Engineered Resilient Systems
Abstract
ERS integrates high-fidelity, physics-based modeling with advanced analytic tools to enable rapid design and analysis of current and future weapon systems. Through the use of high-performance computing, optimized computational tools, and improved processes and methods, ERS enables faster evaluation of system performance, systems-of-systems analysis, and system evaluation within operationally relevant environments to complement and reduce costly physical testing. In FY 2021, ERS project funding transitions to Systems Engineering (Program Element 0605142D8Z), with further ERS research funded by projects associated with the modernization priorities. This change directly orients the previously developed capabilities to address modernization efforts driven by the National Defense Strategy. ERS products are engineering design visualization and tool integration frameworks that integrate physics-based models and engineering tools to greatly improve the ability to perform tradespace and requirements analysis, optimize designs, and evaluate system performance. ERS leverages multi-fidelity physics-based models developed by the S&T community to inform the acquisition decision process, e.g., increased/easier use of high-performance computing, analyses of massive data sets, and lifecycle cost sensitivity analysis.
Document Details
- Document Type
- Project
- Publication Date
- Oct 01, 2022
- Source ID
- 403_0603833D8Z_3_0400_PB_2022
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- Root: Engineering Science and Technology (S&T)
- Child Accomplishment: Engineered Resilient Systems (ERS)