Symposium on Artificial Intelligence
University of East London Room: EB.2.43, East Building, Docklands Campus, University Way, Docklands, LondonA symposium on artificial intelligence in association with the University of East London
A symposium on artificial intelligence in association with the University of East London
In this talk, optimal system operation strategies are developed to maintain the security and stability of the grid in a most cost-effective manner.
This seminar will review the recent outcomes of some smart grid challenges addressed by novel prediction techniques. At the generation level, decomposition techniques have been applied to handle the inherent uncertainty in short-term wind power prediction. At the transmission level, dynamic thermal line rating prediction has been studied as a viable solution to reduce congestion and utilise the actual capacity of the line.
This presentation will provide an overview of advanced voltage and current sensors providing synchro-waveforms and their potential application, with the focus on grid resiliency.
The 2023 DEIS summer school takes place this year in the historic county town of Monmouth in Wales, UK
This talk will provide an overview of Canadian provincial and remote community grids, and a more detailed discussion of Ontario’s power grid, market, and future expansion plans, from an emissions perspective.
A Distinguished Lecture, Decarbonisation Opportunities in the Electric Power Sector to Address Climate Change will be presented by Prof Saifur Rahman, 2023 IEEE President & CEO.
This event is open to anyone with an interest in ICT4Development and exploring opportunities to support local community needs by leveraging technological innovation.
Early Career Talks aim to expose the participants to novel areas and aspect of engineering in solving real world problems as well as to establish a link for networking, mentorship and to create a connection for research opportunities.
This talk will elaborate on the emerging technology of reconfigurable intelligent surfaces which is envisages to be the enabler of smart wireless environments, offering a highly scalable, low-cost, hardware-efficient, and almost energy-neutral solution for the dynamic control of the propagation of electromagnetic signals, as well as, their transmission and reception.