Quantum Perceptron Models
Quantum Physics
2016-02-20 v1 Machine Learning
Machine Learning
Abstract
We demonstrate how quantum computation can provide non-trivial improvements in the computational and statistical complexity of the perceptron model. We develop two quantum algorithms for perceptron learning. The first algorithm exploits quantum information processing to determine a separating hyperplane using a number of steps sublinear in the number of data points , namely . The second algorithm illustrates how the classical mistake bound of can be further improved to through quantum means, where denotes the margin. Such improvements are achieved through the application of quantum amplitude amplification to the version space interpretation of the perceptron model.
Cite
@article{arxiv.1602.04799,
title = {Quantum Perceptron Models},
author = {Nathan Wiebe and Ashish Kapoor and Krysta M Svore},
journal= {arXiv preprint arXiv:1602.04799},
year = {2016}
}