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Quantum Natural Language Processing: A Comprehensive Survey

Charles M. Varmantchaonala, Jean Louis Ebongue Kedieng Fendji, Julius Schöning, Marcellin Atemkeng

2024IEEE Access17 citationsDOIOpen Access PDF

Abstract

By using the quantum mechanics phenomenon, quantum computers provide a new dimension of computational power that drastically accelerates solving complex and resource-intensive problems. One of the most evolving but, due to the computation power of standard computers, reasonably limited application domain is natural language processing (NLP). NLP seeks to give interactive systems the ability to understand and manipulate human language. Making systems understand and manipulate human languages requires large amounts of data and computational power during learning as well as during the execution of NLP. For handling these amounts of data like text and audio recordings and the complexity of classical NLP algorithms, quantum computation has emerged as a promising solution. This work gives an extensive overview of this new field, known as quantum natural language processing (QNLP). Introducing the basics of quantum computing, we discuss its use in NLP by explaining the different proposed embedding models, quantum algorithms, and other methods of QNLP. As QNLP is still in its infancy, this comprehensive overview is the foundation that points to the upcoming research direction.

Topics & Concepts

Computer scienceQuantum computerArtificial intelligenceDomain (mathematical analysis)Field (mathematics)EmbeddingDimension (graph theory)Natural languageTheoretical computer scienceNatural language processingQuantumMathematicsQuantum mechanicsMathematical analysisPure mathematicsPhysicsAdvanced Text Analysis TechniquesTopic ModelingQuantum Computing Algorithms and Architecture
Quantum Natural Language Processing: A Comprehensive Survey | Litcius