Joe Cassady

Joe Cassady

Executive Vice President, Explore Mars

Mr. Cassady is the Executive Vice President of Explore Mars and has been involved with the organization for over 10 years. He obtained his BS (1981) and MS (1983) in Aeronautics and Astronautics from Purdue University (Boiler Up!) as well as a Graduate Certificate in Systems Engineering at the George Washington University in 2005.  His current interest areas include architectures for human missions to Mars, Space Mobility and Logistics (SML) and space debris remediation. Mr. Cassady holds five U.S. patents for Electric Propulsion (EP) technology. He has four decades of experience in propulsion development, flight operations, mission architecture and systems analysis. He has authored more than 75 technical papers dealing with EP, power and attitude control systems and mission analysis and recently co-authored a textbook, Rocket Propulsion, with Professors Heister, Anderson, and Pourpoint of Purdue University. Prior to joining the Aerojet Rocketdyne Washington office, Mr. Cassady held roles in Development Engineering, Project Management, and Business Development and led flight project teams for the 26 kWe ESEX arcjet system (which still holds the record as the highest power EP system flown) and the EO-1 Pulsed Plasma Thruster system.  In addition, he has served on a number of advisory groups for NASA and the DoD. Currently he is a member of the National Academies Space Technology Industry Government and University Roundtable (STIGUR), which advises and reviews the NASA technology portfolio. He is an Associate Fellow of the AIAA, is Vice President of the Electric Rocket Propulsion Society (ERPS) and serves on the Board of Directors for Explore Mars, a 501c(3) non-profit dedicated to promoting STEM and human Mars exploration. In 2021, he was named as an Outstanding Aerospace Engineer by the School of Aeronautics and Astronautics at Purdue and he was elected as a Corresponding Member of the International Academy of Astronautics in 2022. It is his lifelong goal to see humans join their robotic precursors on the surface of the Red Planet.