Education
PhD Biomedical Engineering
My research lies at the intersection of artificial intelligence, signal processing, and healthcare, with a particular focus on improving the diagnosis and treatment of heart diseases such as atrial fibrillation. I design intelligent algorithms that can enhance the accuracy and efficiency of cardiac monitoring, ultimately aiming to support earlier detection and better patient outcomes. Specifically, my work explores the synthesis of electrocardiogram (ECG) leads, where a smaller subset of recorded leads is used to reconstruct the full set. This approach reduces the need for extensive electrode placement while still providing comprehensive diagnostic information, making monitoring less invasive and more accessible. By advancing methods for reliable ECG reconstruction, my research contributes to the development of smarter, more practical tools for clinicians and researchers working to combat cardiovascular disease.
BEng Electrical & Electronics Engineering
Since the dawn of the industrial era, machines have continuously shaped the way we live and work. What began as purely mechanical devices has evolved into highly sophisticated electrical and electronic systems, many of which now strive to be “intelligent.” My journey into Electrical and Electronics Engineering was driven by a curiosity to understand and design both the hardware and software that power the technology around us. Through my studies, I developed expertise in embedded systems, where the fusion of hardware and software creates the smart devices that seamlessly integrate into daily life. From microcontrollers to complex circuits, I am passionate about designing systems that are efficient, reliable, and adaptable, pushing the boundary of how machines can serve humanity.
Work
I have a diverse background spanning research, engineering, and teaching, with a strong focus on biomedical signal processing, embedded systems, and intelligent electronics. At the University of Leicester, I contribute to advancing electrocardiology by designing algorithms, circuits, and machine learning models for real-time ECG analysis and reconstruction. My work combines hardware prototyping, software development, and data-driven insights to create reliable and innovative medical technologies.
Previously, as an Electronics Engineer contractor, I delivered custom embedded systems and PCB designs, leading projects from concept to completion while ensuring technical excellence and efficiency. In parallel, I served as an Associate Lecturer at the Federal Polytechnic Nasarawa, where I taught mathematics, electrical principles, and communication systems, mentoring students through hands-on projects and bridging academic theory with industry practice.
My notable projects include a home-based ECG recording system, machine learning models for ECG reconstruction, an intelligent shopping cart, and a vein blockage detection system, all reflecting my passion for blending engineering, healthcare, and innovation to create impactful solutions.