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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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MBSE (Model-based Systems Engineering) |
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| Zu Tao
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| Founded uml.org.cn in 2001, 2005 IBM Rational User Group Best Speaker |
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| Time Location: Shanghai September 27-28; Shenzhen and Beijing open classes Based on registration |
| Course Cost:1300 $/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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MBSE (Model-Based Systems Engineering) is an effective method for the analysis, design and development of complex systems. In order to help clients effectively implement MBSE, the coach leads the client team to implement the complete MBSE process using the client's industry examples, including: System requirement modeling, system design modeling, software requirement modeling/software design modeling/Model-based code generation, hardware requirement modeling/hardware design modeling/model-based code generation, model-based quality verification. In the implementation process, the modeling tool based on MBSE is adopted, combined with related modeling specifications SysML, UML and domain-specific modeling language DSL, to achieve the following links: modeling, document generation, model simulation and verification, code generation, quality tracking, change management. |
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| Training Goal |
- Overview of MBSE (Model-driven Systems Engineering)
- Model-based system analysis, design, modeling and validation
- Model-based software analysis, design, modeling and validation
- Model-based algorithm analysis design, modeling and validation
- Model-based physical system modeling and simulation
- MBSE Case Practice
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| Course Features: |
1. Teaching by senior experts, interactive case teaching, real combat simulation project operation
2. Master SysML modeling technology through practice drills
3. Combine theory with practice and pay attention to the explanation of cases
4. Have profound theoretical depth and accurately grasp the normative semantics of SysML.
5. Full case explanation, students learn while doing, specific and profound.
6. Consult cases proposed by students to guide analysis and design. |
| Training Target:Systems Engineer, Software Architect |
| Student Foundation:Understand systems engineering, understand the entire development process of the system, preferably familiar with a modeling language |
| Teaching Method:
Customized Course + Case Explanation + Group Discussion, 60% Case Explanation, 40% practice exercise |
| Training Content: 2 Days
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| Overview of MBSE (Model-driven Systems Engineering) |
- The goals of MBSE
- Roles involved in MBSE
- The MBSE process
- MBSE workpieces
- MBSE support tools
- The development of MBSE in various industries
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- System analysis design modeling roadmap
- Typical tools for system modeling
- System requirements analysis modeling
- System analysis and modeling
- System architecture design and modeling
- Module design and modeling
- Software and hardware interface modeling, dividing software and hardware boundaries
- Model simulation and verification
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| Model-based software analysis, design, modeling and validation |
- Software analysis design modeling roadmap
- Typical tools for software modeling
- Software requirement analysis and modeling
- Software architecture design and modeling
- Software detailed design and modeling
- Code generation
- Model simulation and verification
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| Model-based algorithm analysis design, modeling and validation |
- Algorithm modeling roadmap
- Typical tools for algorithmic modeling
- Algorithm modeling method
- Model-based algorithm analysis design
- From algorithmic models to code generation
- Simulation and verification of the algorithm
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| Model-based physical system modeling and simulation |
- Physical system modeling roadmap
- Typical tools for modeling physical systems
- Static structure modeling
- Dynamic logic modeling
- Model simulation and verification
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| MBSE case practice |
Using examples, combined with tools, practice the whole process of MBSE
- Model-based system analysis, design, modeling and validation
- Model-based software analysis, design, modeling and validation
- >Model-based algorithm analysis design, modeling and validation
- >Model-based physical system modeling and simulation
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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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