Detail publikace

SAMD - a program for mechatronic drive symbolic analyses

KALOUS, J. KOLKA, Z. BIOLEK, D.

Originální název

SAMD - a program for mechatronic drive symbolic analyses

Anglický název

SAMD - a program for mechatronic drive symbolic analyses

Jazyk

en

Originální abstrakt

An implementation of multi-domain symbolic analysis in a new program SAMD (Symbolic Analysis of Mechatronic Drives) is described and analyzed. The code is developed with the aim to analyze linear and linearized hybrid systems which combine classical electrical and electronic circuits, controllers, electro-mechanical converters and mechanical parts of mechatronic drives. The system to be analyzed can comprise both the single elements and more complex blocks. All submodels of individual components are stored and at disposal in an easily extensible program library. Implemented algorithms for symbolic simplification also allow analyzing larger systems.

Anglický abstrakt

An implementation of multi-domain symbolic analysis in a new program SAMD (Symbolic Analysis of Mechatronic Drives) is described and analyzed. The code is developed with the aim to analyze linear and linearized hybrid systems which combine classical electrical and electronic circuits, controllers, electro-mechanical converters and mechanical parts of mechatronic drives. The system to be analyzed can comprise both the single elements and more complex blocks. All submodels of individual components are stored and at disposal in an easily extensible program library. Implemented algorithms for symbolic simplification also allow analyzing larger systems.

Dokumenty

BibTex


@article{BUT96593,
  author="Jaroslav {Kalous} and Zdeněk {Kolka} and Dalibor {Biolek}",
  title="SAMD - a program for mechatronic drive symbolic analyses",
  annote="An implementation of multi-domain symbolic analysis in a new program SAMD (Symbolic Analysis of Mechatronic Drives) is described and analyzed. The code is developed with the aim to analyze linear and linearized hybrid systems which combine classical electrical and electronic circuits, controllers, electro-mechanical converters and mechanical parts of mechatronic drives. The system to be analyzed can comprise both the single elements and more complex blocks. All submodels of individual components are stored and at disposal in an easily extensible program library. Implemented algorithms for symbolic simplification also allow analyzing larger systems.",
  address="AV ČR",
  chapter="96593",
  institution="AV ČR",
  number="4",
  volume="56",
  year="2011",
  month="december",
  pages="403--418",
  publisher="AV ČR",
  type="journal article - other"
}