Applications
Use state machines in different industries and applications
Explore examples that illustrate how to model and simulate decision logic for specific industries and applications.
Topics
Supervisory Logic
- Model Launch Abort System
Model a launch abort system for an orbiter. - Implement an Automatic Transmission Gear System That Controls Transient Signals
Use debouncing logic to filter out transient signals that do not represent a true change of state. - Developing the Apollo Lunar Module Digital Autopilot (Simulink)
"Working on the design of the Lunar Module digital autopilot was the highlight of my career as an engineer. - Model a Wind Turbine Supervisory Control System
Model a safety control system for a wind turbine. - Model a Car with Automatic Transmission
Use a Stateflow chart to model the automatic transmission of a car.
Task Scheduling
- Scheduling Subsystems in Stateflow
Execute function-call subsystems by using Stateflow® logic. - Implement Distributed Control in a Flexible Manufacturing System
Use atomic subcharts, masks, and parameters to reuse logic in a model of a pick-and-place manufacturing system.
Fault Detection, Isolation, and Recovery
- Detect and Isolate Faults in an Aircraft Elevator Control System
Design a fault detection, isolation, and recovery (FDIR) application for a pair of aircraft elevators controlled by redundant actuators. - Model Fault-Tolerant Fuel Control System
Combine Stateflow and Simulink® to model hybrid systems.
Battery Management
- Battery Management System
Model a system to manage battery SOC, detect faults, and balance battery cells. - Model Battery Management with Custom Code
Use custom code to design a system for battery management.
Energy Management
- Building Climate Control
Model a building climate control system with Stateflow. - Vehicle Climate Control System
Use events to control the climate of a vehicle.
Communication Network Applications
- Model an Ethernet Communication Network with CSMA/CD Protocol
Model a collection of computers that communicate through an Ethernet communication network. - Design Microcontroller Using the I2C Communication Protocol
Design, implement, and test a microcontroller driver using the I2C communication protocol. - Detect Valid Transmission Data by Using Frame Synchronization
Use vectors of complex data to find a fixed pattern in a signal from a communication system. - Build Low-Pass Filter by Using Fixed-Point Data
Model a low-pass Butterworth filter that uses fixed-point arithmetic.
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