利用量子Hopfield神经网络计算供应链网络的拓扑弹性

2021 4th International Conference on Artificial Intelligence for Industries (AI4I) Pub Date : 2021-09-01 DOI:10.1109/AI4I51902.2021.00023

Nahed Abdelgaber, Chris Nikolopoulos

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引用次数: 0

摘要

提出了一种量子计算方法来实现量子版本的Hopfield神经网络，然后将其用于解决最小顶点覆盖(MVC)问题。双射将图的最小顶点覆盖映射到量子Hopfield神经网络的稳定模式。该算法在图的测试数据集上找到最小顶点覆盖的准确率达到100%。量子HNN和量子原理(如叠加)的使用可以使用潜在的指数功率，并加快解决np完全图问题(如MVC)的速度。

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Calculating the Topological Resilience of Supply Chain Networks Using Quantum Hopfield Neural Networks

A quantum computing approach is presented for implementing a quantum version of a Hopfield Neural Network which is then used for solving the Minimum Vertex Cover (MVC) problem. A bijection maps the Minimum Vertex Cover of a graph to a stable pattern of the Quantum Hopfield Neural Network. The proposed algorithm reached a 100% accuracy in finding the minimum vertex cover for a testing dataset of graphs. The use of the Quantum HNN and quantum principles such as superposition enables the usage of potentially exponential power and speed up in solving NP-complete graph problems such as the MVC.

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2021 4th International Conference on Artificial Intelligence for Industries (AI4I)

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