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Monotone Branch-and-Bound Search for Restricted Combinatorial Auctions
Faced with an intractable optimization problem, a common approach to computational mechanism design seeks a polynomial time approximation algorithm with an approximation guarantee. Rather than adopt this worst-case viewpoint, we introduce a new paradigm that seeks to obtain good performance on typical instances through a modification to the branch-and-bound search paradigm. Incentive compatibility in single-dimensional domains requires that an outcome improves monotonically for an agent as the agent's reported value increases. We obtain a monotone search algorithm by coupling an explicit sensitivity analysis on the decisions made during search with a correction to the outcome to ensure monotonicity. Extensive computational experiments on single-minded combinatorial auctions show better welfare performance than that available from existing approximation algorithms.Engineering and Applied Science
Approaching Utopia: Strong Truthfulness and Externality-Resistant Mechanisms
We introduce and study strongly truthful mechanisms and their applications.
We use strongly truthful mechanisms as a tool for implementation in undominated
strategies for several problems,including the design of externality resistant
auctions and a variant of multi-dimensional scheduling
Efficient Batch Query Answering Under Differential Privacy
Differential privacy is a rigorous privacy condition achieved by randomizing
query answers. This paper develops efficient algorithms for answering multiple
queries under differential privacy with low error. We pursue this goal by
advancing a recent approach called the matrix mechanism, which generalizes
standard differentially private mechanisms. This new mechanism works by first
answering a different set of queries (a strategy) and then inferring the
answers to the desired workload of queries. Although a few strategies are known
to work well on specific workloads, finding the strategy which minimizes error
on an arbitrary workload is intractable. We prove a new lower bound on the
optimal error of this mechanism, and we propose an efficient algorithm that
approaches this bound for a wide range of workloads.Comment: 6 figues, 22 page
Designing Software Architectures As a Composition of Specializations of Knowledge Domains
This paper summarizes our experimental research and software development activities in designing robust, adaptable and reusable software architectures. Several years ago, based on our previous experiences in object-oriented software development, we made the following assumption: ‘A software architecture should be a composition of specializations of knowledge domains’. To verify this assumption we carried out three pilot projects. In addition to the application of some popular domain analysis techniques such as use cases, we identified the invariant compositional structures of the software architectures and the related knowledge domains. Knowledge domains define the boundaries of the adaptability and reusability capabilities of software systems. Next, knowledge domains were mapped to object-oriented concepts. We experienced that some aspects of knowledge could not be directly modeled in terms of object-oriented concepts. In this paper we describe our approach, the pilot projects, the experienced problems and the adopted solutions for realizing the software architectures. We conclude the paper with the lessons that we learned from this experience
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