Validating User Flows to Protect Software Defined Network Environments
Por um escritor misterioso
Descrição
Software Defined Network is a promising network paradigm which has led to several security threats in SDN applications that involve user flows, switches, and controllers in the network. Threats as spoofing, tampering, information disclosure, Denial of Service, flow table overloading, and so on have been addressed by many researchers. In this paper, we present novel SDN design to solve three security threats: flow table overloading is solved by constructing a star topology-based architecture, unsupervised hashing method mitigates link spoofing attack, and fuzzy classifier combined with L1-ELM running on a neural network for isolating anomaly packets from normal packets. For effective flow migration Discrete-Time Finite-State Markov Chain model is applied. Extensive simulations using OMNeT++ demonstrate the performance of our proposed approach, which is better at preserving holding time than are other state-of-the-art works from the literature.
PDF) Enhancing Network Security through Software Defined
PDF) Enhancing Network Security through Software Defined
Electronics, Free Full-Text
End-to-End Testing: Definition, Examples, Tools, and More
Recommendations for building a segmentation strategy - Microsoft
Validating User Flows to Protect Software Defined Network Environments
The application of Software Defined Networking on securing
Application-Aware Firewall Mechanism for Software Defined Networks
Securing the developer environment for Zero Trust
Recommendations for networking and connectivity - Microsoft Azure
Security & Privacy in Software Defined Networks, Issues
What Is Zero Trust Network Access? - Cisco
Software supply chain threats Software supply chain security
PERM-GUARD: Authenticating the Validity of Flow Rules in Software
de
por adulto (o preço varia de acordo com o tamanho do grupo)
