Abstract
Smart healthcare has undergone new opportunities and challenges with the arrival of the Industry 4.0 era. The intelligent imaging diagnosis system is a staple part of smart healthcare, helping doctors make clinical decisions. Nevertheless, intelligent diagnosis analysis is still confronted with the issue that it is challenging to extract effective features from the limited and high‐dimensional data, particularly in resting‐state data of amnesic mild cognitive impairment (aMCI). Furthermore, the intelligent imaging diagnosis system for aMCI is conductive to make timely predicting groups that may convert to Alzheimer’s disease (AD). To improve the system’s detection performance and reduce its data redundancy, we first develop an adaptive structure feature generation strategy (ASFGS) based on the Laplacian matrix and sparse autoencoder to obtain the structural features of brain functional network (BFN). Concurrently, we present a multiscale local feature detection strategy (MLFDS) to overcome the low utilization of local features of BFN. And finally, multiscale features, including structural features and multiscale local features, are fused by concatenation method to further improve the detection performance of aMCI system. Support vector machine based on radial basis function (RBF‐SVM) for small data learning is adopted to evaluate the effectiveness of the proposed features. Besides, we employ leave‐one‐out cross‐validation strategy to avoid the overfitting problem of classifier training process. The experiment results elucidate that the accuracy (ACC) and the area under the curve (AUC) in this work provide 86.57% and 86.36%, respectively, which outperforms the traditional methods and offers new insights for accuracy requirements of the aMCI system.
Highlights
Industry 4.0, represented by improvement of the intelligent level of the manufacturing industry, is profoundly converting all walks of life
It can be inferred that our work dramatically improves the detection performance of amnesic mild cognitive impairment (aMCI) system, providing a new perspective for the construction of intelligent imaging diagnosis system in smart healthcare
We develop an adaptive structure feature generation strategy (ASFGS) algorithm for extracting the structural features of brain functional network (BFN), which is aimed at improving the detection performance of aMCI system
Summary
Industry 4.0, represented by improvement of the intelligent level of the manufacturing industry, is profoundly converting all walks of life. Smart healthcare that adopts various Industry 4.0 concepts is an era full of opportunities and challenges [1, 2]. Smart healthcare consists of three parts, including the smart hospital system, family health system, and regional health system [3]. The core work of a smart hospital system is to collect, store, and process patients’ health status and medical information [4]. Imaging diagnosis using medical information and intelligent algorithms can be employed to uncover the risk of disease, timely remind doctors, and assist doctors in making clinical decisions, which is an essential ingredient of smart healthcare [5]. Brain-related diseases are considered as one of the most severe problems in the healthcare system. Alzheimer’s disease (AD), which frequently occurs in the elderly population, is a disease accompanied by cognitive decline
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