通过凸优化从多个排序列表中有效重建信号

IF 2.8 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
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引用次数: 0

摘要

摘要 物体排名被广泛用于在多个评估中评定其相对质量或相关性。除了传统的排名汇总外,人们还对估计通常无法观察到的潜在信号以达成一致排名很感兴趣。在独立评估(可能是不完整的)这一唯一假设下,我们通过凸优化结合计算效率高的泊松引导法引入了间接推理。我们提出了两种不同的目标函数,一种是线性函数,另一种是二次函数。信号估计问题的数学表述是基于所有对象在等级位置上的成对比较。一组约束条件代表了等级关系。秩标度的反演特性使我们能够大幅减少与全套对象比较相关的约束条件数量。其关键思路是全面减少排序器引起的误差,直至获得最佳的潜在信号。它的主要优点是计算成本低,即使在处理 \(n < < p\) 数据问题时也是如此。基于引导信号估计值和标准误差,可以开发探索工具。本文介绍了模拟证据、与最先进的秩中心性方法的比较以及两个应用,一个应用于高等教育评估,另一个应用于分子癌症研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effective signal reconstruction from multiple ranked lists via convex optimization

Abstract

The ranking of objects is widely used to rate their relative quality or relevance across multiple assessments. Beyond classical rank aggregation, it is of interest to estimate the usually unobservable latent signals that inform a consensus ranking. Under the only assumption of independent assessments, which can be incomplete, we introduce indirect inference via convex optimization in combination with computationally efficient Poisson Bootstrap. Two different objective functions are suggested, one linear and the other quadratic. The mathematical formulation of the signal estimation problem is based on pairwise comparisons of all objects with respect to their rank positions. Sets of constraints represent the order relations. The transitivity property of rank scales allows us to reduce substantially the number of constraints associated with the full set of object comparisons. The key idea is to globally reduce the errors induced by the rankers until optimal latent signals can be obtained. Its main advantage is low computational costs, even when handling \(n < < p\) data problems. Exploratory tools can be developed based on the bootstrap signal estimates and standard errors. Simulation evidence, a comparison with the state-of-the-art rank centrality method, and two applications, one in higher education evaluation and the other in molecular cancer research, are presented.

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来源期刊
Data Mining and Knowledge Discovery
Data Mining and Knowledge Discovery 工程技术-计算机:人工智能
CiteScore
10.40
自引率
4.20%
发文量
68
审稿时长
10 months
期刊介绍: Advances in data gathering, storage, and distribution have created a need for computational tools and techniques to aid in data analysis. Data Mining and Knowledge Discovery in Databases (KDD) is a rapidly growing area of research and application that builds on techniques and theories from many fields, including statistics, databases, pattern recognition and learning, data visualization, uncertainty modelling, data warehousing and OLAP, optimization, and high performance computing.
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