LOADng

Paper: Depth First Forwarding for Low Power and Lossy Networks: Application and Extension

Data delivery across a multi-hop low-power and lossy networks (LLNs) is a challenging task: devices participating in such a network have strictly limited computational power and storage, and the communication channels are of low capacity, time-varying and with high loss…
Read more

Paper: Depth-First Forwarding for Unreliable Networks: Extensions and Application

This paper introduces extensions and applications of depth-first forwarding (DFF)-a data forwarding mechanism for use in unreliable networks such as sensor networks and Mobile Ad hoc NETworks with limited computational power and storage, low-capacity channels, device mobility, etc. Routing protocols…
Read more

Paper: Optimization of jitter configuration for reactive route discovery in wireless mesh networks

Jitter is a small, random variation of timing before message emission that is widely used in non-synchronized wireless communication. It is employed to avoid collisions caused by simultaneous transmissions by adjacent nodes over the same channel. In reactive (on-demand) routing…
Read more

Paper: An Adaptive Jitter Mechanism for Reactive Route Discovery in Sensor Networks

This paper analyses the impact of jitter when applied to route discovery in reactive (on-demand) routing protocols. In multi-hop non-synchronized wireless networks, jitter—a small, random variation in the timing of message emission—is commonly employed, as a means to avoid collisions…
Read more

Paper: Collection Tree Extension of Reactive Routing Protocol for Low-Power and Lossy Networks

This paper proposes an extension to reactive routing protocol, for efficient construction of a collection tree for data acquisition in sensor networks. The Lightweight On-Demand Ad hoc Distance Vector Routing Protocol-Next Generation (LOADng) is a reactive distance vector protocol which…
Read more

Paper: Efficient Data Acquisition in Sensor Networks:Introducing (the) LOADng Collection Tree Protocol

This paper proposes an extension to the “LLN On-demand Ad hoc Distance-vector Routing Protocol – Next Generation” (LOADng), for efficient construction of a collection tree for data acquisition in sensor networks. The extension uses the mechanisms from LOADng, imposes minimal…
Read more

Paper: Evaluation of routing protocol for low power and Lossy Networks: LOADng and RPL

Routing protocol is a critical component of Low-power and Lossy Networks for Smart Grid. The protocols are used for data forwarding, which includes data acquisition, information dissemination, etc. This paper evaluates two main routing protocols used for Low-power and Lossy…
Read more

WP Facebook Auto Publish Powered By : XYZScripts.com
%d bloggers like this: