International audienceIn this work, we present a novel approach to assign monitoring roles in constrained, low power and lossy networks using available local information provided by the routing layer. The resulting monitoring architecture is adaptive taking benefit from the reactivity of the routing protocol when dynamic changes occur due to connectivity or nodes movement. The simulation results reveal that our assignment approach is more efficient, less aggressive and less resources consuming than its competitors
The techniques presented herein provide Routing Protocol for Low power and Lossy Networks (RPL) that...
International audienceDesigning scalable and energy-efficient routing protocols for IoT low power ne...
Abstract—In this paper, we explore the implementation of a smart monitoring system over a wireless s...
International audienceMonitoring constrained, low power and lossy networks is essential to many oper...
Mission-criticalal Internet of Things (IoT)-based networks are increasingly employed in daily and in...
Wireless Sensor Networks (WSNs) have become increasingly important. These networks comprise sensor a...
International audienceRouting protocol is a critical component of Low-power and Lossy Networks for S...
International audienceProtocols that are to be employed in the context of the Internet of Things (Io...
International audienceRPL is a routing protocol for low-power and lossy networks. A malicious node c...
The purpose of resource management is the efficient and effective use of network resources, for inst...
Mobility is becoming an integrating part of todays Internet of Things, as many applications such as ...
In this paper, we introduce Drizzle, a new algorithm for maintaining routing information in the Low-...
In this paper, we explore the implementation of a smart monitoring system over a wireless sensor net...
Low-Power and Lossy Network (LLN)s are constrained networks composed by nodes with little resources ...
International audienceLow-power Internet of Things (IoT) networks are widely deployed in various env...
The techniques presented herein provide Routing Protocol for Low power and Lossy Networks (RPL) that...
International audienceDesigning scalable and energy-efficient routing protocols for IoT low power ne...
Abstract—In this paper, we explore the implementation of a smart monitoring system over a wireless s...
International audienceMonitoring constrained, low power and lossy networks is essential to many oper...
Mission-criticalal Internet of Things (IoT)-based networks are increasingly employed in daily and in...
Wireless Sensor Networks (WSNs) have become increasingly important. These networks comprise sensor a...
International audienceRouting protocol is a critical component of Low-power and Lossy Networks for S...
International audienceProtocols that are to be employed in the context of the Internet of Things (Io...
International audienceRPL is a routing protocol for low-power and lossy networks. A malicious node c...
The purpose of resource management is the efficient and effective use of network resources, for inst...
Mobility is becoming an integrating part of todays Internet of Things, as many applications such as ...
In this paper, we introduce Drizzle, a new algorithm for maintaining routing information in the Low-...
In this paper, we explore the implementation of a smart monitoring system over a wireless sensor net...
Low-Power and Lossy Network (LLN)s are constrained networks composed by nodes with little resources ...
International audienceLow-power Internet of Things (IoT) networks are widely deployed in various env...
The techniques presented herein provide Routing Protocol for Low power and Lossy Networks (RPL) that...
International audienceDesigning scalable and energy-efficient routing protocols for IoT low power ne...
Abstract—In this paper, we explore the implementation of a smart monitoring system over a wireless s...