Lavinia Maria Mendes Araújo A, Plínio Márcio da Silva Ramos A, Isis Didier Lins A, Caio Bezerra Souto Maior AB, Rafael Chaves Souto Araújo C, Andre Juan Ferreira Martins de Moraes D, Asly Alexandre Canabarro D, Márcio José das Chagas Moura A, Enrique López Drogatt and the Center for Risk for For For For Risk For For For For For For For For For For For For For For For For the Center for For For For For For For For the Center for Risk For For For For For For For For For For For For For For For For For For For For For For For For For For the Center for Risk For For For For For For For the Center for Risk For For For For For For the Center for Risk for For Modeling, Department of Industrial Engineering, Federal University of Pernambuco，Recife，巴西B技术中心，Pernambuco联邦大学，Caruaru，Caruaru，巴西C国际物理研究所，Rio Grande University of Rio Grande University of Brazil d Do isis.lins@ufpe.br, caio.maior@ufpe.br, andre.jfmdm@gmail.com, askery@gmail.com, rafael.csa82@gmail.com, marcio.cmoura@ufpe.br, eald@g.edu Human Relianity is INCREASINGLY IMPORTANT IN ACCIDENT PREVENTION, AND MONITORING BIOLOGICAL PARAMETERS CAN HELP Detect Patterns Indicating Behaviors That May Lead发生事故。 脑电图（EEG）日期已用于识别油气行业机器操作员疲劳的主要原因。 虽然经典的机器学习方法（如多层珀普隆（MLP））已与脑电图数据一起使用，但量子计算在有效地解决复杂问题方面表现出了有望。 变化量子算法是应用于数据训练的经典结构的量子概念的一个例子。 本研究旨在将操作员嗜睡量子机器学习（QML）模型分类。 QML模型经过各种量子电路层，旋转和纠缠门训练。 1。Lavinia Maria Mendes Araújo A, Plínio Márcio da Silva Ramos A, Isis Didier Lins A, Caio Bezerra Souto Maior AB, Rafael Chaves Souto Araújo C, Andre Juan Ferreira Martins de Moraes D, Asly Alexandre Canabarro D, Márcio José das Chagas Moura A, Enrique López Drogatt and the Center for Risk for For For For Risk For For For For For For For For For For For For For For For For the Center for For For For For For For For the Center for Risk For For For For For For For For For For For For For For For For For For For For For For For For For For the Center for Risk For For For For For For For the Center for Risk For For For For For For the Center for Risk for For Modeling, Department of Industrial Engineering, Federal University of Pernambuco，Recife，巴西B技术中心，Pernambuco联邦大学，Caruaru，Caruaru，巴西C国际物理研究所，Rio Grande University of Rio Grande University of Brazil d Do isis.lins@ufpe.br, caio.maior@ufpe.br, andre.jfmdm@gmail.com, askery@gmail.com, rafael.csa82@gmail.com, marcio.cmoura@ufpe.br, eald@g.edu Human Relianity is INCREASINGLY IMPORTANT IN ACCIDENT PREVENTION, AND MONITORING BIOLOGICAL PARAMETERS CAN HELP Detect Patterns Indicating Behaviors That May Lead发生事故。脑电图（EEG）日期已用于识别油气行业机器操作员疲劳的主要原因。虽然经典的机器学习方法（如多层珀普隆（MLP））已与脑电图数据一起使用，但量子计算在有效地解决复杂问题方面表现出了有望。变化量子算法是应用于数据训练的经典结构的量子概念的一个例子。本研究旨在将操作员嗜睡量子机器学习（QML）模型分类。QML模型经过各种量子电路层，旋转和纠缠门训练。1。EEG信号已进行预处理，以提取相关特征，例如Higuchi分形维度，复杂性和迁移率以及统计特征。结果将与经典MLP模型进行比较。这项工作有助于探索QML嗜睡的背景，在文献中尚未对此进行广泛研究。它是QML模型适合此类数据的概念证明，并且随着量子计算的不断发展，可以进一步改进。关键字：脑电图。量子机学习。嗜睡检测。诊断。变异量子算法。简介量子力学提出了一种用于解决计算问题的新范式，有时比经典方法具有显着优势，例如在质量分解或量子系统模拟中（Maior等，2023）。在这项研究中，我们通过变异量子算法（VQA）利用量子机学习（QML）来分析一个实际问题 - 使用现实世界脑电图（EEG）时间序列数据检测嗜睡。我们在此扩展的摘要中分析了ULG多模式嗜睡数据库（也称为Drozy）的主题8（Massoz等，2016）。从脑电图数据中准确检测嗜睡对于确保行业和关键过程的安全至关重要。疲劳的工人可以在工作场所构成重大风险，尤其是在涉及危险行动的行业和