Computer Modeling and Simulation of Dynamic Systems Using Wolfram SystemModeler

This book briefly discusses the main provisions of the theory of modeling. It also describes in detail the methodology for constructing computer models of dynamic systems using the Wolfram visual modeling environment, SystemModeler, and provides illustrative examples of solving problems of mechanics and hydraulics. Intended for students and professionals in the field, the book also serves as a supplement to university courses in modeling and simulation of dynamic systems.

Presents the methodology for constructing computer models of dynamic systems using the Wolfram visual modeling environment Supplements university courses in modeling and simulation of dynamic systems Is useful for students and professionals in the field interested in issues of modeling dynamic systems

Auteur

Kirill Rozhdestvensky works at the SMTU since 1969, and is the Director of International Affairs Department, Professor, Doctor of Technical Sciences, Chartered Engineer, Fellow of the Institute of Marine Engineering, Science & Technology (IMarEST, London), Honorary President of the IMarEST, Honored Scientist of the Russian Federation, Professor of the Department of Applied Mathematics andMathematical Modeling, , Vice-Rector for International Cooperation in Science & Education. He is an author of more than 100 publications, mostly in the field of mathematical modeling. He received Denny Gold Medal from the Institute of Marine Engineering, Science & Technology, London, in 1998. He is a Chairman of the Academic Degree Councils. He worked as a Visiting Professor in USA (Virginia Tech), France (Ecole Centrale de Nantes), Italy (University of Palermo), China (Shipbuilding Industry Corporation), Germany (University of Harburg-Hamburg), etc.

VladimirRyzhov works at the SMTU since 1984, and is an Head of Applied Math & Math Modeling Department, Director of 'e-Learning, Science & Technology Center', Professor, Doctor of Technical Sciences. His teaching background is engaged in developing innovative methods and models of training on subjects of the department with a special focus on e-learning courses. He developed methods of knowledge testing for research engineering disciplines. He has extensive experience in educational (academic and corporative) and research projects management. He trains Ph.D. students in fluid mechanics. He is a member of the Academic Degree Councils, and has a large experience in Ph.D. thesis quality assessment. He is an author of more than 100 scientific publications. He was the coordinator of international projects (TEMPUS, ERASMUS programs).

Tatyana Fedorova works at the SMTU since 1994, is an Associate Professor of the Department of Applied Mathematics and Mathematical Modeling, and holds Ph.D. in theoretical physics. The area of her research experience lies in the field of many-body interactions in complex systems. She teaches a wide range of disciplines at graduate and postgraduate levels. She has a special interest in developing e-learning courses of theoretical orientation. She is involved in graduate and postgraduate student supervision in the fields of mathematical and computer modeling. She is an author of 25 articles. She has extensive experience in teamwork and international cooperation.

Kirill Safronov works at the SMTU since 2015, and is an Assistant Professor of Applied Mathematics and Mathematical Modeling Department. He has held the position of an Assistant Professor. He is engaged in developing innovative methods and models of teaching on mathematical subjects. He has work experience in the primary field of the department (he works for Wärtsila Ltd as a Modeling Engineer). He is a developer of syllabi of thepractice-oriented computer modeling and simulation courses.

Nikita Tryaskin works at the SMTU since 2010, and is an Associate Professor of the Department of Hydromechanics and Marine Acoustics, and Head of Laboratory of Applied Hydromechanics. He holds Ph.D. in Ship Theory and Structural Mechanics. He has a wide experience in fluid mechanics and CFD. Since 2018, he is lecturing for CFD course at Zhejiang Ocean University. He has been participating in international program with Bureau Veritas, France. He is an author of 10 scientific publications.

Professor Ir. Dr. Shaharin Anwar Sulaiman serves the Department of Mechanical Engineering at Universiti Teknologi PETRONAS. He holds a B.Sc., M.Sc., and Ph.D. in Mechanical Engineering from the USA and the UK. He was a Mechanical & Electrical (M&E) Engineer in YTL Construction prior to joining the academics in 1998. His research interests include air-conditioning, biomass energy, solar photovoltaic, combustion, and flow assurance. He published a few books: Engineers in Society (2010), Gas District Cooling in Malaysia (2011), Downdraft Gasification of Oil Palm Frond (2012), and Energy Efficiency Improvements: Miscellanea (2014). He was also UTP's Director of Mission-Oriented Research (MOR) for Hybrid Energy Systems in UTP from 2009 to 2017.

Mark Ovinis is a Senior Lecturer at the Mechanical Engineering Department, Universiti Teknologi PETRONAS. His current research areas are in underwater vehicles and machine vision. He received his Ph.D. from Loughborough University, UK. He earned his master's degree in Mechanical Engineering from Texas A&M University, USA, and a bachelor's degree in Mechanical Engineering from Universiti Teknologi Malaysia. He is a graduate member of the Board of Engineers Malaysia and the Institution of Engineers, Malaysia. He is also a reviewer for many conferences and journals and has published more than 50 publications, which include conference proceedings and indexed journals. He has secured several research national and international grants, as well as graduated 3 Ph.D. students.

Associate Professor Ir. Dr. Suhaimi Hassan graduated in 1989 with B.Sc. in Mechanical Engineering from Universiti Teknologi Malaysia. He obtained his M.Sc. degree in Automotive Systems Engineering from Loughborough University, UK, in 2001 and Ph.D. in Mechanical Engineering from Universiti Sains Malaysia in 2011. He joined Universiti Teknologi PETRONAS in 2000. During his early years as a graduate, he worked as Mechanical Engineer in the palm oil mill industry, agricultural field industry, and consultant firm management for about 10 years. His research interests include biomass gasification, alternative energy, energy auditing and recovery, internal combustion engine and boiler operation and maintenance. He is a qualified Steam Engineer since 1991 with the Department of Occupational Safety and Health Malaysia, a Professional Engineer with Board of Engineers Malaysia, a Chartered Engineer with Engineering Council of UK, a member of the Institute of Engineers, Malaysia, a member of Energy Institute, UK, and a full member of Malaysian Steam and Internal Combustion Engineer Association (MSIEA).

Contenu
Foreword.- Chapter 1. Basic concepts of modeling.- Chapter 2. Wolfram SystemModeler environment description.- Chapter 3. Computer simulation of dynamic systems.- Chapter 4. Modeling of mechanical oscillatory systems with one degree of freedom. Examples.- Chapter 5. Modeling of mechanical oscillatory systems with several degrees of freedom. Examples.- Chapter 6. Hierarchical component models. Examples.