基于语音识别的灰狼优化驾驶员睡意检测

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY Pub Date : 2022-12-05 DOI:10.14500/aro.11000

S. Jasim, A. A. Abdul Hassan, Scott Turner

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引用次数: 1

摘要

在全球范围内，睡意检测可以防止事故发生。血液生化、脑脉冲等，都可以衡量疲劳程度。然而，由于用户不舒服，这些方法很难实现。本文介绍了一种基于语音的困倦检测系统，并展示了如何在驾驶员疲劳妨碍驾驶之前检测驾驶员疲劳。采用神经网络和灰狼优化器对睡意进行自动分类。在驾驶员疲劳检测语音真实数据集上对推荐的方法在警觉状态和睡眠剥夺状态下进行了评估。语音识别中使用的方法是mel-frequency倒谱系数(MFCCs)和线性预测系数(LPCs)。与典型神经网络相比，SVM算法的准确率最低(71.8%)。GWOANN在隐藏层使用13-9-7-5和30-20-13-7神经元，其中GWOANN技术的准确率分别为86.96%和90.05%，而ANN模型的准确率分别为82.50%和85.27%。

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Driver Drowsiness Detection Using Gray Wolf Optimizer Based on Voice Recognition

Globally, drowsiness detection prevents accidents. Blood biochemicals, brain impulses, etc., can measure tiredness. However, due to user discomfort, these approaches are challenging to implement. This article describes a voice-based drowsiness detection system and shows how to detect driver fatigue before it hampers driving. A neural network and Gray Wolf Optimizer are used to classify sleepiness automatically. The recommended approach is evaluated in alert and sleep-deprived states on the driver tiredness detection voice real dataset. The approach used in speech recognition is mel-frequency cepstral coefficients (MFCCs) and linear prediction coefficients (LPCs). The SVM algorithm has the lowest accuracy (71.8%) compared to the typical neural network. GWOANN employs 13-9-7-5 and 30-20-13-7 neurons in hidden layers, where the GWOANN technique had 86.96% and 90.05% accuracy, respectively, whereas the ANN model achieved 82.50% and 85.27% accuracy, respectively.

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来源期刊

ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY MULTIDISCIPLINARY SCIENCES-

自引率

33.30%

发文量

审稿时长

16 weeks