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Simulink® for Automotive System Design Advanced Level培训
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 班级规模及环境--热线:4008699035 手机:15921673576( 微信同号) |
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坚持小班授课,为保证培训效果,增加互动环节,每期人数限3到5人。 |
| 上课时间和地点 |
开课地址:【上海】同济大学(沪西)/新城金郡商务楼(11号线白银路站)【深圳分部】:电影大厦(地铁一号线大剧院站) 【武汉分部】:佳源大厦【成都分部】:领馆区1号【沈阳分部】:沈阳理工大学【郑州分部】:锦华大厦【石家庄分部】:瑞景大厦【北京分部】:北京中山学院 【南京分部】:金港大厦
最新开班 (连续班 、周末班、晚班):请点击此处咨询在线客服 |
| 实验设备 |
☆资深工程师授课
☆注重质量
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☆合格学员免费推荐工作
★实验设备请点击这儿查看★ |
| 质量保障 |
1、培训过程中,如有部分内容理解不透或消化不好,可免费在以后培训班中重听;
2、课程完成后,授课老师留给学员手机和Email,保障培训效果,免费提供课后答疑。
3、培训合格学员可享受免费推荐就业机会。 |
课程大纲 |
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- Fundamentals
Using the MATLAB® environment
Essential Mathematics for control systems using MATLAB®
Graphics and Visualization
Programming using MATLAB®
GUI Programming using MATLAB® (optional)
Introduction to Control systems and Mathematical Modeling using MATLAB®
Control Theory using MATLAB®
Introduction to systems modeling using SIMULINK®
Model Driven Development in Automotive
Model Based versus Model-less Development
Test Harness for Automotive Software System Tests
Model in the Loop, Software in the Loop, Hardware in the Loop
Tools for Model Based Development and Testing in Automotive
Matelo Tool Example
Reactis Tool Example
Simulink/Stateflow Models Verifiers and SystemTest Tool Example
Simulink® internals (signals, systems, subsystems, simulation Parameters,…etc) - Examples
Conditionally executed subsystems
Enabled subsystems
Triggered subsystems
Input validation model
Stateflow for automotive systems (Automotive Body Controller application) - Examples
Creating and Simulating a Model
Create a simple Simulink model, simulate it, and analyze the results.
- Define the potentiometer system
Explore the Simulink environment interface
Create a Simulink model of the potentiometer system
Simulate the model and analyze results
Modeling Programming Constructs Objective:
Model and simulate basic programming constructs in Simulink
Comparisons and decision statements
Zero crossings
MATLAB Function block
Modeling Discrete Systems Objective:
- Model and simulate discrete systems in Simulink.
- Define discrete states
Create a model of a PI controller
Model discrete transfer functions and state space systems
Model multirate discrete systems
Modeling Continuous Systems:
- Model and simulate continuous systems in Simulink.
- Create a model of a throttle system
Define continuous states
Run simulations and analyze results
Model impact dynamics
Solver Selection: Select a solver that is appropriate for a given Simulink model.
- Solver behavior
System dynamics
Discontinuities
Algebraic loops
Introduction to MAAB (Mathworks® Automotive Advisory Board) - Examples
Introduction to AUTOSAR
AUTOSAR SWCs modeling using Simulink®
Simulink Tool boxes for Automotive systems
Hydraulic cylinder Simulation-Examples
Introduction to SimDrivelin (Clutch Models, Gera Models) (Optional) -Examples
Modeling ABS (Optional ) - Examples
Modeling for Automatic Code Generation - Examples
Model Verification Techniques -Examples
Engine Model (Practical Simulink Model)
Anti-Lock Braking System (Practical Simulink Model)
Engagement Model (Practical Simulink Model)
Suspension System (Practical Simulink Model)
Hydraulic Systems (Practical Simulink Model)
Advanced System Models in Simulink with Stateflow Enhancements
Fault-Tolerant Fuel Control System (Practical Simulink Model)
Automatic Transmission Control (Practical Simulink Model)
Electrohydraulic Servo Control (Practical Simulink Model)
Modeling Stick-Slip Friction (Practical Simulink Model)
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