Any successful company must react quickly to changing trends in the market. New products should be designed and manufactured quicker and cheaper than counter partners do. A shorter design time provides a distinct competitive advantage. The paper describes two approaches towards designing interdisciplinary mechatronic systems: the first is visual modelling with the UML, the second is physical modelling with Modelica.
@article{bwmeta1.element.bwnjournal-article-amcv13i2p255bwm, author = {Mrozek, Zbigniew}, title = {Computer aided design of mechatronic systems}, journal = {International Journal of Applied Mathematics and Computer Science}, volume = {13}, year = {2003}, pages = {255-267}, zbl = {1175.93155}, language = {en}, url = {http://dml.mathdoc.fr/item/bwmeta1.element.bwnjournal-article-amcv13i2p255bwm} }
Mrozek, Zbigniew. Computer aided design of mechatronic systems. International Journal of Applied Mathematics and Computer Science, Tome 13 (2003) pp. 255-267. http://gdmltest.u-ga.fr/item/bwmeta1.element.bwnjournal-article-amcv13i2p255bwm/
[000] Astrom K.J, Elmqvist H. and Mattson S.V. (1998): Evolution of continuous-time modelling and simulation. - Proc. 12-th European Simulation Multiconf. ESM'98, Manchester, UK, pp. 9-18.
[001] Booch G., Rumbaugh J. and Jacobson I. (1999): The Unified Modelling Language User Guide. - Addison Wesley.
[002] Bowles P., Tiller M., Elmqvist H., Bruck D., Mattsson S.E., Moller A., Olsson A. and Otter M. (2001): Feasibility of detailed vehicle modeling. - Proc. SAE World Congress, Detroit, paper No. 01P-321.
[003] Bruegge B. and Dutoit A. (1999): Object-Oriented Software Engineering: Conquering Complex and Changing Systems. - Prentice-Hall.
[004] Bunus P., Engelson V. and Fritzson P. (2002): Mechanical Models Translation, Simulation and Visualization in Modelica. -Proc. 2nd Int. Modelica Conf., DLR, Oberpfaffenhofen, Germany, pp. 199-208.
[005] Claus C. and Beater P. (2002): Multidomain systems: Electronic, hydraulic, and mechanical subsystems of a universal testing machine modelled with modelica. - Proc. 2nd Int. Modelica Conf., DLR, Oberpfaffenhofen, Germany, pp. 25-30.
[006] Douglas B.P. (1998a): Designing Real-time Systems with UML, Part I-III. - Embedded Systems, No. 03-05, available at: http://www.embedded.com.
[007] Douglas B.P. (1998b): Real-time UML: Developing Efficient Objects for Embedded Systems. - Reading, MA: Addison Wesley.
[008] Dymola (2003): Dynamic Modelling Laboratory. - Available at http://www.dynasim.se
[009] Elmqvist H., Mattsson S.E. and Otter M. (1998): Modelica-the new object-oriented modeling language. - Proc. 12th Europ. Simulation Multiconf. ESM'98, Manchester, UK, pp. I-X.
[010] Elmqvist H., Mattsson S.E. and Otter M. (2001): Object-oriented and hybrid modeling in modelica. -J. Europeen des Systèmes Automatises, Vol. 35, No. 1, pp. 127-131.
[011] Felgner F., Agustina S., Cladera Bohigas R., Merz R. and Litz L. (2002): Simulation of thermal building behaviour inmodelica. - Proc. 2nd Int. Modelica Conf., DLR, , Oberpfaffenhofen, Germany, pp. 147-154.
[012] Ferreira J.A., de Oliveira J.E. Costa, V.A. (1999): Modeling of hydraulic systems for hardware-in-the-loop simulation: A methodology proposal. - Proc. Int. Mechanical Eng. Congress and Exposition, Nashville, USA, Vol. 6, p. 33.
[013] Gawrysiak M. (2002): Stages of mechatronic design according to R. Isermann. - Proc. Workshop on Mechatronic Design, Cracow, pp. 7-15, (in Polish).
[014] MATLAB, SIMULINK, STATEFLOW (2003): Real Time Workshop. - Available at http://www.mathworks.com
[015] McLaughlin M.J. and Moore A. (1998): Real-timeextensions to UML, timing, concurrency, and hardware interfaces. - Dr. Dobb's J., No. 12, pp. 7-15.
[016] Modelica®(2003): A unified object-oriented language for physical systems modeling, language specification, version 2.0. - Available at http://www.Modelica.org
[017] Mrozek B. and Mrozek Z. (2001): MATLAB 6, User's Guide. - Warsaw: Wydawnictwo PLJ, (in Polish).
[018] Mrozek Z. (2002a): Computer-aided design of mechatronic systems. - Sci. Fasc., Cracow Univ. of Technol., Series: Electrical and Computer Eng., No. 1, (in Polish).
[019] Mrozek Z. (2002b): Design of the mechatronic system with help of UML diagrams. - Proc. 3-rd Workshop Robot Motion and Control, Bukowy Dworek, Poland, pp. 243-248.
[020] Mrozek Z. (2002c): Methodology of using UML in mechatronic design. - Pomiary Automatyka Kontrola, No. 1, pp. 25-28, (in Polish).
[021] Mrozek Z., Mrozek B., Adjei O. (2002): Teaching object oriented software engineering with UML. - Proc. 13-th Ann. Conf. Innovations in Education for Electrical and Information Eng., York, (in English).
[022] OMG Unified Modeling Language Specification v.1.4, (and other OMG documents), Available at http://www.omg.org, 2003.
[023] Petko M. (2002): Implementation of control systems in ASIC/FPGA circuits. - Pomiary Automatyka Kontrola, No. 1, pp. 18-21.
[024] Rational Rose (2003): Rational Rose RT (and other software from Rational Software Corporation), Available at http://www.rational.com, 2003.
[025] Real-time Studio (2003): ARTiSAN Software Tools, Inc., Available at http://www.artisansw.com, 2003.
[026] Schlegel C., Bross M., Beater P. (2002): HIL-Simulation of the hydraulics and mechanics of an automatic gearbox. - Proc. 2nd Int. Modelica Conf., DLR, Oberpfaffenhofen, Germany, pp. 67-76.
[027] Sinha R., Paredis C.J. and Khosla P.K. (2000): Integration of mechanical CAD and behavioral modeling. - Proc.Int. Workshop Behavioral Modeling and Simulation, Orlando, Florida, pp. 31-36.
[028] Steinmann W.D. and Zunft S. (2002): A library for modelica applications in technical thermodynamics. - Proc. 2nd Int. Modelica Conf., DLR, Oberpfaffenhofen, Germany, pp. 217-224.
[029] Torrey D.A. and Selamogullari U.S. (2002): Modelica implementation of field-oriented controlled 3-phase induction machine drive. - Proc. 2nd Int. Modelica Conf., DLR, Oberpfaffenhofen, Germany, pp. 173-182.
[030] Uhl T. (2002): A system of computer-aided mechatronic design. - Pomiary Automatyka Kontrola, No. 1, pp. 14-17, (in Polish).
[031] Uhl T., Bojko T., Mrozek Z. and Szwabowski W. (2000): Rapid prototyping of mechatronic systems. - J. Theoret. Appl. Mech., Vol. 38, No. 3, pp. 655-668.
[032] Uhl T., Bojko T., Mrozek Z., Petko M., Szwabowski W., Korendo Z. and Bogacz M. (1999): Selected problems of mechatronic design. - Techn. Report 7T07B 01414, Chair of Robotics and Machine Dynamics, Acad. Mining and Metallurgy, Cracow, (in Polish).
[033] Uhl T., Mrozek Z. and Petko M. (2000): Rapid control prototyping for flexible arm. - Prepr. 1st IFAC Conf. Mechatronic Systems, Darmstadt, Vol. II, pp. 489-494.
[034] Uhl T., Bojko T. and Mrozek Z. (1999): Mechatronic approach towards designing and implementing of control systems. - Proc. 1st Workshop Robot Motion and Control, Poznań, Poland, pp. 135-140.
[035] Uhl T., Bojko T., Mrozek Z. and Szwabowski W. (1998): Control of a flexible robot arm - fast prototyping and implementation. - Proc. 1st Nat. Workshop Rapid Prototyping Methods, Acad. Mining and Metallurgy, Cracow.
[036] Uhl T. and Śliwa Z. (1996): Selected topics in CAD/CAM systems and their applications. - Cracow Centre for Advanced Training in Information Technology, CCATIE, Cracow.
[037] UML for Real Time System Design, ISG 1998, available at://http: www.isg.de/people/marc/UmlDocCollection/UMLFrReal-TimeSystemsDesign/umlrt.html