Self-Supervised Multimodal Fusion Transformer for Passive Activity Recognition

The pervasiveness of Wi-Fi signals provides significant opportunities for human sensing and activity recognition in fields such as healthcare. The sensors most commonly used for passive Wi-Fi sensing are based on passive Wi-Fi radar (PWR) and channel state information (CSI) data, however current sys...

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Veröffentlicht in:	arXiv.org 2022-08
Hauptverfasser:	Koupai, Armand K, Bocus, Mohammud J, Santos-Rodriguez, Raul, Piechocki, Robert J, McConville, Ryan
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Sprache:	eng
Schlagworte:	Activity recognition Feature extraction Multisensor fusion Passive activity Sensors Signal processing Spectrograms System effectiveness Training
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description	The pervasiveness of Wi-Fi signals provides significant opportunities for human sensing and activity recognition in fields such as healthcare. The sensors most commonly used for passive Wi-Fi sensing are based on passive Wi-Fi radar (PWR) and channel state information (CSI) data, however current systems do not effectively exploit the information acquired through multiple sensors to recognise the different activities. In this paper, we explore new properties of the Transformer architecture for multimodal sensor fusion. We study different signal processing techniques to extract multiple image-based features from PWR and CSI data such as spectrograms, scalograms and Markov transition field (MTF). We first propose the Fusion Transformer, an attention-based model for multimodal and multi-sensor fusion. Experimental results show that our Fusion Transformer approach can achieve competitive results compared to a ResNet architecture but with much fewer resources. To further improve our model, we propose a simple and effective framework for multimodal and multi-sensor self-supervised learning (SSL). The self-supervised Fusion Transformer outperforms the baselines, achieving a F1-score of 95.9%. Finally, we show how this approach significantly outperforms the others when trained with as little as 1% (2 minutes) of labelled training data to 20% (40 minutes) of labelled training data.
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subjects	Activity recognition Feature extraction Multisensor fusion Passive activity Sensors Signal processing Spectrograms System effectiveness Training
title	Self-Supervised Multimodal Fusion Transformer for Passive Activity Recognition
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