Abstract
Edge computing is a fast-growing and much needed technology in healthcare. The problem of implementing artificial intelligence on edge devices is the complexity and high resource intensity of the most known neural network data analysis methods and algorithms. The difficulty of implementing these methods on low-power microcontrollers with small memory size calls for the development of new effective algorithms for neural networks. This study presents a new method for analyzing medical data based on the LogNNet neural network, which uses chaotic mappings to transform input information. The method effectively solves classification problems and calculates risk factors for the presence of a disease in a patient according to a set of medical health indicators. The efficiency of LogNNet in assessing perinatal risk is illustrated on cardiotocogram data obtained from the UC Irvine machine learning repository. The classification accuracy reaches ~91% with the~3–10 kB of RAM used on the Arduino microcontroller. Using the LogNNet network trained on a publicly available database of the Israeli Ministry of Health, a service concept for COVID-19 express testing is provided. A classification accuracy of ~95% is achieved, and~0.6 kB of RAM is used. In all examples, the model is tested using standard classification quality metrics: precision, recall, and F1-measure. The LogNNet architecture allows the implementation of artificial intelligence on medical peripherals of the Internet of Things with low RAM resources and can be used in clinical decision support systems.
Highlights
The Internet of Things (IoT) consists of intelligent devices that have limited resources and that are capable of collecting, recognizing, and processing data as well as exchanging processed data between network participants [1]
We present the results of LogNNet application to two models: a perinatal risk assessment model and a risk assessment model for COVID-19 disease caused by the SARS-CoV-2 virus
This paper presents a new algorithm for the implementation of a neural network based
Summary
The Internet of Things (IoT) consists of intelligent devices that have limited resources and that are capable of collecting, recognizing, and processing data as well as exchanging processed data between network participants [1]. The concept of smart healthcare is actively developing in different countries, and the global market for IoT medical devices is growing every year [6]. As intelligent data processing requires the use of neural networks and intelligent algorithms, the concept of edge computing is actively developing [8,9,10]. If the Internet connection with the fog and cloud servers fails, local intelligent processing helps to make a decision to solve the problem on the spot. The number of approaches to organize computing include the edge–cloud IoT model, the local edge–cloud IoT model [11], nanoEdge [12], and the software-defined network controller in the edge server [10]. Edge computing increases the communication and computing speed of IoT devices in the healthcare system
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