BlockTheFall: Wearable Device-based Fall Detection Framework Powered by Machine Learning and Blockchain for Elderly Care (2306.06452v1)
Abstract: Falls among the elderly are a major health concern, frequently resulting in serious injuries and a reduced quality of life. In this paper, we propose "BlockTheFall," a wearable device-based fall detection framework which detects falls in real time by using sensor data from wearable devices. To accurately identify patterns and detect falls, the collected sensor data is analyzed using machine learning algorithms. To ensure data integrity and security, the framework stores and verifies fall event data using blockchain technology. The proposed framework aims to provide an efficient and dependable solution for fall detection with improved emergency response, and elderly individuals' overall well-being. Further experiments and evaluations are being carried out to validate the effectiveness and feasibility of the proposed framework, which has shown promising results in distinguishing genuine falls from simulated falls. By providing timely and accurate fall detection and response, this framework has the potential to substantially boost the quality of elderly care.
- V. Loss, “La revue canadienne du vieillissement,” 2022.
- H. Temkin-Greener, M. R. Meiners, E. A. Petty, and J. S. Szydlowski, “The use and cost of health services prior to death: a comparison of the medicare-only and the medicare-medicaid elderly populations,” The Milbank Quarterly, pp. 679–701, 1992.
- Y. Xie and Y. Jin, “Global attitudes toward china: trends and correlates,” Journal of Contemporary China, vol. 31, no. 133, pp. 1–16, 2022.
- L. Z. Rubenstein, “Falls in older people: epidemiology, risk factors and strategies for prevention,” Age and ageing, vol. 35, no. suppl_2, pp. ii37–ii41, 2006.
- K. Brophy, S. Davies, S. Olenik, Y. Çotur, D. Ming, N. Van Zalk, D. O’Hare, F. Guder, and A. K. Yetisen, “The future of wearable technologies,” Imperial College London: London, UK, 2021.
- Y. K. Sheng and N. Zainal, “Development of wearable sensor-based fall detection system for elderly using iot,” Evolution in Electrical and Electronic Engineering, vol. 3, no. 2, pp. 69–79, 2022.
- L. Montesinos, R. Castaldo, and L. Pecchia, “Wearable inertial sensors for fall risk assessment and prediction in older adults: A systematic review and meta-analysis,” IEEE transactions on neural systems and rehabilitation engineering, vol. 26, no. 3, pp. 573–582, 2018.
- R. Rucco, A. Sorriso, M. Liparoti, G. Ferraioli, P. Sorrentino, M. Ambrosanio, and F. Baselice, “Type and location of wearable sensors for monitoring falls during static and dynamic tasks in healthy elderly: a review,” Sensors, vol. 18, no. 5, p. 1613, 2018.
- I. Akman and C. Turhan, “Sector diversity among it professionals in the timing of blockchain adoption: An attitudinal perspective,” Engineering Economics, vol. 33, no. 5, pp. 461–472, 2022.
- P. Bhattacharya, D. Saraswat, A. Dave, M. Acharya, S. Tanwar, G. Sharma, and I. E. Davidson, “Coalition of 6g and blockchain in ar/vr space: Challenges and future directions,” IEEE Access, vol. 9, pp. 168 455–168 484, 2021.
- M. R. Mia, H. Shahriar, M. Valero, N. Sakib, B. Saha, M. A. Barek, M. J. H. Faruk, B. Goodman, R. A. Khan, and S. I. Ahamed, “A comparative study on hipaa technical safeguards assessment of android mhealth applications,” Smart Health, vol. 26, p. 100349, 2022.
- Y. Qian, Y. Jiang, J. Chen, Y. Zhang, J. Song, M. Zhou, and M. Pustišek, “Towards decentralized iot security enhancement: A blockchain approach,” Computers & Electrical Engineering, vol. 72, pp. 266–273, 2018.
- M. S. Islam, H. Shahriar, S. Sneha, C. Zhang, and S. Ahamed, “Mobile sensor-based fall detection framework,” in 2020 IEEE 44th Annual Computers, Software, and Applications Conference (COMPSAC). IEEE, 2020, pp. 693–698.