Optimal Learning of Joint Alignments with a Faulty Oracle
September 21, 2019 Β· Declared Dead Β· π International Symposium on Information Theory
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Authors
Kasper Green Larsen, Michael Mitzenmacher, Charalampos E. Tsourakakis
arXiv ID
1909.09912
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.DM,
cs.LG,
math.CO
Citations
2
Venue
International Symposium on Information Theory
Last Checked
4 months ago
Abstract
We consider the following problem, which is useful in applications such as joint image and shape alignment. The goal is to recover $n$ discrete variables $g_i \in \{0, \ldots, k-1\}$ (up to some global offset) given noisy observations of a set of their pairwise differences $\{(g_i - g_j) \bmod k\}$; specifically, with probability $\frac{1}{k}+Ξ΄$ for some $Ξ΄> 0$ one obtains the correct answer, and with the remaining probability one obtains a uniformly random incorrect answer. We consider a learning-based formulation where one can perform a query to observe a pairwise difference, and the goal is to perform as few queries as possible while obtaining the exact joint alignment. We provide an easy-to-implement, time efficient algorithm that performs $O\big(\frac{n \lg n}{k Ξ΄^2}\big)$ queries, and recovers the joint alignment with high probability. We also show that our algorithm is optimal by proving a general lower bound that holds for all non-adaptive algorithms. Our work improves significantly recent work by Chen and CandΓ©s \cite{chen2016projected}, who view the problem as a constrained principal components analysis problem that can be solved using the power method. Specifically, our approach is simpler both in the algorithm and the analysis, and provides additional insights into the problem structure.
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