![]() ![]() Synthesize Candidate Physical Architectures.Behavior Diagrams - Sequence and State Machines.Behavior Diagrams - Use Cases and Activities.This course is typically offered online during Fall and Spring semesters. Create models and diagrams using the major elements of a modeling language.Course Objectivesĭifferentiate between traditional document-based and model-based systems engineering (MBSE)Īnalyze the three pillars of MBSE: languages, methods, and toolsĪpply Model-Based Systems Engineering (MBSE) to Systems Engineering problems ![]() This course will use hands-on training in order to develop these skills. The student will learn how to use the Systems Modeling Language (SysML), a modeling tool (Cameo Enterprise Architecture), and the Object-Oriented System Engineering Methodology (OOSEM) to develop a model that describes a system. This course will introduce the students to the three pillars of Model-based Systems Engineering, namely: language, tools, and methodology. PrerequisitesĮN.645.662 Introduction to Systems Engineering OR EN.655.662 Introduction to Healthcare Systems Engineering Course Goal Students will utilize an industry-leading system modeling tool and develop artifacts applied to real-world case studies that reinforce the MBSE concepts of methodology, language, and tools. The Introduction to Model Based Systems Engineering course provides an overview of what Model Based Systems Engineering (MBSE) is and how MBSE techniques can be applied to the Systems Engineering process to manage complexity, reduce risk, and potentially streamline the engineering design and development effort. While there, she was the Software and Systems lead on multiple government acquistion programs. ![]() Prior to joining APL, Shannon was a Software Engineer at Textron Systems in Hunt Valley, Maryland for 10 years. Her research interests include MBSE, Digital Engineering and System of Systems. In this position, she promotes the use of good systems engineering practices, ensures the quality of systems engineering work products, and serves as a technical mentor to junior staff members. Shannon Dubicki is a Chief Systems Engineer at the Johns Hopkins University Applied Physics Laboratory where she supports multiple government sponsors throughout the systems engineering lifecycle. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |