Monitoring Emergency First Responders’ Activities via Gradient Boosting and Inertial Sensor Data
- 1.1k Downloads
Emergency first response teams during operations expend much time to communicate their current location and status with their leader over noisy radio communication systems. We are developing a modular system to provide as much of that information as possible to team leaders. One component of the system is a human activity recognition (HAR) algorithm, which applies an ensemble of gradient boosted decision trees (GBT) to features extracted from inertial data captured by a wireless-enabled device, to infer what activity a first responder is engaged in. An easy-to-use smartphone application can be used to monitor up to four first responders’ activities, visualise the current activity, and inspect the GBT output in more detail.
KeywordsHuman activity recognition Machine learning Boosting Inertial sensors
This publication emanated from research supported by research grants from Science Foundation Ireland (SFI) and the European Development Fund under grant numbers SFI/12/RC/2289 and 13/RC/2077-CONNECT, and the European funded project SAFESENS under the ENIAC program in association with Enterprise Ireland (IR20140024).
- 1.Brahmi, I.H., Abruzzo, G., Walsh, M., Sedjelmaci, H., O’Flynn, B.: A fuzzy logic approach for improving the tracking accuracy in indoor localisation applications. In: Wireless Days Conference. IEEE, April 2018Google Scholar
- 4.Medtronic: Zephyr™ performance systems for first responders and industrial safety (2017). https://www.zephyranywhere.com
- 5.Scheurer, S., Tedesco, S., Brown, K.N., O’Flynn, B.: Human activity recognition for emergency first responders via body-worn inertial sensors. In: International Conference on Wearable and Implantable Body Sensor Networks. IEEE, May 2017Google Scholar
- 6.Scheurer, S., Tedesco, S., Brown, K.N., O’Flynn, B.: Sensor and feature selection for an emergency first responders activity recognition system. In: Sensors. IEEE, October 2017Google Scholar
- 7.Sreenivasan, R.R., Nirmalya, R.: Recent trends in machine learning for human activity recognition–a survey. Wiley Interdiscip. Rev.: Data Min. Knowl. Discov. 8(4) (2018)Google Scholar
- 8.Tedesco, S., Khodjaev, J., O’Flynn, B.: A novel first responders location tracking system: architecture and functional requirements. In: Mediterranean Microwave Symposium. IEEE, November 2015Google Scholar