Over 30 years of professional experience, problem solving, innovation through research, design, development, test, engineering, technology management with commercial, defense, government, university, aerospace partners. Competence and successes includes subject matter expert (SME) on hardware design and development for land, maritime, airborne and space, semiconductors, microelectronics (including ASICs, FPGA, analog, digital and mixed signal), parallel computing including CSP and transputers, radiation and nuclear effects, lasers, optics and development of thin film protection for severe environments and Aircraft, Space Life Support Systems Physiological Monitoring, On Board Oxygen Generating Systems (OBOGS). Materials development, characterization, failure analysis. The development and control of high energy density and high power density systems including battery, pulsed power, alternative energy, combined portable energy sources. Development of satellites and space systems. Survivability, vulnerability assessments for known space radiation environments. Development of Hover Airlift and Logistics Operation Guided Expeditionary (HALOGX) vertical takeoff and landing (VTOL) flying platforms. Current interests also includes Low Energy Nuclear Reactions (LENR) and high efficiency, low cost and reliable nuclear fusion techniques. Success in leading technical teams, in every stage from customer interface and program capture to hardware design, development and successful delivery and follow on. As adjunct professor at NU School of Engineering and Computing, Applied Engineering Lindsay teaches both undergraduate and graduate level courses in Electromagnetic Theory, VLSI Microelectronics Design, Electronic Circuits and Systems, Digital Logic Design, Digital Logic Design Lab, Design and Analysis of Experiments, Concurrent Design Engineering, Reliability Engineering, Senior Capstone Designs & patents, Manufacturing Design Engineering, Cybersecurity Technology, Red Teaming.