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Quantum Computing in Machine Learning: Performance Evaluation and Comparative Analysis

2025-11-06Dissertação de mestrado Acesso aberto
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datacite.subject.fosCiências Naturais::Ciências da Computação e da Informaçãopt_PT
dc.contributor.advisorSantos, Vítor Manuel Pereira Duarte dos
dc.contributor.authorSimões, Jaime Marques
dc.date.accessioned2025-11-19T14:52:41Z
dc.date.available2025-11-19T14:52:41Z
dc.date.issued2025-11-06
dc.descriptionDissertation presented as the partial requirement for obtaining a Master's degree in Data Science and Advanced Analytics, specialization in Data Sciencept_PT
dc.description.abstractThis thesis explores the integration of quantum computing into Machine Learning (ML), aiming to evaluate the effectiveness and limitations of quantum-enhanced models compared to classical approaches. As quantum technologies continue to develop, they offer the potential for solving complex computational problems more efficiently, particularly in fields requiring high-dimensional data processing. A literature review is conducted to contextualize current advancements in Quantum Machine Learning, highlighting theoretical benefits and existing practical limitations. This work investigates whether quantum methods, specifically the Quantum Support Vector Classifier (QSVC), can provide measurable improvements over its classical counterpart. The QSVC, implemented using IBM’s Qiskit ML library, replaces traditional kernel functions with quantum kernels computed via quantum circuits and feature maps, embedding classical data into a Hilbert space. The experimental portion of this thesis compares classical and quantum models on two distinct datasets: one from the healthcare domain and another from particle physics. Various parameters are tested in a constrained grid search due to the high computational demands of quantum circuits. Results indicate that while quantum models are significantly more resource-intensive, they can achieve comparable or even improved performance on data that has more complex relations between their variables. However, scalability remains a major challenge. This work concludes that although QSVC does not yet consistently outperform classical models, it offers advantages in specific contexts and lays the groundwork for identifying future use cases where quantum computing may offer a practical advantage in ML.pt_PT
dc.identifier.tid204074533
dc.identifier.urihttp://hdl.handle.net/10362/191041
dc.language.isoengpt_PT
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/pt_PT
dc.subjectQuantum Machine Learningpt_PT
dc.subjectSupport Vector Classifierpt_PT
dc.subjectQuantum Support Vector Classifierpt_PT
dc.subjectPerformance Evaluationpt_PT
dc.subjectComparative Analysispt_PT
dc.subjectSDG 9 - Industry, innovation and infrastructurept_PT
dc.titleQuantum Computing in Machine Learning: Performance Evaluation and Comparative Analysispt_PT
dc.typemaster thesis
dspace.entity.typePublication
rcaap.rightsopenAccesspt_PT
rcaap.typemasterThesispt_PT
thesis.degree.nameMestrado em Ciência de Dados e Métodos Analíticos Avançados, especialização em Data Sciencept_PT

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NIMS - Dissertações de Mestrado em Ciência de Dados e Métodos Analíticos Avançados (Data Science and Advanced Analytics)