Identifying human activities using short-range and low-power radars has attracted muchattention among the researchers and consumer electronics industry. This paper considers human activityrecognition in the context of a single Frequency Modulated Continuous Wave (FMCW) radar as the measurement tool. A classification pipeline is proposed to handle the data pre-processing and feature extractionand a machine-learning based solution is devised to undertake the activity classification. The performanceof the proposed architecture is evaluated under both unseen subjects and new room layouts. We showhow the accuracy of the activity classification will be affected by situations such as poor aspect-angle and occlusions created by furniture that normally arise in realistic scenarios where an unseen layout is considered. A two-stage classifier will be then proposed to enhance the generalization of the model, especially, to unseen rooms. Besides, an extensive feature exploration will be conducted and the importance of features in the generalization will be studied. The results in this paper will conclude a machine learning pipeline that will generalize well to unseen subjects and new room layouts, which are two main difficulties that arise in most radar-based activity classification tasks
Gorji, A, Khalid, H, Bourdoux, A & Sahli, H 2021, 'On the Generalization and Reliability of Single Radar-Based Human Activity Recognition', IEEE Access, vol. 9, 9452152, pp. 85334-85349. https://doi.org/10.1109/ACCESS.2021.3088452.
Gorji, A., Khalid, H., Bourdoux, A., & Sahli, H. (2021). On the Generalization and Reliability of Single Radar-Based Human Activity Recognition. IEEE Access, 9, 85334-85349. Article 9452152. https://doi.org/10.1109/ACCESS.2021.3088452.
@article{e2b10dc210c34fc7b8aa1dfc10a8a634,
title = "On the Generalization and Reliability of Single Radar-Based Human Activity Recognition",
abstract = "Identifying human activities using short-range and low-power radars has attracted muchattention among the researchers and consumer electronics industry. This paper considers human activityrecognition in the context of a single Frequency Modulated Continuous Wave (FMCW) radar as the measurement tool. A classification pipeline is proposed to handle the data pre-processing and feature extractionand a machine-learning based solution is devised to undertake the activity classification. The performanceof the proposed architecture is evaluated under both unseen subjects and new room layouts. We showhow the accuracy of the activity classification will be affected by situations such as poor aspect-angle and occlusions created by furniture that normally arise in realistic scenarios where an unseen layout is considered. A two-stage classifier will be then proposed to enhance the generalization of the model, especially, to unseen rooms. Besides, an extensive feature exploration will be conducted and the importance of features in the generalization will be studied. The results in this paper will conclude a machine learning pipeline that will generalize well to unseen subjects and new room layouts, which are two main difficulties that arise in most radar-based activity classification tasks",
author = "Ali Gorji and Habib Khalid and Andr{\'e} Bourdoux and Hichem Sahli",
note = "Funding Information: This work was supported in part by Niko, and in part by the Flemish Agency for Innovation and Entrepreneurship. Publisher Copyright: {\textcopyright} 2013 IEEE.",
year = "2021",
doi = "10.1109/ACCESS.2021.3088452.",
language = "English",
volume = "9",
pages = "85334--85349",
journal = "IEEE Access",
issn = "2169-3536",
publisher = "IEEE",
}