This project studies network capacity and throughput for newly emerging MSGN infrastructure including mesh planning strategies and how the number of hops and end-devices affects the overall throughput. The work includes developing the analytical framework, and confirmation through simulation and physical experiment, of proof-of-concepts in the smart utility lab IPv6 RF mesh test bed. During […]

There are many international efforts to modernizing the current aging power grid towards an efficient grid known as “smart grid” (SG). To implement SG, many sensors are attached to different points of the power grid infrastructure. These sensors collect data and can be used for controlling, protecting, and monitoring the status of the grid by […]

Smart grid (SG) aims at modernizing the current power grid which can better manage the electricity through the grid and react to the system faults quicker. To realize this goal, many sensors are attached to different points of the power grid infrastructure. These sensors collect data and can be used for controlling, protecting, and monitoring […]

During the proposed internships, smart-grid integrated adaptive corrosion protection system (ACPS) will be developed as a stand-alone unit to provide optimum corrosion protection along with the nanostructured local data storage and off-grid powering. This will allow the continuous monitoring of the corrosion status of the metal infrastructures (e.g. transmission towers) along with the power-grid monitoring […]

Dynamic modeling is one of the most important tools for the power system operation and planning purposes. In order to study the behavior of the system, which is subjected to disturbances, a valid knowledge of parameters of system components is essentially required. The objective of this project is to propose an applicable algorithm to identify […]

The ACPS will offer high-reliability and real-time monitoring of the smart-grid infrastructure and the secure CPS will provide secure communication and authentication of the smart-grid devices and components. This results in secure and improved power transmission that can reduce infrastructure maintenance cost for the utility companies and also reduced power-theft attacks from malicious sources. Successful […]

This research is aimed at the development of new modeling and simulation algorithms of interconnected AC and DC supergrids for power flow and transient stability analyses. The efforts will be focused on the following technical areas: Advanced modeling methods of AC/DC power converters and controls for the integration of renewable energy resources in power systems. […]