Godfrey Anuga Akpakwu

TL;DR: A comprehensive review related to emerging and enabling technologies with main focus on 5G mobile networks that is envisaged to support the exponential traffic growth for enabling the IoT.

TL;DR: A context‐aware congestion control (CACC) approach for lightweight CoAP/user datagram protocol–based IoT traffic that incorporates the variable of retransmission count in request‐response interaction model to mitigate the negative variation in RTT due to the fluctuation in the IoT environment.

TL;DR: A new particle swarm optimization (PSO)‐based congestion control approach called psoCoCoA as a variation of CoCoA is proposed that outperforms or very similar to Co coCoA and achieves better performance compared to CoAP with Observe under different network scenarios.

TL;DR: In this paper, a tree-based network topology is constructed indicating the distribution of various sensor nodes within a specific coverage area (CA i ) to evaluate the performance of various channel assignment methods; Receiver-Based Channel Assignment (RBCA), Tree-Based Multichannel Protocol (TMCP), and Capacitated Minimal Spanning Tress (CMSTs), time slot assignment scheme is used in developing the various channel assignments.

TL;DR: In this paper, in order to determine the scheduling length of packet distribution, a tree-based network topology is constructed indicating the distribution of various sensor nodes within a specific coverage area (CAi).