Enhancing Reliability and Resilience in Smart Grid Systems and Critical Energy Infrastructure
The energy landscape continually evolves, presenting multifaceted challenges and opportunities. These include adapting to severe weather events and cyber threats, accommodating a shifting energy generation landscape, empowering consumers to engage in electricity markets, integrating the Internet of Things, and grappling with the aging electricity infrastructure. Enhancing Reliability and Resilience in Smart Grid Systems and Critical Energy Infrastructure, is a crucial subject in the realm of energy systems and smart grids. It delves into the development and implementation of advanced technologies and strategies to ensure the uninterrupted, dependable, and secure operation of smart grid systems, as well as the robustness of critical energy infrastructure in the face of various challenges, including cyber threats, natural disasters, and unforeseen disruptions. This panel discussion aims to explore innovative solutions, best practices, and policy considerations to fortify the reliability and resilience of energy networks, enabling a more sustainable and secure energy future. Experts and researchers in the field will share insights and engage in discussions to address the evolving demands and risks in our interconnected energy landscape.
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Speakers
Arif Sarwat of Florida International University, USA
Enhancing Reliability and Resilience in Smart Grid Systems and Critical Energy Infrastructure
The energy landscape continually evolves, presenting multifaceted challenges and opportunities. These include adapting to severe weather events and cyber threats, accommodating a shifting energy generation landscape, empowering consumers to engage in electricity markets, integrating the Internet of Things, and grappling with the aging electricity infrastructure. Enhancing Reliability and Resilience in Smart Grid Systems and Critical Energy Infrastructure, is a crucial subject in the realm of energy systems and smart grids. It delves into the development and implementation of advanced technologies and strategies to ensure the uninterrupted, dependable, and secure operation of smart grid systems, as well as the robustness of critical energy infrastructure in the face of various challenges, including cyber threats, natural disasters, and unforeseen disruptions. This panel discussion aims to explore innovative solutions, best practices, and policy considerations to fortify the reliability and resilience of energy networks, enabling a more sustainable and secure energy future. Experts and researchers in the field will share insights and engage in discussions to address the evolving demands and risks in our interconnected energy landscape.
Biography:
Eminent Scholar Chaired Professor
Florida International University, USA
Akhtar Kalam of Victoria University, Australia
Enhancing Reliability and Resilience in Smart Grid Systems and Critical Energy Infrastructure
The energy landscape continually evolves, presenting multifaceted challenges and opportunities. These include adapting to severe weather events and cyber threats, accommodating a shifting energy generation landscape, empowering consumers to engage in electricity markets, integrating the Internet of Things, and grappling with the aging electricity infrastructure. Enhancing Reliability and Resilience in Smart Grid Systems and Critical Energy Infrastructure, is a crucial subject in the realm of energy systems and smart grids. It delves into the development and implementation of advanced technologies and strategies to ensure the uninterrupted, dependable, and secure operation of smart grid systems, as well as the robustness of critical energy infrastructure in the face of various challenges, including cyber threats, natural disasters, and unforeseen disruptions. This panel discussion aims to explore innovative solutions, best practices, and policy considerations to fortify the reliability and resilience of energy networks, enabling a more sustainable and secure energy future. Experts and researchers in the field will share insights and engage in discussions to address the evolving demands and risks in our interconnected energy landscape.
Biography:
Professor at TEXILA College and Honorary Professor at Victoria University, Australia