Intelligent Differentiation Framework for Lewy Body Dementia and Alzheimer’s disease using Adaptive Multi-Cascaded ResNet–Autoencoder–LSTM Network

IF 0.8 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING International Journal of Image and Graphics Pub Date : 2024-04-09 DOI:10.1142/s0219467825500664
K. Sravani, V. RaviSankar
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Abstract

In recent years, most of the patients with dementia have acquired healthcare systems within the primary care system and they also have some challenging psychiatric and medical issues. Here, dementia-based symptoms are not identified in the primary care center, because they are affected by various factors like psychological symptoms, clinically relevant behavior, numerous psychotropic medications, and multiple chronic medical conditions. To enhance the healthcare-related applications, the primary healthcare system with additional resources like coordination with interdisciplinary dementia specialists, feasible diagnosis, and screening process need to be improved. Therefore, the differentiation between Alzheimer’s Disease (AD) and Lewy Body Dementia (LBD) has been acquired to provide the best clinical support to the patients. In this research work, the deep structure depending on AD and LBD systems has been implemented with the help of an adaptive algorithm to provide promising outcomes over dementia detection. Initially, the input images are collected from online sources. Thus, the collected images are forwarded to the newly designed Multi-Cascaded Deep Learning (MSDL), where the ResNet, Autoencoder, and weighted Long-Short Term Memory (LSTM) networks are serially cascaded to provide effective classification results. Then, the fully connected layer of ResNet is given to the Autoencoder structure. Here, the output from the encoder phase is optimized by using the Adaptive Water Wave Cuttlefish Optimization (AWWCO), which is derived from the Water Wave Optimization (WWO) and Cuttlefish Algorithm (CA), and the resultant selected output is fed to the weight-optimized LSTM network. Further, the parameters in the MSDL network are optimized by using the same AWWCO algorithm. Finally, the performance comparison over different heuristic algorithms and conventional dementia detection approaches is done for the validation of the overall effectiveness of the suggested model in terms of various estimation measures.
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使用自适应多级联 ResNet-Autoencoder-LSTM 网络的路易体痴呆症和阿尔茨海默病智能区分框架
近年来,大多数痴呆症患者都在初级保健系统内获得了医疗保健系统,他们也有一些具有挑战性的精神和医疗问题。在这里,由于受到心理症状、临床相关行为、大量精神药物和多种慢性疾病等各种因素的影响,初级医疗中心无法识别痴呆症的症状。为了提高医疗保健相关应用的效果,需要改善初级医疗保健系统的额外资源,如与跨学科痴呆症专家的协调、可行的诊断和筛查流程。因此,需要区分阿尔茨海默病(AD)和路易体痴呆症(LBD),以便为患者提供最佳临床支持。在这项研究工作中,借助自适应算法实现了取决于阿兹海默症和路易体痴呆症系统的深度结构,为痴呆症检测提供了可喜的成果。最初,输入图像是从网上收集的。因此,收集到的图像被转发到新设计的多级联深度学习(MSDL)中,ResNet、Autoencoder 和加权长短期记忆(LSTM)网络在此被级联,以提供有效的分类结果。然后,将 ResNet 的全连接层交给 Autoencoder 结构。在这里,编码器阶段的输出通过使用自适应水波墨鱼优化算法(AWWCO)进行优化,该算法源于水波优化算法(WWO)和墨鱼算法(CA),并将所选输出结果馈送至权重优化的 LSTM 网络。此外,还使用相同的 AWWCO 算法优化了 MSDL 网络的参数。最后,与不同的启发式算法和传统的痴呆症检测方法进行性能比较,以验证所建议模型在各种估计指标方面的整体有效性。
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来源期刊
International Journal of Image and Graphics
International Journal of Image and Graphics COMPUTER SCIENCE, SOFTWARE ENGINEERING-
CiteScore
2.40
自引率
18.80%
发文量
67
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