K. Manasvi Bhat, P. Anchalia, S. Yashashree, R. Sanjeetha, A. Kanavalli
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引用次数: 6
摘要
癫痫是一种导致大脑异常活动的疾病,主要是由过度的神经元活动引起的。被诊断为癫痫的患者经常遭受癫痫发作,其影响可能从异常的身体运动到意识水平的改变。在适当的时间给予适当剂量的药物可以帮助预防即将发生的癫痫发作。本文采用癫痫生态系统的真实数据进行分析。在对该数据进行预处理后,采用多种信号处理算法和数学计算进行特征提取。确定了两组特征,即持久特征和短暂特征。这些特征的几种组合以及机器学习算法(如Extra Trees Classifier和XGBoost)被用于训练广义模型和特定患者模型,这两种模型都不受噪声的影响。观察到,使用持久特征训练的基于XGBoost的广义模型的准确率相对较高,为90.41%。
Detection and Prediction of the Preictal State of an Epileptic Seizure using Machine Learning Techniques on EEG Data
Epilepsy, a disorder that leads to abnormal activities in the brain is primarily caused by excessive neuronal activity. Patients diagnosed with epilepsy frequently suffer from seizures, the impact of which may vary from abnormal body movements to alterations in the levels of consciousness. An appropriate dosage of medication provided at the right time can help prevent an impending seizure. In this paper, real data obtained from Epilepsy Ecosystem is used for analysis. After preprocessing this data, several signal processing algorithms and mathematical computations are used for feature extraction. Two sets of features are identified viz. lasting features and transitory features. Several combinations of these features along with Machine Learning algorithms such as Extra Trees Classifier and XGBoost are used to train generalized models as well as a patient-specific models, both of which are immune to noise. It is observed that the XGBoost based generalized model which is trained using lasting features gives a relatively better accuracy of 90.41%.
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