Vídeos

  • Design and simulate state charts using Stateflow ® .
  • Build and simulate a state machine.
  • Model state machines using the tabular interface in Stateflow ® .
  • Model asynchronous interaction between state machines using messages in Stateflow ® .
  • Debug state machines using breakpoints, data tips and stepping buttons in Stateflow ® .
  • Output state machine activity from Stateflow ® using automatically created enumerations.
  • Use time-based and condition-based logic to schedule Simulink ® functions.
  • Create and reuse components in Stateflow for large-scale modeling.
  • Regulate the temperature of a plant using a logic controller.
  • Model search and lock algorithm of a digital receiver using state machines.
  • Model a digital receiver that synchronizes to the time code information broadcast by a radio station.
  • Learn the basics of state machines in this MATLAB ® Tech Talk by Will Campbell.
  • Learn how state machines help you compartmentalize large designs in this MATLAB ® Tech Talk by Will Campbell.
  • Learn the primary characteristics of Mealy and Moore state machines in this MATLAB ® Tech Talk by Will Campbell.
  • Learn the primary characteristics of Harel state machines in this MATLAB ® Tech Talk by Will Campbell.
  • Model an automatic transmission using gears and clutches from Simscape Driveline™. The control logic is modeled as a state machine in Stateflow ® .
  • Develop an automotive powertrain controller using Model-Based Design.
  • Develop Logic for a launch abort system that will send an aircraft back to Earth if an anomaly or fault occurs during the launch.
  • Model the fault management system of an automatic landing system for the HL-20, a spacecraft based on a specification from NASA.