Our Aerospace Engineers perform Computational Fluid Dynamics (CFD) modeling of subsonic through hypersonic flows implementing structured and unstructured grid generation using in-house, government, and commercial solvers, and Euler, RANS, DES, and LES flow schemes. Our Advanced CFD post-processing includes automated convergence prediction, visualization, and data extraction methods. We possess extensive experience validating our CFD models using large-scale sub-, trans-, and supersonic wind tunnel testing
Cummings Aerospace GNC engineers are recognized experts in the field of autopilot design, vehicle stability analysis, and guidance and control algorithm development for missile system applications. Cummings Aerospace’s competencies in GNC systems span; stability analysis of guidance and control systems, detailed guidance algorithm development, missile flight software design and implementation, and Kalman Filter design for navigation and tracking systems.
Cummings Aerospace’s mechanical design experience includes concept development and design trade studies for aerospace systems. Using state-of-the-art tools and processes, Cummings Aerospace's mechanical engineers complete structural loads analysis and environments definition, as well as stress and dynamic response analysis. Cummings Aerospace mechanical design and analysis experience encompasses tactical ballistic missile flight hardware and ground support equipment, target and countermeasure systems, and radar systems.
Our electrical engineering capabilities encompass conducting design trade studies, and detailed electrical component design, electrical circuit simulation, RF systems analysis, and link margin analysis. Our experience spans electrical system and subsystem development for tactical missile flight hardware, ground support equipment, and radar systems.