John Kakareka
About John Kakareka
John Kakareka is an Electronics Engineer at the National Institutes of Health in Bethesda, Maryland, where he has worked since 1997. He holds a Master's degree in Electrical and Electronics Engineering from The George Washington University and a Bachelor's degree from Penn State University.
Work at National Institutes of Health
John Kakareka has served as an Electronics Engineer at the National Institutes of Health (NIH) since 1997. He has worked in Bethesda, Maryland, for 27 years, contributing to various projects that support the intramural NIH program. His role involves designing prototype biomedical systems that are utilized in applications such as spectroscopy, MRI, pathology, and neuroscience.
Education and Expertise
John Kakareka holds a Master's degree in Electrical and Electronics Engineering from The George Washington University, where he studied from 2001 to 2003. He also earned a Bachelor's degree in the same field from Penn State University, completing his studies from 1993 to 1997. His educational background provides him with a strong foundation in various technical skills, including data acquisition, signal analysis, image analysis, wireless technology, robotics, circuit design, PCB layouts, mechanical design, and optics.
Background
John Kakareka has a robust background in electronics engineering, having pursued his studies in Electrical and Electronics Engineering at two prominent institutions. His academic journey began at Penn State University, where he completed his Bachelor's degree, followed by a Master's degree at The George Washington University. This educational path has equipped him with the necessary skills and knowledge to excel in his current role.
Technical Skills and Contributions
John Kakareka possesses a diverse set of technical skills that are essential for his role as an Electronics Engineer. His expertise includes data acquisition, signal analysis, image analysis, wireless technology, robotics, circuit design, PCB layouts, mechanical design, and optics. These skills enable him to design and develop prototype biomedical systems that contribute to significant research and applications within the NIH.