Visible to the public Enabling Reconfigurable Naval SCADA Network through Software-Defined Networking

TitleEnabling Reconfigurable Naval SCADA Network through Software-Defined Networking
Publication TypeConference Paper
Year of Publication2022
AuthorsSzatkowski, Justin Michael, Li, Yan, Du, Liang
Conference Name2022 IEEE Transportation Electrification Conference & Expo (ITEC)
Keywordscompositionality, Generators, host, Mininet, Network topology, pubcrawl, resilience, Resiliency, SCADA systems, SCADA Systems Security, Scalability, security, Software-defined networking (SDN), supervisory control and data acquisition (SCADA), Switch, Topology, Traffic Control
AbstractSoftware-Defined Networking (SDN) technique is presented in this paper to manage the Naval Supervisory Control and Data Acquisition (SCADA) network for equipping the network with the function of reconfiguration and scalability. The programmable nature of SDN enables a programmable Modular Topology Generator (MTG), which provides an extensive control over the network's internal connectivity and traffic control. Specifically, two functions of MTG are developed and examined in this paper, namely linkHosts and linkSwitches. These functions are able to place the network into three different states, i.e., fully connected, fully disconnected, and partially connected. Therefore, it provides extensive security benefits and allows network administrators to dynamically reconfigure the network and adjust settings according to the network's needs. Extensive tests on Mininet have demonstrated the effectiveness of SDN for enabling the reconfigurable and scalable Naval SCADA network. Therefore, it provides a potent tool to enhance the resiliency/survivability, scalability/compatibility, and security of naval SCADA networks.
NotesISSN: 2377-5483
DOI10.1109/ITEC53557.2022.9813872
Citation Keyszatkowski_enabling_2022