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RESEARCH PRODUCT
Retrieving Quantum Information with Active Learning
Xi ChenXi ChenMikel SanzRafael Magdalena-benedictoEnrique SolanoYongcheng DingYongcheng DingJosé D. Martín-guerrerosubject
Optimal designQuantum Physicsbusiness.industryComputer scienceActive learning (machine learning)media_common.quotation_subjectSupervised learningGeneral Physics and AstronomyFidelityFOS: Physical sciencesVariance (accounting)Machine learningcomputer.software_genre01 natural sciencesTask (project management)Quantum technology0103 physical sciencesArtificial intelligenceQuantum information010306 general physicsbusinessQuantum Physics (quant-ph)computermedia_commondescription
Active learning is a machine learning method aiming at optimal design for model training. At variance with supervised learning, which labels all samples, active learning provides an improved model by labeling samples with maximal uncertainty according to the estimation model. Here, we propose the use of active learning for efficient quantum information retrieval, which is a crucial task in the design of quantum experiments. Meanwhile, when dealing with large data output, we employ active learning for the sake of classification with minimal cost in fidelity loss. Indeed, labeling only 5% samples, we achieve almost 90% rate estimation. The introduction of active learning methods in the data analysis of quantum experiments will enhance applications of quantum technologies.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-12-13 | Physical Review Letters |