Quantum Computational Intelligence Techniques: A Scientometric Mapping

IF 9.7 2区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Mini Arora, Kapil Gupta
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Abstract

Computational intelligence has previously demonstrated its existence beyond the limitations of binary variables and Turing Machines. Using quantum concepts, Deutsch (1985) and Grover (1996) provide massive parallelism and searching techniques, vastly expanding the computational capacity of soft computing. This paper aims to analyze articles that consider both computational intelligence and quantum computing, referred to here as the quantum computational intelligence (QCI) category, to solve non-deterministic problems efficiently. The category includes 3067 research papers published from 2014 to 2023 that are indexed in high-quality databases like SCI and SCOPUS. This study examines QCI publishing patterns utilizing scientometric analysis employing co-occurrence, co-citation, and bibliographic coupling methodologies. Additionally, it provides insights into the citation patterns of publications, affiliations, and authors. China, USA, and India published more than half (53%) of the articles. The primary emphasis of application fields throughout this decade includes ‘Ground State Preparation’ and ‘Financial Forecasting’ among others. The pertinent keywords that have lately been studied are quantum particle swarm optimization (2022), optimization (2021), quantum circuits (2020), and deep learning (2019). Five quantum-based computation techniques were identified using a mix of critical review and cluster analysis: quantum machine learning, quantum neural networks, quantum particle swarm optimization, quantum variational Monte Carlo, and quantum-inspired evolutionary algorithms. The primary objective of this study is to address key queries that could contribute to future research in this field.

Abstract Image

量子计算智能技术:科学计量学图谱
计算智能已经证明,它的存在超越了二进制变量和图灵机的限制。利用量子概念,多伊奇(1985)和格罗弗(1996)提供了大规模并行性和搜索技术,极大地扩展了软计算的计算能力。本文旨在分析同时考虑计算智能和量子计算的文章,在此称为量子计算智能(QCI)类,以高效解决非确定性问题。该类别包括从 2014 年到 2023 年发表的 3067 篇研究论文,这些论文被 SCI 和 SCOPUS 等高质量数据库收录。本研究利用科学计量学分析,采用共现、共引和书目耦合方法,对 QCI 的发表模式进行了研究。此外,本研究还深入分析了出版物、所属单位和作者的引用模式。中国、美国和印度发表了一半以上(53%)的文章。在这十年中,应用领域的主要重点包括 "地面状态制备 "和 "金融预测 "等。近期研究的相关关键词包括量子粒子群优化(2022年)、优化(2021年)、量子电路(2020年)和深度学习(2019年)。通过评论和聚类分析,确定了五种基于量子的计算技术:量子机器学习、量子神经网络、量子粒子群优化、量子变分蒙特卡洛和量子启发的进化算法。本研究的主要目的是探讨有助于该领域未来研究的关键问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
19.80
自引率
4.10%
发文量
153
审稿时长
>12 weeks
期刊介绍: Archives of Computational Methods in Engineering Aim and Scope: Archives of Computational Methods in Engineering serves as an active forum for disseminating research and advanced practices in computational engineering, particularly focusing on mechanics and related fields. The journal emphasizes extended state-of-the-art reviews in selected areas, a unique feature of its publication. Review Format: Reviews published in the journal offer: A survey of current literature Critical exposition of topics in their full complexity By organizing the information in this manner, readers can quickly grasp the focus, coverage, and unique features of the Archives of Computational Methods in Engineering.
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