This course is a continuation of Foundations of Modeling and Simulation in Systems Engineering, and provides in-depth exposure to the field of modeling and simulation (M&S) from the perspective of M&S as an essential tool for systems engineering. Advanced statistical methods are used to conduct requirements-driven simulation analysis and experimentation. The course provides treatment of advanced M&S topics, including verification, validation, and accreditation techniques; methods for simulation interoperability and composability; modeling of the system environment, both natural and man-made; modeling of system costs; and the establishment of collaborative M&S environments. The course also explores continuous and real-time simulation. Students are exposed to the techniques used to form conceptual models of mechanical (both translational and rotational), electrical, fluid, thermal, biological, and hybrid systems. The conceptual models are transformed into mathematical models and implemented in a modern simulation package. State of the art tools are explored and each student is given the opportunity to conduct a simulation study of a complex system. Each student will present a case study and complete a project. Upon completion of the course, the student will be able to conduct or lead the development of the model of a complex physical system, the modeling of the input data, and analyze the results to support decisions at key milestones of a system's life cycle.
Course prerequisites: 
645.757 Foundations of Modeling and Simulation in Systems Engineering and 625.403 Statistical Method and Data Analysis.
Course instructor: 
Coolahan, Jones

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