Litcius/Paper detail

Empirical Bayesian network to improve service delivery and performance dependability on a campus network

Arnold Adimabua Ojugo, Andrew Okonji Eboka

2021IAES International Journal of Artificial Intelligence36 citationsDOIOpen Access PDF

Abstract

An effective systemic approach to task will lead to efficient communication and resource sharing within a network. This has become imperative as it aids alternative delivery. With communication properly etched into the fabrics of today’s society via effective integration of informatics and communication technology, the constant upgrades to existing network infrastructure are only a start to meeting with the ever-increasing challenges. There are various criteria responsible for network performance, scalability, and resilience. To ensure best practices, we analyze the network and select parameters required to improve performance irrespective of bottlenecks, potentials, and expansion capabilities of the network infrastructure. Study compute feats via Bayesian network design alongside upgrades implementation to result in a prototype design, capable of addressing users need(s). Thus, to ensure functionality, the experimental network uses known simulation kits such as riverbed modeler edition 17.5 and cisco packet tracer 6.0.1-to conduct standardized tests such as throughput test, application response-time test, and availability test.

Topics & Concepts

Computer scienceScalabilityNetwork simulationCampus networkNetwork performanceThroughputNetwork packetNetwork management stationDependabilityResilience (materials science)Network architectureComputer networkDistributed computingSoftware engineeringDatabaseTelecommunicationsThermodynamicsWirelessPhysicsSoftware System Performance and ReliabilitySoftware Testing and Debugging TechniquesIoT and Edge/Fog Computing
Empirical Bayesian network to improve service delivery and performance dependability on a campus network | Litcius