← Back to papers
2011 NIPS NeurIPS 2011

Universal low-rank matrix recovery from Pauli measurements

Abstract

We study the problem of reconstructing an unknown matrix M of rank r and dimension d using O(rd polylog d) Pauli measurements. This has applications in quantum state tomography, and is a non-commutative analogue of a well-known problem in compressed sensing: recovering a sparse vector from a few of its Fourier coefficients. We show that almost all sets of O(rd log^6 d) Pauli measurements satisfy the rank-r restricted isometry property (RIP). This implies that M can be recovered from a fixed ("universal") set of Pauli measurements, using nuclear-norm minimization (e.g., the matrix Lasso), with nearly-optimal bounds on the error. A similar result holds for any class of measurements that use an orthonormal operator basis whose elements have small operator norm. Our proof uses Dudley's inequality for Gaussian processes, together with bounds on covering numbers obtained via entropy duality.

🌱 Topic Pioneer — Quantum Computing
🌉 Interdisciplinary Bridge — Interdisciplinary and Machine Learning and Mathematics & Optimization
🧭 Keyword Pioneer — pauli measurements
🐝 Cross-Pollinator — Artificial Intelligence, Computer Vision, Data Science & Analytics, Deep Learning, Healthcare & Medicine, Interdisciplinary, Machine Learning, Mathematics & Optimization, Robotics
📈 Trend Setter — Quantum Computing

Authors

Yi-kai Liu

Topics

Machine Learning > Optimization & Theory > Optimization Machine Learning > Optimization & Theory > Statistical Learning Mathematics & Optimization > Optimization > Continuous Optimization Interdisciplinary > Science > Quantum Computing Machine Learning > Core Methods > Matrix Factorization Mathematics & Optimization > Optimization > Sparse Optimization Mathematics & Optimization > Optimization > Compressed Sensing Machine Learning > Core Methods > Matrix Completion

Keywords

compressed sensing low-rank matrix recovery nuclear norm minimization restricted isometry property low-rank matrices pauli measurements matrix recovery quantum state tomography nuclear norm
Download PDF

Related papers

Co-Training for Domain Adaptation 2011
The Local Rademacher Complexity of Lp-Norm Multiple Kernel Learning 2011
Learning to Agglomerate Superpixel Hierarchies 2011
A Reinforcement Learning Theory for Homeostatic Regulation 2011
A Global Structural EM Algorithm for a Model of Cancer Progression 2011