Intelligence model for Alzheimer’s disease detection with optimal trained deep hybrid model

IF 0.2 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Web Intelligence Pub Date : 2023-05-19 DOI:10.3233/web-220129

Rajasree Rs, Brintha Rajakumari S

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引用次数: 0

Abstract

Alzheimer’s disease (AD), a neurodegenerative disorder, is the most common cause of dementia and continuing cognitive deficits. Since there are more cases each year, AD has grown to be a serious social and public health issue. Early detection of the diagnosis of Alzheimer’s and dementia disease is crucial, as is giving them the right care. The importance of early AD diagnosis has recently received a lot of attention. The patient cannot receive a timely diagnosis since the present methods of diagnosing AD take so long and are so expensive. That’s why we created a brand-new AD detection method that has four steps of operation: pre-processing, feature extraction, feature selection, and AD detection. During the pre-processing stage, the input data is pre-processed using an improved data normalization method. Following the pre-processing, these pre-processed data will go through a feature extraction procedure where features including statistical, enhanced entropy-based and mutual information-based features will be extracted. The appropriate features will be chosen from these extracted characteristics using the enhanced Chi-square technique. Based on the selected features, a hybrid model will be used in this study to detect AD. This hybrid model combines classifiers like Long Short Term Memory (LSTM) and Deep Maxout neural networks, and the weight parameters of LSTM and Deep Maxout will be optimized by the Self Updated Shuffled Shepherd Optimization Algorithm (SUSSOA). Our Proposed SUSSOA-based method’s statistical analysis of best values such as 57%, 53%, 28%, 25%, and 21% is higher than the other models like SSO, BMO, HGS, BRO, BES, and ISSO respectively.

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基于最优训练深度混合模型的阿尔茨海默病智能检测模型

阿尔茨海默病(AD)是一种神经退行性疾病，是痴呆症和持续认知缺陷的最常见原因。由于每年有更多的病例，阿尔茨海默病已经发展成为一个严重的社会和公共卫生问题。早期发现阿尔茨海默病和痴呆症的诊断至关重要，给予他们正确的护理也至关重要。阿尔茨海默病早期诊断的重要性最近得到了很多关注。由于目前诊断AD的方法耗时长、费用高，患者无法得到及时的诊断。这就是为什么我们创造了一种全新的AD检测方法，它有四个步骤:预处理、特征提取、特征选择和AD检测。在预处理阶段，使用改进的数据规范化方法对输入数据进行预处理。经过预处理后，这些预处理后的数据将进行特征提取，提取的特征包括统计特征、基于增强熵的特征和基于互信息的特征。将使用增强的卡方技术从这些提取的特征中选择适当的特征。基于所选择的特征，本研究将使用混合模型来检测AD。该混合模型结合了长短期记忆(LSTM)和深度Maxout神经网络等分类器，LSTM和深度Maxout的权重参数将通过自更新shuffle Shepherd优化算法(SUSSOA)进行优化。我们提出的基于sussoa的方法统计分析的最佳值分别为57%、53%、28%、25%和21%，高于SSO、BMO、HGS、BRO、BES和ISSO等其他模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Web Intelligence COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE-

CiteScore

0.90

自引率

0.00%

发文量

期刊介绍： Web Intelligence (WI) is an official journal of the Web Intelligence Consortium (WIC), an international organization dedicated to promoting collaborative scientific research and industrial development in the era of Web intelligence. WI seeks to collaborate with major societies and international conferences in the field. WI is a peer-reviewed journal, which publishes four issues a year, in both online and print form. WI aims to achieve a multi-disciplinary balance between research advances in theories and methods usually associated with Collective Intelligence, Data Science, Human-Centric Computing, Knowledge Management, and Network Science. It is committed to publishing research that both deepen the understanding of computational, logical, cognitive, physical, and social foundations of the future Web, and enable the development and application of technologies based on Web intelligence. The journal features high-quality, original research papers (including state-of-the-art reviews), brief papers, and letters in all theoretical and technology areas that make up the field of WI. The papers should clearly focus on some of the following areas of interest: a. Collective Intelligence[...] b. Data Science[...] c. Human-Centric Computing[...] d. Knowledge Management[...] e. Network Science[...]

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