Detail publikace

Real-Time Communication between MATLAB/Simulink and PLC via Process Visualization Interface

Originální název

Real-Time Communication between MATLAB/Simulink and PLC via Process Visualization Interface

Anglický název

Real-Time Communication between MATLAB/Simulink and PLC via Process Visualization Interface

Jazyk

en

Originální abstrakt

This paper shows real-time implementation of control algorithms from a simulation environment into the Programmable Logic Controller (PLC). Development of control algorithms is necessary for their use in a simulation environment and verification on simulation models. The real control system should be connected to the simulation environment with a PLC to test the control algorithms on a real physical model. In this case the PLC is used only as an IO device and all computations are performed in the simulation environment - MATLAB/Simulink. This connection is ensured via a general process visualization interface, which can transmit a data via different communication protocols: Ethernet, RS232, CAN or ProfiBus. Finally, the control algorithm should be implemented into the PLC and MATLAB/Simulink can be used for monitoring of the process input, output or others parameters. All implementation steps are shown on one of advanced control algorithms - the Generalized Predictive Control.

Anglický abstrakt

This paper shows real-time implementation of control algorithms from a simulation environment into the Programmable Logic Controller (PLC). Development of control algorithms is necessary for their use in a simulation environment and verification on simulation models. The real control system should be connected to the simulation environment with a PLC to test the control algorithms on a real physical model. In this case the PLC is used only as an IO device and all computations are performed in the simulation environment - MATLAB/Simulink. This connection is ensured via a general process visualization interface, which can transmit a data via different communication protocols: Ethernet, RS232, CAN or ProfiBus. Finally, the control algorithm should be implemented into the PLC and MATLAB/Simulink can be used for monitoring of the process input, output or others parameters. All implementation steps are shown on one of advanced control algorithms - the Generalized Predictive Control.

BibTex


@inproceedings{BUT22654,
  author="Petr {Pivoňka} and Vojtěch {Mikšánek}",
  title="Real-Time Communication between MATLAB/Simulink and PLC via Process Visualization Interface",
  annote="This paper shows real-time implementation of control algorithms from a simulation environment into the Programmable Logic Controller (PLC). Development of control algorithms is necessary for their use in a simulation environment and verification on simulation models. The real control system should be connected to the simulation environment with a PLC to test the control algorithms on a real physical model. In this case the PLC is used only as an IO device and all computations are performed in the simulation environment - MATLAB/Simulink. This connection is ensured via a general process visualization interface, which can transmit a data via different communication protocols: Ethernet, RS232, CAN or ProfiBus. Finally, the control algorithm should be implemented into the PLC and MATLAB/Simulink can be used for monitoring of the process input, output or others parameters. All implementation steps are shown on one of advanced control algorithms - the Generalized Predictive Control.",
  booktitle="VOLUME 2 of the Proceedings of the 11th WSEAS International Multiconference CSCC",
  chapter="22654",
  year="2007",
  month="july",
  pages="28--32",
  type="conference paper"
}