An expert in electrical engineering, Deborah Afolayan, is leading the charge in integrating artificial intelligence with advanced optimisation techniques to revolutionise the electric vehicle (EV) industry and renewable energy applications.
Sharing words about her groundbreaking work, which focuses on developing AI-driven solutions to enhance the performance, efficiency, and sustainability of electric vehicles, she said it is contributing significantly to the global effort towards a more sustainable future.
Afolayan, whose academic excellence and innovative research are a testament to her exceptional abilities, holds a master’s degree in Electrical and Computer Engineering from Tennessee Technological University, where she specialised in power systems analysis and distributed energy systems, and a bachelor’s degree in Electrical and Electronics Engineering from Osun State University, providing a solid foundation in electrical engineering principles and applications.
Currently, Afolayan is pioneering electronic device optimisation for electric vehicles, harnessing machine learning algorithms, exploring new materials and topologies, and integrating emerging technologies.
Her groundbreaking approach aims to significantly enhance electric vehicle efficiency and make substantial contributions to the field of renewable energy.
Her published papers, “Modelling and Implementation of PID Controller for Efficient EV Suspension Energy Harvesting” and “Optimising Electric Vehicle Performance:
Leveraging Artificial Intelligence for Intelligent Energy Management” demonstrates her exceptional research capabilities and commitment to advancing the field.
Afolayan’s expertise extends to a wide array of technical skills. Her work in power systems and automation has been instrumental in designing and developing power distribution units and energy harvesting systems.
By collaborating with cross-functional teams, she ensures the seamless integration of these systems into larger frameworks, thereby enhancing their functionality and reliability.
Her research projects have yielded impressive results, such as the modelling and simulation of power distribution units, the development of automated PID controllers for efficient energy harvesting, and the design of grid-connected inverters.
These projects highlight her ability to apply theoretical knowledge to practical applications, driving innovation in the field of electrical engineering.
Afolayan’s professional experience includes designing electrical subsystems, schematics, and assemblies and leading project design concepts.
She described her ability to perform tests to validate design performance, and her expertise in programming and debugging PLCs has been crucial in ensuring the success of various engineering projects. Her dedication to sustainability and innovation is evident in her work on energy harvesting systems and power electronics. By integrating AI and machine learning with these systems, Afolayan aims to enhance the efficiency of energy conversion and storage, thereby reducing the environmental impact of electric vehicles and promoting the use of renewable energy sources.
Deborah Afolayan’s pioneering efforts in the fields of electrical engineering and artificial intelligence are set to make a lasting impact on the EV industry and beyond. Her commitment to advancing sustainable practices through collaborative research and innovation is driving positive change, ensuring a greener and more sustainable future for generations to come.
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