An Open-World Time-Series Sensing Framework for Embedded Edge Devices

IF 0.5 Q4 COMPUTER SCIENCE, SOFTWARE ENGINEERING International Journal of Embedded and Real-Time Communication Systems (IJERTCS) Pub Date : 2022-08-01 DOI:10.1109/RTCSA55878.2022.00013

Abdulrahman Bukhari, Seyedmehdi Hosseinimotlagh, Hyoseung Kim

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引用次数: 2

Abstract

The rapid advancement of IoT technologies has generated much interest in the development of learning-based sensing applications on embedded edge devices. However, these efforts are being challenged by the need to adapt to unforeseen conditions in an open-world environment. Updating a learning model suffers from the lack of training data as well as the high computational demand beyond that available on edge devices. In this paper, we propose an open-world time-series sensing framework for making inferences from time-series sensor data and achieving incremental learning on an embedded edge device with limited resources. The proposed framework is able to achieve two essential tasks, inference and learning, without requiring access to a powerful cloud server. We discuss the design choices made to ensure satisfactory learning performance and efficient resource usage. Experimental results demonstrate the ability of the system to incrementally adapt to unforeseen conditions and to effectively run on a resource-constrained device.

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面向嵌入式边缘设备的开放世界时序传感框架

物联网技术的快速发展引起了人们对嵌入式边缘设备上基于学习的传感应用开发的极大兴趣。然而，这些努力正受到挑战，因为需要适应开放世界环境中不可预见的条件。更新学习模型受到缺乏训练数据以及超出边缘设备可用的高计算需求的影响。在本文中，我们提出了一个开放世界时间序列感知框架，用于从时间序列传感器数据进行推断，并在资源有限的嵌入式边缘设备上实现增量学习。提出的框架能够实现两个基本任务，推理和学习，而不需要访问强大的云服务器。我们讨论了设计选择，以确保令人满意的学习性能和有效的资源利用。实验结果表明，该系统能够逐步适应不可预见的条件，并能在资源受限的设备上有效运行。

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