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Comparing Natural Language Processing and Quantum Natural Processing approaches in text classification tasks

David Peral García, Juan Cruz-Benito, Francisco José García‐Peñalvo

2024Expert Systems with Applications16 citationsDOIOpen Access PDF

Abstract

Quantum physics and mechanics have demonstrated significant advances and promising results in different areas using the current near-term devices. One emerging subarea in quantum machine learning is quantum natural language processing, which combines quantum computing advantages and speedups with language processing algorithms to create and perform natural language tasks such as text classification or generation. The libraries and toolboxes used in this subarea include DisCoPy and lambeq, which are used to transform sentences into string diagrams or monoidal functors, convert these diagrams into quantum circuits or ansatz and embed it into a quantum model. In this study, we used both libraries with different text-based datasets to perform sentiment analysis via classification. To do so, we create synthetic datasets to train the different models. After we obtain satisfactory results, we test the resulting models with known datasets. Despite its promising results, quantum natural language processing is far from achieving its full potential. To achieve this potential, the quantum software and hardware must be improved to make them suitable for use with more extensive and complex datasets and other tasks.

Topics & Concepts

Computer scienceNatural language processingArtificial intelligenceNatural (archaeology)Natural languageQuestion answeringHistoryArchaeologyQuantum Computing Algorithms and ArchitectureMachine Learning in Materials ScienceQuantum Information and Cryptography