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| Successful Case
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| Continental Automotive Electronics |
| Bosch Automotive Electronics |
| Schaeffler electric drive |
| Joyson Automotive Electronics |
| Huawei Technical Center |
| BMW Automotive Research and Development Center |
| Geely Auto Research Institute |
| Byd Automotive Research Institute |
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| Courses > Modeling |
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Multidisciplinary Modeling Language Modelica Training |
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| Mr. Mariol |
| System structure design simulation engineer in a research institute |
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| Time Location: Beijing,Shenzhen and Shanghai open classes Based on registration |
| Course Cost: 1000 $/Person
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| Internal Training: You can customize internal training according to the needs of the enterprise. |
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Authentication Method:
Understand the competency model before training.
Ability evaluation after training:
Online Examination
Ability Analysis, give learning suggestions
The qualified person shall be issued a certificate as proof of vocational skill qualification
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| Modelica is an open, object-oriented, equation based language that can easily model complex physical systems across different domains, including: mechanical, electronic, electrical, hydraulic, thermal, control, and process-oriented subsystem models. This course explains how to use Modelica for system analysis, design, modeling, and simulation involving multiple disciplines. Combined with specific tools, we will realize the joint adjustment of multidisciplinary modeling with Modelica. |
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| Training Goal |
| Familiar with the concept of multidisciplinary systems modeling
Master Modleica language structure
Master the method of establishing physical object model based on Modleica
Learn how to refine system models based on architecture
Understand the multidisciplinary system modeling method based on Dymola platform and FMI protocol |
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| Training Target:Simulation engineer in electromechanical hydraulic control and other fields |
| Student Foundation: Have the foundation of modeling tools and languages (such as MATLAB, C, etc.), understand the principles of mechanical, hydraulic, electrical, control and other fields |
| Teaching Method:
Customized Course + Case Explanation + Group Discussion, 60% Case Explanation, 40% practice exercise |
| Training Content: 2 Days
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Theme
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Course Arrangement |
| An overview of multidisciplinary modeling languages |
The significance of multidisciplinary system modeling, modeling method and modeling platform are introduced |
| Introduction to the structure of multidisciplinary modeling language |
This paper introduces the detailed structure of Modelica language, such as variable form, equation writing form, class creation, etc. The interface information and information equations of different physics disciplines are introduced |
| Introduction to Modleica modeling case |
Physical object model is established based on Modelica language. The establishment of multidisciplinary system model base based on Modelica; Establish a multidisciplinary physical model |
| Introduction to multidisciplinary system model architecture |
Introduce the significance of architecture; Create multidisciplinary system architecture based on Modelica language; Implementation of standard multidisciplinary system template model based on architecture |
| Detailed modeling of multidisciplinary system model based on architecture |
Based on the unified system architecture, the standard model of each discipline is refined; Building and analyzing complex multidisciplinary models based on architecture; Based on the architecture, the performance evaluation and scheme selection of multiple schemes are realized |
| Multidisciplinary modeling approach of Dymola + FMI |
Multidisciplinary modeling approach of Dymola + FMI |
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| Consulting Objective
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Help build model-driven analysis, design, development, testing |
| Scope Consultation |
Requirements Modeling, Architecture Modeling, Database Modeling, Code Modeling, Test Modeling.
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| Consultation Method |
Model-driven development process training, modeling and management tool environment construction, combined with actual customer case demonstration, team practice guidance, model evaluation standards formulation, specification formulation |
| Successful Case |
Huawei Research and Development Center, Space Center of Chinese Academy of Sciences, Nanjing 14 Institute, China Mobile Research Institute and so on. |
| For more information:010-62670969, umlooo@hotmail.com
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