M
Massinissa Lounis
Researcher at University of Western Brittany
Publications - 12
Citations - 220
Massinissa Lounis is an academic researcher from University of Western Brittany. The author has contributed to research in topics: Wireless sensor network & Node (networking). The author has an hindex of 7, co-authored 12 publications receiving 181 citations. Previous affiliations of Massinissa Lounis include University of Béjaïa & University of Boumerdes.
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Proceedings ArticleDOI
CupCarbon: a multi-agent and discrete event wireless sensor network design and simulation tool
TL;DR: The first version of a Wireless Sensor Network simulator, called CupCarbon, is presented, which can help trainers to explain the basic concepts and how sensor networks work and it can help scientists to test their wireless topologies, protocols, etc.
Proceedings ArticleDOI
CupCarbon: A new platform for the design, simulation and 2D/3D visualization of radio propagation and interferences in IoT networks
Ahcène Bounceur,Laurent Clavier,Pierre Combeau,Olivier Marc,Rodolphe Vauzelle,Arnaud Masserann,Julien Soler,Reinhardt Euler,Taha Alwajeeh,Vyas Devendra,Umber Noreen,Émilie Soret,Massinissa Lounis +12 more
TL;DR: A new architecture for the platform CupCarbon, developed within the research project PERSEPTEUR, to design and simulate Wireless Sensor Networks dedicated to Smart-city and IoT applications and allows to validate distributed algorithms in a 2D/3D environment.
Proceedings ArticleDOI
CupCarbon-Lab: An IoT emulator
Ahcène Bounceur,Olivier Marc,Massinissa Lounis,Julien Soler,Laurent Clavier,Pierre Combeau,Rodolphe Vauzelle,Loïc Lagadec,Reinhardt Euler,Madani Bezoui,Pietro Manzoni +10 more
TL;DR: A new platform called CupCarbon-Lab is proposed, where the codes used in simulation can be directly injected in real connected embedded cards like Raspberry Pi cards, and this platform can automatically generate from the software a real IoT network even it is already deployed, which can be reconfigured without the need to go through each node.
Proceedings Article
A CupCarbon Tool for Simulating Destructive Insect Movements
TL;DR: This paper presents the first version of a Wireless Sensor Network design and simulation tool, called CupCarbon, a multi-agent and discrete event wireless Sensor Network (WSN) simulator that can be used to study the power diagram of each sensor and the overall network and also to simulate "destructive" insect movements.
Journal ArticleDOI
Maximum Lifetime Target Coverage in Wireless Sensor Networks
Nora Saadi,Ahcène Bounceur,Reinhardt Euler,Massinissa Lounis,Madani Bezoui,Moussa Kerkar,Bernard Pottier +6 more
TL;DR: An efficient method to compute the maximum lifetime target coverage is proposed centred around a target that is covered by a minimum number of sensor nodes and an algorithm to expand the network lifetime which guarantees the monitoring of all targets by forming subsets of sensors nodes is proposed.