| State Machine - Stateflow - Simulink |
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Stateflow® is an environment for modeling and simulating combinatorial and sequential decision logic based on state machines and flow charts. Use Stateflow to design logic for supervisory control, task scheduling, and fault management applications.
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| Mécatronique |
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Découvrez comment optimiser grâce à la mécatronique la conception, la modélisation et la simulation de systèmes complexes (vidéos, exemples…)
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| Model Based Testing |
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Model-based testing lets you generate test cases from models of system behavior. Learn more through videos, examples, and webinars.
Submitted: September 27, 2012
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| Simulink Target Hardware |
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Simulink targets are low-cost hardware solutions, including LEGO MINDSTORMS NXT and BeagleBoard, that useful for prototyping, testing, and running models on hardware directly from Simulink.
Submitted: September 27, 2012
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| Simulink Projects |
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Learn how to use Simulink Projects to manage your project files and connect to source control software. Resources include videos and examples on how teams can collaborate with Model-Based Design.
Submitted: September 27, 2012
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| State Chart |
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Learn how to model state charts with Stateflow. Resources include videos, examples, and documentation covering a general introduction of state charts, design patterns, and other topics.
Submitted: September 27, 2012
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| Queuing Theory |
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Explore Queuing Theory with MATLAB, Statistics Toolbox and SimEvents to answer questions about scheduling, resource allocation and traffic flow. Resources include examples and documentation covering different queuing theory systems, such as an M/M/1 and G/G/1 systems and Little’s Law.
Submitted: March 09, 2012
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| Requirements Traceability |
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Requirements traceability lets you trace your model elements, tests, and code to external requirements. It helps analyze and manage change in your design.
Submitted: Dec 12, 2011
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| Formal Verification |
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Formal verification methods help you confirm your MATLAB and Simulink models, Stateflow charts, and C/C++ code behave correctly.
Submitted: Dec 12, 2011
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| Finite State Machine |
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Learn how to model finite state machines with Stateflow. Resources include videos, examples, and documentation covering a general introduction of finite state machines, design patterns, and other topics.
Submitted: Sep 9, 2011
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| State Diagram |
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Learn how to model state diagrams with Stateflow. Resources include videos, examples, and documentation covering a general introduction of state diagrams, design patterns, and other topics.
Submitted: Sep 9, 2011
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| Control Logic |
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Learn how to model control logic with Stateflow. Resources include videos, examples, and documentation covering a general introduction of control logic, design patterns, and other topics.
Submitted: Sep 9, 2011
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| MathWorks - Simulink Report Generator |
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MATLAB and Simulink Report Generator creates customized reports in multiple output formats from your MATLAB, Simulink, and Stateflow data and models. You can automatically document your large-scale systems, as you create a set of reusable and extensible templates that facilitate the transfer of information across departments.
Submitted: Jul 19, 2002
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| Physical Modeling |
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Accelerate system-level analysis and control design with accurate and intuitive models of your physical system
The design of engineering systems requires tight integration of many engineering disciplines. To be successful, teams of engineers must collaborate using a wide array of diverse technologies. Software, in the form of control algorithms and signal processing algorithms, plays an ever increasing role in these systems. Developing software alongside the physical system results in optimized designs and the detection of errors earlier in the design process.
Submitted: Mar 19, 2008
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| Getting Started with Simulink Demo Video |
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This video demo gets you started with Simulink. It takes you through many key concepts in building and simulating a model. We will build up a model from scratch while taking you through a number of features of Simulink.
Submitted: Apr 14, 2008
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| DUBSI - the Dutchroll Blockset for Simulink |
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The Dutchroll Blockset for Simulink (in short: DUBSI) is a collection of several general-purpose Simulink blocks. The blockset is also available as the blocklibrary BLOCKLIB_MISC of the Flight Dynamics and Control Toolbox; DUBSI is the stand-alone version of that blocklibrary.
Submitted: Dec 18, 2007
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| Model-Based Design |
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Model-Based Design ist ein effizienter und kostengünstiger Weg um Embedded Systeme zu entwickeln.
Submitted: Dec 18, 2007
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