ANSYS Minerva assists in optimizing industrial machinery by integrating simulation data to improve design efficiency, performance, and reliability. It streamlines collaboration, accelerates decision-making, and enhances the development process, ultimately leading to more robust and cost-effective machinery solutions.
In gas turbine applications, ANSYS Minerva can streamline the design process by integrating simulation data to optimize turbine performance, efficiency, and durability. It facilitates collaboration among engineers, enabling them to leverage simulation insights to make informed decisions and iterate on design improvements.
In the medical devices industry, ANSYS Minerva facilitates efficient collaboration and decision-making by integrating simulation data. It supports the design and optimization of medical devices such as implants and prosthetics, enabling engineers to ensure product safety, efficacy, and regulatory compliance while accelerating time-to-market through streamlined workflows and knowledge management.
ANSYS Minerva streamlines avionics and flight control development by integrating simulation data. It optimizes system designs, validates algorithms, and enhances performance while ensuring compliance and reducing development time.
Optimize the aerodynamic shape of the missile, including its fins, nose cone, and body geometry, to minimize drag, enhance stability, and improve flight characteristics such as maneuverability and control authority.
Create an automated workflow for STOP(Structural-Thermal- Optical-Performance) Analysis and leverage cutting edge AI-based optimization algorithms to obtain the optimized optical systems.
Applying Model-Based Systems Engineering (MBSE) and Multidisciplinary Analysis and Optimization (MDAO) to the development of phased array antenna models to improve design time and quality.