PFARS: Enhancing throughput and lifetime of heterogeneous WSNs through power‐aware fusion, aggregation, and routing scheme

Abstract: Summary Heterogeneous wireless sensor networks (WSNs) consist of resource‐starving nodes that face a challenging task of handling various issues such as data redundancy, data fusion, congestion control, and energy efficiency. In these networks, data fusion algorithms process the raw data generated by a sensor node in an energy‐efficient manner to reduce redundancy, improve accuracy, and enhance the network lifetime. In literature, these issues are addressed individually, and most of the proposed solutions are … Show more

“…In this manner, we used both optimal-path identification scheme and gradient enabled scheme in the directed diffusion method, where server module or base station Sj chooses the optimal operational path; in this case, it will impose on the ordinary or member nodes Ci to utilize this path as a continuous communication link between sensor nodes. This path is used by various devices interested in transmission of data until one or more of these devices consume their on-board power completely or becomes not operational due to other reasons [13], [14]. Generally, this scheme relies on a single communication path, consequently, the lifetime of both WSNs and ordinary devices C i is very short, that is similar to the shortest path-enabled scheme where packets are forward on this path as long as all nodes reside on it are operational.…”

An Efficient Smart Weighted and Neighborhood-enabled Load Balancing Scheme for Constraint Oriented Networks

“…In this manner, we used both optimal-path identification scheme and gradient enabled scheme in the directed diffusion method, where server module or base station Sj chooses the optimal operational path; in this case, it will impose on the ordinary or member nodes Ci to utilize this path as a continuous communication link between sensor nodes. This path is used by various devices interested in transmission of data until one or more of these devices consume their on-board power completely or becomes not operational due to other reasons [13], [14]. Generally, this scheme relies on a single communication path, consequently, the lifetime of both WSNs and ordinary devices C i is very short, that is similar to the shortest path-enabled scheme where packets are forward on this path as long as all nodes reside on it are operational.…”

An Efficient Smart Weighted and Neighborhood-enabled Load Balancing Scheme for Constraint Oriented Networks

A network security posture assessment model based on binary semantic analysis

A reliable wireless communication mechanisms and decision support system for the IoT networks