Henry Tutu Adjei is a Biomedical Engineer with a growing specialization in medical device engineering, embedded systems, and digital health technologies. His...
Henry Tutu Adjei is a Biomedical Engineer with a growing specialization in medical device engineering, embedded systems, and digital health technologies. His work integrates software development, hardware design, and applied biomedical principles to create functional, reliable, and clinically relevant technologies for resource-limited settings. Henry combines strong analytical skills with a practical engineering mindset, enabling him to work comfortably across both computational and physical systems.
He possesses a solid foundation in embedded systems development, sensor integration, circuit interfacing, and microcontroller-based control systems, skills that support his current involvement in medical hardware prototyping. Henry is experienced with Arduino platforms, basic PCB design, actuator control, and real-time data acquisition. His hardware work is complemented by proficiency in thermal control algorithms, system simulation, and feedback mechanisms such as PID-based control, all of which are essential to neonatal incubator design.
In addition to hardware engineering, Henry brings strong software capabilities spanning Python, JavaScript, HTML/CSS, C programming, and mobile/web application development. These allow him to build system interfaces, support device–software communication, and contribute to integrated digital health systems. He has hands-on experience in UI/UX development, API integration, backend logic, and real-time model deployment, giving him a unique versatility in projects that fuse hardware and software functionalities.
Henry’s research interests include neonatal engineering, biomedical instrumentation, device design for low-resource environments, and translational digital health. His engineering judgment is shaped by exposure to clinical workflows, safety requirements, and usability considerations acquired during internships at the University of Ghana Medical Centre and his involvement in device projects within the DIPPER Lab. He values simplicity, reliability, and sustainability in design principles that guide his approach to prototyping and iterative engineering. His long-term aspiration is to become a leading developer of health innovations that bridge engineering excellence with practical clinical needs.
