Several evolutionary algorithms (EAs) have emerged in recent decades that mimic the behaviour and evolution of biological entities. EAs are widely used to solve single and multi-objective optimization engineering problems. EAs have also been applied to a variety of microwave components, antenna design, radar design, and wireless communications problems. These techniques, among others, include genetic algorithms (GAs), evolution strategies (ES), particle swarm optimization (PSO), differential evolution (DE), and ant colony optimization (ACO). In addition, new innovative algorithms that are not only biology-based but also physics-based or music-based are also emerging, as are hybrid combinations of EAs. The use of evolutionary algorithms is having an increasing impact on antenna design and wireless communications problems. EAs combined with numerical methods in electromagnetics have obtained significant and successful results. This book aims to present some of the emerging Eas and thei
Published 30 April 2021
Having your social media account hacked is a pain. Having your credit card account hacked can be devastating. Having your new electric vehicle hacked could be disastrous. As the move toward automated electric cars accelerates, protecting the cybersecurity of these vehicles has become urgent.
Having your social media account hacked is a pain. Having your credit card account hacked can be devastating. Having your new electric vehicle hacked could be disastrous.
As the move toward automated electric cars accelerates, protecting the cybersecurity of these vehicles has become urgent. That’s why University of Georgia researchers are identifying weaknesses that could threaten the safety and efficiency of such vehicles. In a new paper published in the IEEE
Published 29 April 2021
Having your social media account hacked is a pain. Having your credit card account hacked can be devastating. Having your new electric vehicle hacked could be disastrous. As the move toward automated electric cars accelerates, protecting the cybersecurity of these vehicles has become urgent.
Having your social media account hacked is a pain. Having your credit card account hacked can be devastating. Having your new electric vehicle hacked could be disastrous.
As the move toward automated electric cars accelerates, protecting the cybersecurity of these vehicles has become urgent. That’s why University of Georgia researchers are identifying weaknesses that could threaten the safety and efficiency of such vehicles. In a new paper published in the IEEE
How to keep automated electric vehicles safe
6 hours ago
Researchers identify cybersecurity weaknesses that could threaten cars’ safety
Having your social media account hacked is a pain. Having your credit card account hacked can be devastating. Having your new electric vehicle hacked could be disastrous.
As the move toward automated electric cars accelerates, protecting the cybersecurity of these vehicles has become urgent. That’s why University of Georgia researchers are identifying weaknesses that could threaten the safety and efficiency of such vehicles. In a new paper published in the IEEE Journal of Emerging and Selected Topics in Power Electronics, a UGA-led team provides the first comprehensive study on cyber-physical security of powertrain systems in connected and automated electric vehicles, or CAEVs.
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The FINANCIAL Researchers identify cybersecurity weaknesses that could threaten cars’ safety. Having your social media account hacked is a pain. Having your credit card account hacked can be devastating. Having your new electric vehicle hacked could be disastrous, University of Georgia notes.
As the move toward automated electric cars accelerates, protecting the cybersecurity of these vehicles has become urgent. That’s why University of Georgia researchers are identifying weaknesses that could threaten the safety and efficiency of such vehicles. In a new paper published in the IEEE Journal of Emerging and Selected Topics in Power Electronics, a UGA-led team provides the first comprehensive study on cyber-physical security of powertrain systems in connected and automated electric vehicles, or CAEVs.