Is this project an undergraduate, graduate, or faculty project?
Graduate
individual
What campus are you from?
Daytona Beach
Authors' Class Standing
Quinn Galen, Graduate Student
Lead Presenter's Name
Quinn Galen
Faculty Mentor Name
Christopher Cerqueira
Abstract
This study highlights the practical utility of SysML v2’s kernel language, a formal, text based foundation for consistent, cross tool model definitions, in Model Based Systems Engineering (MBSE), using Air Traffic Management (ATM) as an illustrative example. SysIDE, an open source textual editor, enables rapid model creation with the kernel’s concise syntax, allowing users to define system components and behaviors (e.g., ATM radar or flight path interactions) with real time validation. SysON, a web based graphical tool, complements this by facilitating collaborative visualization of system architectures. Using ATM as an example case, we can showcase how the kernel language enhances design efficiency, and reduces iteration cycles compared to SysML v1. This work underscores SysIDE and SysON’s effectiveness in leveraging SysML v2’s kernel for MBSE, with broad applicability across complex systems engineering domains.
Did this research project receive funding support from the Office of Undergraduate Research.
No
Demonstrating SysML v2’s Utility with SysIDE and SysON for Systems Modeling
This study highlights the practical utility of SysML v2’s kernel language, a formal, text based foundation for consistent, cross tool model definitions, in Model Based Systems Engineering (MBSE), using Air Traffic Management (ATM) as an illustrative example. SysIDE, an open source textual editor, enables rapid model creation with the kernel’s concise syntax, allowing users to define system components and behaviors (e.g., ATM radar or flight path interactions) with real time validation. SysON, a web based graphical tool, complements this by facilitating collaborative visualization of system architectures. Using ATM as an example case, we can showcase how the kernel language enhances design efficiency, and reduces iteration cycles compared to SysML v1. This work underscores SysIDE and SysON’s effectiveness in leveraging SysML v2’s kernel for MBSE, with broad applicability across complex systems engineering domains.