Litcius/Paper detail

DeepSeg: Deep-Learning-Based Activity Segmentation Framework for Activity Recognition Using WiFi

Chunjing Xiao, Lei Yue, Yongsen Ma, Fan Zhou, Zhiguang Qin

2020IEEE Internet of Things Journal77 citationsDOI

Abstract

Due to its nonintrusive character, WiFi channel state information (CSI)-based activity recognition has attracted tremendous attention in recent years. Since activity recognition performance heavily relies on activity segmentation results, a number of activity segmentation methods have been designed, and most of them focus on seeking optimal thresholds to segment activities. However, these threshold-based methods are strongly dependent on designers' experience and might suffer from performance decline when applying to the scenario, including both fine-grained and coarse-grained activities. To address these challenges, we present DeepSeg, a deep learning-based activity segmentation framework for activity recognition using WiFi signals. In this framework, we transform segmentation tasks into classification problems and propose a CNN-based activity segmentation algorithm, which can reduce the dependence on experience and address the performance degradation problem. To further enhance the overall performance, we design a feedback mechanism, where the segmentation algorithm is refined based on the feedback computed using activity recognition results. The experiments demonstrate that DeepSeg acquires remarkable gains compared with state-of-the-art approaches.

Topics & Concepts

SegmentationComputer scienceActivity recognitionFocus (optics)Artificial intelligenceChannel (broadcasting)Deep learningImage segmentationPattern recognition (psychology)State (computer science)Machine learningAlgorithmTelecommunicationsOpticsPhysicsIndoor and Outdoor Localization TechnologiesContext-Aware Activity Recognition SystemsWireless Networks and Protocols