02 - Systems Engineering and Integration
A MODEL BASED SYSTEMS ENGINEERING APPROACH TO STREAMLINED NOISE CERTIFICATION OF TRANSPORT-TYPE AIRCRAFT
D. Kim¹, F. Karagoz¹, S. Datta¹, M. Balchanos¹, D.H. Anvid¹, E.D. Harrison¹, D.N. Mavris¹; ¹Georgia Institute of Technology, United States
This paper presents an approach for a model-based system verification for the validation of system design:rnapplicable to the 14 CFR Part 36 Noise certification of transport aircraft. The goal is to present a streamlinedrnprocess for certification utilizing a model-based verification through integration of system design model andrncurrent industry certification processes. The presented approach is demonstrated through a verification of arnsystem under test (SUT), a transport-type aircraft block model, and a system verification model for the FederalrnAviation Administration (FAA) 14 CFR Part 36 Noise Standards as a component of aircraft Type Certification.rnBoth the aircraft and verification model are based on model-based systems engineering (MBSE) and utilizesrnsystems modeling language (SysML). In order to implement the model into current practice of transport-typerncertification, the paper captures findings and inputs obtained by aircraft manufacturers, translates regulationsrnto requirements, constrains requirements through modeled current procedures, verifies the SUT based onrnthe constraints, and outputs the results as artifacts utilized in current certification process. The integratedrnmodel enhances data integrity, communication between stakeholders, and assessment of