Experimental and theoretical modeling of DNP3 attacks in smart grids

Security challenges have emerged in recent years facing smart-grids in the energy sector. Threats are arising every day that could cause great scale of damages in critical infrastructure. Our paper will address internal security threats associated with smart grid in a simulated virtual environment involving DNP3 protocol. We will analyze vulnerabilities and perform penetration testing involving Man-in-the-middle (MITM) type of attacks. Ultimately, by utilizing theoretical modeling of smart-grid attacks using game theory, we will optimize our detection and mitigation procedures to reduce cyber threats in DNP3 environment. The use of intrusion detection system will be necessary to identify attackers targeting different part of the smart grid infrastructure. Mitigation techniques will ensure a healthy check of the network. Performing DNP3 security attacks, detections, preventions and counter measures will be our goals to achieve in this research paper.