2018
Radu, Dan; Cretu, Adrian; Parrein, Benoit; Yi, Jiazi; Avram, Camelia; Astilean, Adina
Flying Ad Hoc Network for Emergency Applications Connected to a Fog System Proceedings Article
In: Barolli, Leonard; Xhafa, Fatos; Javaid, Nadeem; Spaho, Evjola; Kolici, Vladi (Ed.): pp. 675–686, Springer International Publishing, Cham, 2018, ISBN: 978-3-319-75928-9.
Abstract | Links | BibTeX | Tags: Ad-Hoc, MP-OLSR, Multipath, OLSR
@inproceedings{10.1007/978-3-319-75928-9_60,
title = {Flying Ad Hoc Network for Emergency Applications Connected to a Fog System},
author = {Dan Radu and Adrian Cretu and Benoit Parrein and Jiazi Yi and Camelia Avram and Adina Astilean},
editor = {Leonard Barolli and Fatos Xhafa and Nadeem Javaid and Evjola Spaho and Vladi Kolici},
url = {https://www.researchgate.net/publication/323361307_Flying_Ad_Hoc_Network_for_Emergency_Applications_Connected_to_a_Fog_System},
doi = {10.1007/978-3-319-75928-9_60},
isbn = {978-3-319-75928-9},
year = {2018},
date = {2018-01-01},
pages = {675--686},
publisher = {Springer International Publishing},
address = {Cham},
abstract = {The main objective of this paper is to improve the efficiency of vegetation fire emergency interventions by using MP-OLSR routing protocol for data transmission in Flying Ad Hoc NETwork (FANET) applications. The presented conceptual system design could potentially increase the rescuing chances of people caught up in natural disaster environments, the final goal being to provide public safety services to interested parties. The proposed system architecture model relies on emerging technologies (Internet of Things & Fog, Smart Cities, Mobile Ad Hoc Networks) and actual concepts available in the scientific literature. The two main components of the system consist in a FANET, capable of collecting fire detection data from GPS and video enabled drones, and a Fog/Edge node that allows data collection and analysis, but also provides public safety services for interested parties. The sensing nodes forward data packets through multiple mobile hops until they reach the central management system. A proof of concept based on MP-OLSR routing protocol for efficient data transmission in FANET scenarios and possible public safety rescuing services is given.},
keywords = {Ad-Hoc, MP-OLSR, Multipath, OLSR},
pubstate = {published},
tppubtype = {inproceedings}
}
The main objective of this paper is to improve the efficiency of vegetation fire emergency interventions by using MP-OLSR routing protocol for data transmission in Flying Ad Hoc NETwork (FANET) applications. The presented conceptual system design could potentially increase the rescuing chances of people caught up in natural disaster environments, the final goal being to provide public safety services to interested parties. The proposed system architecture model relies on emerging technologies (Internet of Things & Fog, Smart Cities, Mobile Ad Hoc Networks) and actual concepts available in the scientific literature. The two main components of the system consist in a FANET, capable of collecting fire detection data from GPS and video enabled drones, and a Fog/Edge node that allows data collection and analysis, but also provides public safety services for interested parties. The sensing nodes forward data packets through multiple mobile hops until they reach the central management system. A proof of concept based on MP-OLSR routing protocol for efficient data transmission in FANET scenarios and possible public safety rescuing services is given.