibria. If one eliminates belief systems that violate the "intuitive criterion", one obtains a unique equilibrium reserve price equal to the seller's own valuation. Paradoxically, even if bidders initially believe that the auctioneer is bound by his reserve almost with certainty, commitment has no value
Anti-Limit Pricing
Extending Milgrom and Roberts (1982), we analyze an infinite horizon entry model where an incumbent may use its current price to signal its strength, in order to deter entry. In contrast with conventional limit pricing, we show the entry of weaker firms. We also provide necessary and sufficient conditions for this phenomenon to arise in equilibrium, in the benchmark cases that no second entry is profitable.Dynamic Signaling, Limit Pricing, Entry Deterrence
Licensing a common value innovation when signaling strength may backfire
This paper reconsiders the licensing of a common value innovation to a downstream duopoly, assuming a dual licensing scheme that combines a first-price license auction with royalty contracts for losers. Prior to bidding firms observe imperfect signals of the expected cost reduction; after the auction the winning bid is made public. Bidders may signal strength to their rivals through aggressive bidding, which may however backfire and mislead the innovator to set an excessively high royalty rate. We provide sufficient conditions for existence of monotone bidding strategies and for the profitability of combining auctions and royalty contracts for losers
Auctioning Process Innovations when Losersâ Bids Determine Royalty Rates
We consider a licensing mechanism for process innovations that combines a license auction with royalty contracts to those who lose the auction. Firmsâ bids are dual signals of their cost reductions: the winning bid signals the own cost reduction to rival oligopolists, whereas the losing bid influences the beliefs of the innovator who uses that information to set the royalty rate. We derive conditions for existence of a separating equilibrium, explain why a sufficiently high reserve price is essential for such an equilibrium, and show that the innovator generally benefits from the proposed mechanism
Auctioning Process Innovations when Losersâ Bids Determine Royalty Rates
We consider a licensing mechanism for process innovations that combines a license auction with royalty contracts to those who lose the auction. Firmsâ bids are dual signals of their cost reductions: the winning bid signals the own cost reduction to rival oligopolists, whereas the losing bid influences the beliefs of the innovator who uses that information to set the royalty rate. We derive conditions for existence of a separating equilibrium, explain why a sufficiently high reserve price is essential for such an equilibrium, and show that the innovator generally benefits from the proposed mechanism.Patents; licensing; auctions; royalty; innovation; R&D; mechanism design
Optimal bid disclosure in license auctions with downstream interaction
The literature on license auctions for process innovations in oligopoly assumed that the auctioneer reveals the winning bid and stressed that this gives firms an incentive to signal strength through their bids, to the benefit of the innovator. In the present paper we examine whether revealing the winning bid is optimal. We consider three disclosure rules: full, partial, and no disclosure of bids, which correspond to standard auctions. We show that more information disclosure increases the total surplus divided between firms and the innovator as well as social surplus. More disclosure also increases biddersâ payoff. However, no disclosure maximizes the innovatorâs expected revenue
Optimal bid disclosure in license auctions with downstream interaction
The literature on license auctions for process innovations in oligopoly assumed that the auctioneer reveals the winning bid and stressed that this gives firms an incentive to signal strength through their bids, to the benefit of the innovator. In the present paper we examine whether revealing the winning bid is optimal. We consider three disclosure rules: full, partial, and no disclosure of bids, which correspond to standard auctions. We show that more information disclosure increases the total surplus divided between firms and the innovator as well as social surplus. More disclosure also increases biddersâ payoff. However, no disclosure maximizes the innovatorâs expected revenue
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