Author
Listed:
- Harsh Mankodiya
(Department of Computer Science and Engineering, Institute of Technology, Nirma University, Ahmedabad 382481, India)
- Dhairya Jadav
(Department of Computer Science and Engineering, Institute of Technology, Nirma University, Ahmedabad 382481, India)
- Rajesh Gupta
(Department of Computer Science and Engineering, Institute of Technology, Nirma University, Ahmedabad 382481, India)
- Sudeep Tanwar
(Department of Computer Science and Engineering, Institute of Technology, Nirma University, Ahmedabad 382481, India)
- Abdullah Alharbi
(Computer Science Department, Community College, King Saud University, Riyadh 11437, Saudi Arabia)
- Amr Tolba
(Computer Science Department, Community College, King Saud University, Riyadh 11437, Saudi Arabia)
- Bogdan-Constantin Neagu
(Department of Power Engineering, “Gheorghe Asachi” Technical University of Iasi, 700050 Iasi, Romania)
- Maria Simona Raboaca
(National Research and Development Institute for Cryogenic and Isotopic Technologies—ICSI Rm. Valcea, Uzinei Street, No. 4, P.O. Box 7 Raureni, 240050 Ramnicu Valcea, Romania)
Abstract
A fall detection system is vital for the safety of older people, as it contacts emergency services when it detects a person has fallen. There have been various approaches to detect falls, such as using a single tri-axial accelerometer to detect falls or fixing sensors on the walls of a room to detect falls in a particular area. These approaches have two major drawbacks: either (i) they use a single sensor, which is insufficient to detect falls, or (ii) they are attached to a wall that does not detect a person falling outside its region. Hence, to provide a robust method for detecting falls, the proposed approach uses three different sensors for fall detection, which are placed at five different locations on the subject’s body to gather the data used for training purposes. The UMAFall dataset is used to attain sensor readings to train the models for fall detection. Five models are trained corresponding to the five sensors models, and a majority voting classifier is used to determine the output. Accuracy of 93.5%, 93.5%, 97.2%, 94.6%, and 93.1% is achieved on each of the five sensors models, and 92.54% is the overall accuracy achieved by the majority voting classifier. The XAI technique called LIME is incorporated into the system in order to explain the model’s outputs and improve the model’s interpretability.
Suggested Citation
Harsh Mankodiya & Dhairya Jadav & Rajesh Gupta & Sudeep Tanwar & Abdullah Alharbi & Amr Tolba & Bogdan-Constantin Neagu & Maria Simona Raboaca, 2022.
"XAI-Fall: Explainable AI for Fall Detection on Wearable Devices Using Sequence Models and XAI Techniques,"
Mathematics, MDPI, vol. 10(12), pages 1-15, June.
Handle:
RePEc:gam:jmathe:v:10:y:2022:i:12:p:1990-:d:834751
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