Randomized complexity of mean computation and the adaption problem

IF 1.8 2区 数学 Q1 MATHEMATICS Journal of Complexity Pub Date : 2024-06-11 DOI:10.1016/j.jco.2024.101872
Stefan Heinrich
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Abstract

Recently the adaption problem of Information-Based Complexity (IBC) for linear problems in the randomized setting was solved in Heinrich (2024) [8]. Several papers treating further aspects of this problem followed. However, all examples obtained so far were vector-valued. In this paper we settle the scalar-valued case. We study the complexity of mean computation in finite dimensional sequence spaces with mixed LpN norms. We determine the n-th minimal errors in the randomized adaptive and non-adaptive settings. It turns out that among the problems considered there are examples where adaptive and non-adaptive n-th minimal errors deviate by a power of n. The gap can be (up to log factors) of the order n1/4. We also show how to turn such results into infinite dimensional examples with suitable deviation for all n simultaneously.

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均值计算的随机复杂性与适应问题
最近,海因里希(2024)[8] 解决了随机设置中线性问题的基于信息的复杂性(IBC)适应问题。随后,又有多篇论文对这一问题的其他方面进行了探讨。然而,迄今为止获得的所有示例都是矢量值。本文解决的是标量值问题。我们研究了具有混合 LpN 规范的有限维序列空间中均值计算的复杂性。我们确定了随机自适应和非自适应设置中的 n 次最小误差。结果发现,在所考虑的问题中,有自适应和非自适应 n 次最小误差偏差为 n 的幂的例子。这种差距可以是 n1/4 的数量级(最多对数因子)。我们还展示了如何同时将这些结果转化为对所有 n 都有适当偏差的无限维示例。
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来源期刊
Journal of Complexity
Journal of Complexity 工程技术-计算机:理论方法
CiteScore
3.10
自引率
17.60%
发文量
57
审稿时长
>12 weeks
期刊介绍: The multidisciplinary Journal of Complexity publishes original research papers that contain substantial mathematical results on complexity as broadly conceived. Outstanding review papers will also be published. In the area of computational complexity, the focus is on complexity over the reals, with the emphasis on lower bounds and optimal algorithms. The Journal of Complexity also publishes articles that provide major new algorithms or make important progress on upper bounds. Other models of computation, such as the Turing machine model, are also of interest. Computational complexity results in a wide variety of areas are solicited. Areas Include: • Approximation theory • Biomedical computing • Compressed computing and sensing • Computational finance • Computational number theory • Computational stochastics • Control theory • Cryptography • Design of experiments • Differential equations • Discrete problems • Distributed and parallel computation • High and infinite-dimensional problems • Information-based complexity • Inverse and ill-posed problems • Machine learning • Markov chain Monte Carlo • Monte Carlo and quasi-Monte Carlo • Multivariate integration and approximation • Noisy data • Nonlinear and algebraic equations • Numerical analysis • Operator equations • Optimization • Quantum computing • Scientific computation • Tractability of multivariate problems • Vision and image understanding.
期刊最新文献
Stefan Heinrich is the Winner of the 2024 Best Paper Award of the Journal of Complexity Best Paper Award of the Journal of Complexity Matthieu Dolbeault is the winner of the 2024 Joseph F. Traub Information-Based Complexity Young Researcher Award Optimal recovery of linear operators from information of random functions Intractability results for integration in tensor product spaces
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