Optimization Based Deep Learning for COVID-19 Detection Using Respiratory Sound Signals

IF 4.3 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Cognitive Computation Pub Date : 2024-06-01 DOI:10.1007/s12559-024-10300-5
Jawad Ahmad Dar, Kamal Kr Srivastava, Sajaad Ahmed Lone
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引用次数: 0

Abstract

The COVID-19 prediction process is more indispensable to handle the spread and death occurred rate because of COVID-19. However, early and precise prediction of COVID-19 is more difficult, because of different sizes and resolutions of input image. Thus, these challenges and problems experienced by traditional COVID-19 detection methods are considered as major motivation to develop SJHBO-based Deep Q Network. The classification issue of respiratory sound has perceived a great focus from the clinical scientists as well as the community of medical researcher in the previous year for the identification of COVID-19 disease. The major contribution of this research is to design an effectual COVID-19 detection model using devised SJHBO-based Deep Q Network. In this paper, the COVID-19 detection is carried out by the deep learning with optimization technique, namely Snake Jaya Honey Badger Optimization (SJHBO) algorithm-driven Deep Q Network. Here, the SJHBO algorithm is the incorporation of Jaya Honey Badger Optimization (JHBO) along with Snake optimization (SO). Here, the COVID-19 is detected by the Deep Q Network wherein the weights of Deep Q Network are tuned by the SJHBO algorithm. Moreover, JHBO is modelled by hybrids, which are the Jaya algorithm and Honey Badger Optimization (HBO) algorithm. Furthermore, the features, such as spectral contrast, Mel frequency cepstral coefficients (MFCC), empirical mode decomposition (EMD) algorithm, spectral flux, fast Fourier transform (FFT), spectral roll-off, spectral centroid, zero-crossing rate, root mean square energy, spectral bandwidth, spectral flatness, power spectral density, mobility complexity, fluctuation index and relative amplitude, are mined for enlightening the detection performance. The developed method realized the better performance based on the accuracy, sensitivity and specificity of 0.9511, 0.9506 and 0.9469. All test results are validated with the k-fold cross validation method in order to make an assessment of the generalizability of these results. Statistical analysis is performed to analyze the performance of the proposed method based on testing accuracy, sensitivity and specificity. Hence, this paper presents the newly devised SJHBO-based Deep Q-Net for COVID-19 detection. This research considers the audio samples as an input, which is acquired from the Coswara dataset. The SJHBO-based Deep Q network approach is developed for COVID-19 detection. The developed approach can be extended by including other hybrid optimization algorithms as well as other features that can be extracted for further improving the detection performance. The proposed COVID-19 detection method is useful in various applications, like medical and so on. Developed SJHBO-enabled Deep Q network for COVID-19 detection: An effective COVID-19 detection technique is introduced based on hybrid optimization–driven deep learning model. The Deep Q Network is used for detecting COVID-19, which classifies the feature vector as COVID-19 or non-COVID-19. Moreover, the Deep Q Network is trained by devised SJHBO approach, which is the incorporation of Jaya Honey Badger Optimization (JHBO) along with Snake optimization (SO).

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利用呼吸声信号进行基于优化的 COVID-19 检测深度学习
COVID-19 预测过程对于处理 COVID-19 的扩散和死亡发生率更加不可或缺。然而,由于输入图像的尺寸和分辨率不同,COVID-19 的早期精确预测较为困难。因此,这些传统 COVID-19 检测方法所面临的挑战和问题被认为是开发基于 SJHBO 的深度 Q 网络的主要动力。去年,临床科学家和医学研究人员都非常关注呼吸音的分类问题,以识别 COVID-19 疾病。本研究的主要贡献在于利用设计的基于 SJHBO 的深度 Q 网络设计了一个有效的 COVID-19 检测模型。在本文中,COVID-19 检测是通过深度学习与优化技术(即蛇獾优化(SJHBO)算法驱动的深度 Q 网络)来实现的。在这里,SJHBO 算法是 Jaya Honey Badger Optimization(JHBO)与 Snake optimization(SO)的结合。在这里,COVID-19 由深度 Q 网络检测,而深度 Q 网络的权重则由 SJHBO 算法调整。此外,JHBO 是由 Jaya 算法和蜜獾优化(HBO)算法的混合体模拟而成。此外,还挖掘了频谱对比度、梅尔频率倒频谱系数(MFCC)、经验模式分解(EMD)算法、频谱通量、快速傅里叶变换(FFT)、频谱滚降、频谱中心点、过零率、均方根能量、频谱带宽、频谱平坦度、功率谱密度、移动复杂度、波动指数和相对振幅等特征,以提高检测性能。所开发的方法的准确度、灵敏度和特异度分别为 0.9511、0.9506 和 0.9469,具有较好的性能。所有检测结果都通过 k 倍交叉验证法进行了验证,以评估这些结果的通用性。本文还进行了统计分析,根据测试准确性、灵敏度和特异性分析了建议方法的性能。因此,本文介绍了新设计的用于 COVID-19 检测的基于 SJHBO 的深度 QNet。本研究将从 Coswara 数据集中获取的音频样本作为输入。为 COVID-19 检测开发了基于 SJHBO 的深度 Q 网络方法。为了进一步提高检测性能,还可以通过加入其他混合优化算法和提取其他特征来扩展所开发的方法。所提出的 COVID-19 检测方法适用于医疗等各种应用。为 COVID-19 检测开发了支持 SJHBO 的深度 Q 网络:基于混合优化驱动的深度学习模型,提出了一种有效的 COVID-19 检测技术。深度 Q 网络用于检测 COVID-19,它将特征向量分类为 COVID-19 或非 COVID-19。此外,深度 Q 网络是通过设计的 SJHBO 方法进行训练的,该方法结合了 Jaya Honey Badger 优化(JHBO)和 Snake 优化(SO)。
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来源期刊
Cognitive Computation
Cognitive Computation COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-NEUROSCIENCES
CiteScore
9.30
自引率
3.70%
发文量
116
审稿时长
>12 weeks
期刊介绍: Cognitive Computation is an international, peer-reviewed, interdisciplinary journal that publishes cutting-edge articles describing original basic and applied work involving biologically-inspired computational accounts of all aspects of natural and artificial cognitive systems. It provides a new platform for the dissemination of research, current practices and future trends in the emerging discipline of cognitive computation that bridges the gap between life sciences, social sciences, engineering, physical and mathematical sciences, and humanities.
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