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New Perspectives in Online Contract Design: Heterogeneous, Homogeneous, Non-Myopic Agents and Team Production


핵심 개념
This work explores online contract design from various perspectives, including heterogeneous and homogeneous agents, non-myopic behavior, and team production models.
초록

This content delves into the complexities of online contract design, analyzing different agent types and behaviors. It discusses learning algorithms for optimal contracts and connections to game theory and auction mechanisms.
The study covers scenarios with single agents, team production models, and strategic non-myopic agents. It highlights the challenges of designing contracts without full knowledge of agent types or behaviors.
The content also addresses the use of linear contracts, Lipschitz bandits reduction techniques, and regret minimization strategies in contracting scenarios.
Overall, it provides insights into the evolving landscape of contract theory in online settings.

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통계
The regret can be bounded by Opř∆ią0 log T ∆i δT D log Kq. The deviation cost at each round t is lower bounded by λδ2t. The immediate deviation cost can be lower bounded by λδ2t. The regret using Algorithm 2 can be bounded by Opř∆ią0 log T ∆i ` logpT Tγ{λq¨log K logp1{γq q. There exists an algorithm that achieves Op?T log T ` logpT Tγ{λq logpT { log Tq logp1{γq q regret.
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by Shiliang Zuo 게시일 arxiv.org 03-13-2024

https://arxiv.org/pdf/2403.07143.pdf
New Perspectives in Online Contract Design

더 깊은 질문

How do different agent types impact the design of optimal contracts?

In contract theory, the presence of different agent types can significantly impact the design of optimal contracts. When agents have heterogeneous characteristics such as varying cost functions and production technologies, it becomes challenging for the principal to determine the best contract that maximizes her utility. The principal needs to consider how each type of agent will respond to different contract offers and adjust her strategy accordingly. Heterogeneous agent types require more sophisticated learning algorithms and strategies from the principal. For example, in scenarios where agents are heterogeneous, Lipschitz bandits or continuum-armed bandit algorithms may be used to optimize regret in repeated interactions with unknown agent types. Different approaches need to be considered based on whether agents are homogeneous or non-myopic.

What are the implications of non-myopic behavior on contract design strategies?

Non-myopic behavior refers to an agent's ability to look beyond immediate gains and make decisions based on long-term objectives. In contract design, dealing with non-myopic agents introduces strategic considerations that go beyond simple myopic responses. When designing contracts for non-myopic agents, principals must anticipate strategic behaviors such as manipulation or attempts at maximizing long-term utility rather than short-term gains. This requires mechanisms that account for potential deviations from expected actions over time. Strategies like delayed elimination algorithms can help mitigate adverse effects caused by non-myopic behavior by allowing principals to adapt their contracting approach based on historical data while considering future outcomes.

How can insights from team production models be applied to individual contracting scenarios?

Insights from team production models offer valuable lessons that can be applied in individual contracting scenarios: Efficient Resource Allocation: Team production models emphasize optimizing collective efforts towards a common goal. Similarly, in individual contracting scenarios, understanding how resources (efforts) contribute towards achieving desired outcomes is crucial for efficient resource allocation. Risk Management: Team dynamics often involve risk-sharing among members. Applying this concept in individual contracting involves assessing risks associated with specific tasks and incorporating risk management strategies into contractual agreements. Performance Evaluation: Just as team performance is evaluated collectively in team production settings, evaluating individual performance against set benchmarks becomes essential when designing contracts for single-agent interactions. By leveraging these insights, principals can enhance their understanding of how collaborative efforts influence outcomes and tailor their contract designs effectively even in one-on-one contractual relationships.
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