FGI-CogViT: Fuzzy Granule-based Interpretable Cognitive Vision Transformer for Early Detection of Alzheimer’s Disease using MRI Scan Images

IF 6.9 3区 管理学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS Information Systems Frontiers Pub Date : 2024-10-15 DOI:10.1007/s10796-024-10541-7
Anima Pramanik, Soumick Sarker, Sobhan Sarkar, Indranil Bose
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Abstract

Early detection of Alzheimer’s disease (AD) is crucial for timely intervention and management of this debilitating neurodegenerative disorder. However, it demands further serious attention. State-of-the-art vision transformers for multi-class AD detection techniques cannot handle the uncertainty issue arising between various stages of AD. Moreover, AD identification based on magnetic resonance imaging (MRI) scans is likewise computationally expensive. Further, vision transformers used in AD detection often suffer from a lack of interpretability of results. To address these issues, a new vision transformer, namely Fuzzy Granule-based Interpretable Cognitive Vision Transformer (FGI-CogViT) is developed. It has three parts, namely feature extraction, fuzzy logic-based granulation, and I-CogViT-based classification. Various vision and statistical features are computed over the MRI scan image(s). The statistical features are used to obtain the disease-prone regions in terms of fuzzy granules. In these regions, uncertainty may arise among the different stages of AD. Fuzzy logic-based rules are defined to obtain the crisp granules. Instead of considering the entire image, statistical features corresponding to the crisp granules are added with vision features for classification tasks through the I-CogViT that consists of three modules, namely residual network, traditional vision transformer, and classification network. These characteristics improve the speed and accuracy of FGI-CogViT. It synergizes the robust feature extraction capabilities of vision transformers with cognitive computing principles, aiming to augment the model’s interpretability. The efficacy of the FGI-CogViT has been demonstrated over 6,460 MRI scan images. Results reveal that FGI-CogViT outperforms some state-of-the-art. Furthermore, robustness checking and statistical significance testing support the findings.

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FGI-CogViT:利用核磁共振成像扫描图像早期检测阿尔茨海默病的基于模糊颗粒的可解释认知视觉转换器
早期发现阿尔茨海默病(AD)对于及时干预和治疗这种使人衰弱的神经退行性疾病至关重要。然而,这需要得到进一步的重视。用于多类阿兹海默症检测技术的最先进的视觉转换器无法处理阿兹海默症不同阶段之间产生的不确定性问题。此外,基于磁共振成像(MRI)扫描的注意力缺失症识别同样计算成本高昂。此外,用于注意力缺失症检测的视觉转换器往往缺乏结果的可解释性。为了解决这些问题,我们开发了一种新的视觉变换器,即基于模糊粒度的可解释认知视觉变换器(FGI-CogViT)。它包括三个部分,即特征提取、基于模糊逻辑的粒度分析和基于 I-CogViT 的分类。对核磁共振扫描图像计算各种视觉和统计特征。统计特征用于获得模糊颗粒的疾病易发区域。在这些区域中,AD 不同阶段之间可能存在不确定性。通过定义基于模糊逻辑的规则来获得清晰的颗粒。I-CogViT 由三个模块组成,分别是残差网络、传统视觉转换器和分类网络。这些特点提高了 FGI-CogViT 的速度和准确性。它将视觉转换器强大的特征提取能力与认知计算原理相结合,旨在增强模型的可解释性。FGI-CogViT 的功效已在 6,460 张核磁共振扫描图像上得到验证。结果表明,FGI-CogViT 的性能优于一些最先进的技术。此外,稳健性检查和统计显著性测试也为研究结果提供了支持。
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来源期刊
Information Systems Frontiers
Information Systems Frontiers 工程技术-计算机:理论方法
CiteScore
13.30
自引率
18.60%
发文量
127
审稿时长
9 months
期刊介绍: The interdisciplinary interfaces of Information Systems (IS) are fast emerging as defining areas of research and development in IS. These developments are largely due to the transformation of Information Technology (IT) towards networked worlds and its effects on global communications and economies. While these developments are shaping the way information is used in all forms of human enterprise, they are also setting the tone and pace of information systems of the future. The major advances in IT such as client/server systems, the Internet and the desktop/multimedia computing revolution, for example, have led to numerous important vistas of research and development with considerable practical impact and academic significance. While the industry seeks to develop high performance IS/IT solutions to a variety of contemporary information support needs, academia looks to extend the reach of IS technology into new application domains. Information Systems Frontiers (ISF) aims to provide a common forum of dissemination of frontline industrial developments of substantial academic value and pioneering academic research of significant practical impact.
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