Abstract
Due to the proliferation of the Internet of Things (IoT), the IoT devices are becoming utilized at the edge network at a much higher rate. Conventionally, the IoT devices lack the computation resources required for carrying out ultra-edge analytics. In this paper, we go beyond the typical edge analytics paradigm, which is mostly limited to user-smartphones, and investigate how to embed intelligence into the ultra-edge IoT sensors. To conceptualize the smart IoT sensors with enhanced intelligence, we select the arrhythmia detection task employing Electrocardiogram (ECG) trace as one of the mobile health (mHealth) cases. The existing approaches are not feasible for ultra-edge IoT sensors due to the extensive noise-filtering and manual feature extraction phase. Hence, in this paper, to facilitate the analytics, we propose a Deep Learning-based Lightweight Arrhythmia Classification (DL-LAC) method, which employs only single-lead ECG trace and does not require noise-filtering and manual feature extraction steps. As the proposed technique, we design a one-dimensional Convolutional Neural Network (CNN) architecture. Complying with the ANSI/AAMI EC57:1998 standard, four heartbeat types are taken into consideration as class labels. The efficiency and the generalization ability of the proposed model are evaluated, employing four different datasets from PhysioNet. The experimental results demonstrate that the proposed DL method outperforms traditional methods such as the Delay Differential Equation (DDE)-based optimization, K-Nearest Neighbor (KNN), and Random Forest (RF). The proposed DL-LAC illustrates encouraging performance in terms of time and memory requirement when the trained model is transferred to virtualized microcontrollers connected to IoT sensors.
Highlights
The escalation of Artificial Intelligence (AI), Internet of Things (IoT) sensors, and numerous wearable devices have radically enhanced mobile health
Among different AI approaches, we propose a Deep Learning-based Lightweight Arrhythmia Classification (DL-LAC) algorithm employing the one-dimensional Convolutional Neural Network (CNN) that emerges as the most viable solution for ultra-edge ECG analytics
As our research focus in this paper is lightweight arrhythmia monitoring, we will discuss the drawbacks of the existing ECG/arrhythmia monitoring system and the hurdles associated with transferring the existing analytics to ultra-edge IoT
Summary
The escalation of Artificial Intelligence (AI), Internet of Things (IoT) sensors, and numerous wearable devices have radically enhanced mobile health (mHealth). This IoT and cloud-based medical analytics serve the purpose of health monitoring, it still raises a few major concerns that cloud-based architecture cannot avoid . Among different AI approaches, we propose a Deep Learning-based Lightweight Arrhythmia Classification (DL-LAC) algorithm employing the one-dimensional Convolutional Neural Network (CNN) that emerges as the most viable solution for ultra-edge ECG analytics. The proposed model can be used to classify heartbeats employing raw single-lead, and it does not require any noise-filtering of the ECG signal, which makes the system lightweight and easy to integrate with the ultra-edge node In this vein, the proposed deep learning-based CNN employs the recommendation of Association for the Advancement of Medical Instrumentation (AAMI) for the arrhythmia classification task.
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