使用QAOA的Wasserstein距离:拓扑数据分析的量子增广方法

M. Saravanan, Mannathu Gopikrishnan
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摘要

本文探讨了基于持久同构的拓扑数据分析方法的实现,以满足电信行业的需求。基于持久同源性的方法在检测时间序列数据异常方面特别有用,在网络报警系统中具有良好的应用前景。对于这种方法至关重要的是一个称为Wasserstein距离的度量,它度量两个持久性图彼此之间的差异。这个度量可以表述为二部图上的最小权值最大匹配问题。本文采用基于门的量子计算方法,应用量子近似优化算法(QAOA)解决了寻找Wasserstein距离的组合优化问题。该技术可用于检测涉及电信系统中网络流量/吞吐量数据的时间序列数据集中的异常情况。一旦实用的基于门的量子计算机变得无处不在,这种方法将为采用这种方法的服务提供商提供显著的技术优势。
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The Wasserstein Distance Using QAOA: A Quantum Augmented Approach to Topological Data Analysis
This paper examines the implementation of Topological Data Analysis methods based on Persistent Homology to meet the requirements of the telecommunication industry. Persistent Homology based methods are especially useful in detecting anomalies in time series data and show good prospects of being useful in network alarm systems. Of crucial importance to this method is a metric called the Wasserstein Distance, which measures how much two Persistence Diagrams differ from one another. This metric can be formulated as a minimum weight maximum matching problem on a bipartite graph. We here solve the combinatorial optimization problem of finding the Wasserstein Distance by applying the Quantum Approximate Optimization Algorithm (QAOA) using gate-based quantum computing methods. This technique can then be applied to detect anomalies in time series datasets involving network traffic/throughput data in telecommunication systems. The methodology stands to provide a significant technological advantage to service providers who adopt this, once practical gate-based quantum computers become ubiquitous.
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