3,233 research outputs found
Overconfidence in the Market for Lemons
We extend Akerlof ’s (1970) “Market for Lemons” by assuming that some buyers are overconfident. Buyers in our model receive a noisy signal about the quality of the good that is at display for sale. Overconfident buyers do not update according to Bayes’ rule but take the noisy signal at face value. The main finding is that the presence of overconfident buyers can stabilize the market outcome by preventing total adverse selection. This stabilization, however, comes at a cost: rational buyers are crowded out of the market
Price Discrimination in Input Markets: Quantity Discounts and Private Information
We consider a monopolistic supplier’s optimal choice of wholesale tariffs when downstream firms are privately informed about their retail costs. Under discriminatory
pricing, downstream firms that differ in their ex ante distribution of retail costs are offered different tariffs. Under uniform pricing, the same wholesale tariff is offered to all downstream firms. In contrast to the extant literature on thirddegree price discrimination with nonlinear wholesale tariffs, we find that banning discriminatory wholesale contracts—the usual legal practice in the EU and US— often is beneficial for social welfare. This result is shown to be robust even when the upstream supplier faces competition in the form of fringe supply
Overconfidence in the Markets for Lemons
We extend Akerlof (1970)’s “Market for Lemons” by assuming that some buyers are overconfident. Buyers in our model receive a noisy signal about the quality of the good that is on display for sale. Overconfident buyers do not update according to Bayes’ rule but take the noisy signal at face value. We show that the presence of overconfident buyers can stabilize the market outcome by preventing total adverse selection. This stabilization, however, comes at a cost: rational buyers are crowded out of the market
Performance of Procrastinators: On the Value of Deadlines
Earlier work has shown that procrastination can be explained by quasi-hyperbolic discounting. We present a model of effort choice over time that shifts the focus away from completion to performance on a single task. We show that quasi-hyperbolic discounting is detrimental for performance. More intrestingly, we find that being aware of the own self-control problems not necessarily increases performance. Extending this framework to a multi-task model, we show that deadlines help an agent to structure his workload more efficiently, which in turn leads to better performance. Moreover, being restricted by deadlines increases a quasi-hyperbolic discounter's well-being. Thus, we give a theoretical underpinning for recent empirical evidence and numerous casual observations.Effort Choice; Deadlines; (Quasi-) Hyperbolic Discounting; Naiveté; Present-Biased Preferences; Sophistication
Price Discrimination in Input Markets: Downstream Entry and Welfare
The extant theory on price discrimination in input markets takes the structure of the intermediate industry as exogenously given. This paper endogenizes the structure of the intermediate industry and examines the effects of banning third-degree price discrimination on market structure and welfare. We identify situations where banning price discrimination leads to either higher or lower prices for all downstream firms. These findings are driven by the fact that upstream profits are discontinuous due to entry being costly. Moreover, permitting price discrimination fosters entry which in many cases improves welfare. Nevertheless, entry can also reduce welfare because it may lead to a severe inefficiency in production.Entry, Input Markets, Market Structure, Price Discrimination, Vertical Contracting
Unlocking the Potential of Flexible Energy Resources to Help Balance the Power Grid
Flexible energy resources can help balance the power grid by providing
different types of ancillary services. However, the balancing potential of most
types of resources is restricted by physical constraints such as the size of
their energy buffer, limits on power-ramp rates, or control delays. Using the
example of Secondary Frequency Regulation, this paper shows how the flexibility
of various resources can be exploited more efficiently by considering multiple
resources with complementary physical properties and controlling them in a
coordinated way. To this end, optimal adjustable control policies are computed
based on robust optimization. Our problem formulation takes into account power
ramp-rate constraints explicitly, and accurately models the different
timescales and lead times of the energy and reserve markets. Simulations
demonstrate that aggregations of select resources can offer significantly more
regulation capacity than the resources could provide individually.Comment: arXiv admin note: text overlap with arXiv:1804.0389
The Optimality of Simple Contracts: Moral Hazard and Loss Aversion
This paper extends the standard principal-agent model with moral hazard to allow for agents having reference- dependent preferences according to Köszegi and Rabin (2006, 2007). The main finding is that loss aversion leads to fairly simple contracts. In particular, when shifting the focus from standard risk aversion to loss aversion, the optimal contract is a simple bonus contract, i.e. when the agent's performance exceeds a certain threshold he receives a fixed bonus payment. Moreover, if the agent is sufficiently loss averse, it is shown that the first-order approach is not necessarily valid. If this is the case the principal may be unable to fine-tune incentives. Strategic ignorance of information by the principal, however, allows to overcome these problems and may even reduce the cost of implementation.Agency Model; Moral Hazard; Reference-Dependent Preferences; Loss Aversion
Three-Body Hadron Dynamics from Lattice QCD : A Non-Relativistic Effective Field Theory Approach
Presently, lattice quantum chromodynamics is the only available tool that allows for the calculation of hadron properties in terms of their constituents, quarks and gluons, incorporating the non-perturbative nature of the strong interaction in the low-energy regime. However, information about few-hadron dynamics is not directly accessible. Instead, the finite-volume energy spectra, determined in lattice calculations, have to be related to the infinite-volume scattering- and decay-amplitudes.
In this thesis, by application of non-relativistic effective field theory techniques, methods for the analysis of data from lattice quantum chromodynamics are developed that allow for the extraction of three-body scattering- and decay properties. The fundamental concepts of lattice quantum chromodynamics, focusing on the methods of hadron spectroscopy, are outlined. The framework of non-relativistic effective field theories is introduced and the role of relativistic invariance is discussed.
A relation between finite volume decay matrix elements and infinite volume decay amplitudes is derived at the leading order in the non-relativistic effective field theory power counting for the weak decay of a scalar particle into three identical likewise scalar particles. This equation establishes a generalization of the Lellouch-Lüscher formalism to the three-body sector.
Furthermore, a novel formulation of the non-relativistic effective field theory formalism is suggested, which is devoid of some shortcomings of the existing approaches related to the explicit non-covariance of the three-particle propagator. The three-particle quantization condition, relating the finite-volume energy spectra to the infinite-volume scattering matrix elements, is written down in a manifestly relativistic-invariant form within this modified formalism, such that data from different moving frames can be combined in a global analysis.
Finally, the three-body analog of the Lellouch-Lüscher equation is generalized to higher orders and the systematic inclusion of higher partial waves is discussed. In contrast to the leading order expression derived in an earlier chapter, it is expressed in a manifestly relativistic-invariant form. This setup is of particular importance, since in practice the extraction of weak decay amplitudes from lattice calculations requires the inclusion of data from different moving frames
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