Demonstrating its power in the development of embedded control environments! Introducing examples of the use of optimization support tools.
We would like to introduce a case study where we optimized the feedback control gain for engine RPM using our "modeFRONTIER." By using "modeFRONTIER" to optimize the control parameters within Simulink, we propose a method to design control characteristics at the algorithm design stage. The control target is an automotive engine modeled in GT-POWER. The throttle opening was controlled via PID feedback to maintain the engine speed at a specified value. 【Case Study】 ■ Software Used: modeFRONTIER, GT-POWER, MATLAB/Simulink ■ Objective: Optimize control parameters within Simulink using modeFRONTIER ■ Control Target: Automotive engine modeled in GT-POWER ■ Results - Controlled engine speed to the specified value - Simultaneously optimized parameters in GT-POWER *For more details, please refer to the external link or feel free to contact us.
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**Features of the Multi-Objective Robust Design Optimization Support Tool "modeFRONTIER"** - Equipped with advanced optimization methods, experimental design methods, and response surface approximation techniques. - Supports multi-objective robust design optimization and multi-objective tolerance design optimization. - Includes a variety of post-processing functions such as statistical analysis, multivariate analysis, and CAP. - Interface compatible with Japanese (Windows) and English environments. - Standard dedicated nodes for direct access to various tools (such as CATIA V5, ANSYS Workbench, MATLAB, LabVIEW, etc.). *For more details, please refer to the external link or feel free to contact us.*
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While focusing on MBD and CAE technologies and their surrounding technical areas, we specialize in building virtual products and collaborative design processes through cutting-edge digital engineering. We have formed partnerships with leading software vendors of the era to provide top-level digital engineering technologies in Japan, including solutions for thermal fluid analysis, structural analysis, electromagnetic field analysis, acoustic analysis, system simulation, optimization technologies, embedded software development environments, and simulation process data management (SPDM) solutions. We offer a comprehensive engineering environment necessary to solve the diverse and complex challenges faced by our customers. Official Blog: https://www.idaj.co.jp/blog/ IDAJ YouTube Channel: https://www.youtube.com/channel/UCGCd8pB5Lwq_noIoxpgJrrw/featured X: https://twitter.com/IDAJ_CAE Facebook: https://www.facebook.com/IDAJ.CAE
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