CLRPL: Context-Aware and Load Balancing RPL for Iot Networks Under Heavy and Highly Dynamic Load

High-speed Transport Protocols, Performance Evaluation, End-to-End, Protocol Bench- mark, Congestion Control, Large-Scale Experimentation, Deterministic Transfer, High-Speed

B Load estimation models for distribution network planning 89 5 Load resear h proje ts in distribution networks: sta te of the ar t 91 5.1 De ision making in distribution

We present an optimal case to balance the energy con- sumption of the critical nodes in a 2-D grid topology with a base station in a corner.. Due to the nodes range, the over-

approach to treatment of bleeding episodes in young hemophilia patients: a single bolus megadose of recombinant activated factor VII (NovoSeven), J Thromb

We have pro- posed a new data aggregation scheme based on a dynamic waiting time, which uses judicious decision making policies at the aggregator nodes level in order to determine

This paper presents on the other hand results obtained with experiments using RPL in an actual testbed, and a source-initiated reactive extension of the RPL protocol called P2P-RPL

PF+DD has a higher delivery ratio than PPF, due to the redundancy of transmissions – when a router receives the same broadcast packet from several of its parents, chances are

During the simulation, only a single traffic flow from the controller towards a sensor or vice verse is active, i.e., only a single route has to be maintained on a router running