This paper deals with System Dynamics education at Delft University of Technology, the Netherlands. It focuses more specifically on the quadruple jump approach towards dealing with real-world dynamic complexity. The paper starts with an overview of the System Dynamics courses, situated within the broader curriculum. Then recent innovations in the Introductory System Dynamics course are discussed. Finally, some of the lessons learned are distilled. The rationale behind this paper are the beliefs that (higher) education determines to a large extent the quality of (the next generation) professional System Dynamics modellers, and hence, the field of System Dynamics as a whole, and that sharing (innovative and/or proven) educational practices, a...
System dynamics-based interactive learning environments (ILEs) have been developed to address shortc...
Educational programs leading to degrees in system dynamics are rare and thus of critical importance ...
System Dynamics (SD) and Discrete Event Simulation (DES) follow two quite different modeling philoso...
There is little consensus on the skills set required of a system dynamics practitioner. In this pape...
This follow-up paper presents several actual cases for testing and teaching System Dynamics. The cas...
This paper describes lessons learned while teaching Advanced System Dynamics, at the Faculty of Tech...
This paper deals with the use of ‘hot’ real-world cases for both testing and teaching purposes such ...
This follow-up paper presents cases and multiple choice questions for teaching and testing System Dy...
This follow-up paper presents seven actual cases for testing and teaching System Dynamics developed ...
The system dynamics field requires a definition what a modeller needs to know and to be capable of d...
System dynamics (SD) and discrete event simulation (DES) follow two quite different modeling philoso...
The system thinking is the important component of study at the Faculty of Economics and Management, ...
This pdf tutorial covers the basics of systems dynamics and the use of Stella II software. The purpo...
System Dynamics (SD) is a discipline helpful to recognize counterintuitive behaviors. By modeling an...
“Sustainable Development ” is currently a topic of great social relevance and one that requires the ...
System dynamics-based interactive learning environments (ILEs) have been developed to address shortc...
Educational programs leading to degrees in system dynamics are rare and thus of critical importance ...
System Dynamics (SD) and Discrete Event Simulation (DES) follow two quite different modeling philoso...
There is little consensus on the skills set required of a system dynamics practitioner. In this pape...
This follow-up paper presents several actual cases for testing and teaching System Dynamics. The cas...
This paper describes lessons learned while teaching Advanced System Dynamics, at the Faculty of Tech...
This paper deals with the use of ‘hot’ real-world cases for both testing and teaching purposes such ...
This follow-up paper presents cases and multiple choice questions for teaching and testing System Dy...
This follow-up paper presents seven actual cases for testing and teaching System Dynamics developed ...
The system dynamics field requires a definition what a modeller needs to know and to be capable of d...
System dynamics (SD) and discrete event simulation (DES) follow two quite different modeling philoso...
The system thinking is the important component of study at the Faculty of Economics and Management, ...
This pdf tutorial covers the basics of systems dynamics and the use of Stella II software. The purpo...
System Dynamics (SD) is a discipline helpful to recognize counterintuitive behaviors. By modeling an...
“Sustainable Development ” is currently a topic of great social relevance and one that requires the ...
System dynamics-based interactive learning environments (ILEs) have been developed to address shortc...
Educational programs leading to degrees in system dynamics are rare and thus of critical importance ...
System Dynamics (SD) and Discrete Event Simulation (DES) follow two quite different modeling philoso...