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--- en:iot-reloaded:systems_thinking_and_design_of_iot_systems [2025/05/13 10:35] – [Systems Thinking in IoT Design Methodologies] pczekalski
+++ en:iot-reloaded:systems_thinking_and_design_of_iot_systems [2025/05/13 14:08] (current) – [System Dynamics Modeling for IoT Systems] pczekalski
@@ Line 314: / Line 314: @@
 ===== System Dynamics Modeling for IoT Systems =====
-System dynamics is a practical application of Systems Thinking, originally developed at MIT in the 1950s. It provides a framework for understanding and modelling the complex behaviour of systems by emphasising the interconnections, feedback loops, and time delays inherent in such systems. Practitioners and researchers in system dynamics employ various modelling and simulation tools to explore the implications of hypothesised causal relationships and understand system dynamics over time. Sample closed-loop system dynamics modelling methodology is present in figure {{ref>iotsdmcl1}}.
+System dynamics is a practical application of Systems Thinking, originally developed at MIT in the 1950s. It provides a framework for understanding and modelling the complex behaviour of systems by emphasising the interconnections, feedback loops, and time delays inherent in such systems. Practitioners and researchers in system dynamics employ various modelling and simulation tools to explore the implications of hypothesised causal relationships and understand system dynamics over time. A sample closed-loop system dynamics modelling methodology is present in figure {{ref>iotsdmcl1}}.
 <figure iotsdmcl1>
 {{ :en:iot-reloaded:iot_system_design-page-8.png?600 |Closed-loop System Dynamics Modelling Methodology}}
 <caption>Closed-loop System Dynamics Modelling Methodology</caption>
@@ Line 358: / Line 358: @@
   * Battery Energy Systems: Energy content changes during charging and discharging cycles.
   * Information Spread: The "population" of users influenced by fake news or disinformation over time.
-  * Stock changes: Changes of stocks in IoT-controlled production or industrial systems, e.g., changes in liquid level in IoT-controlled industrial system.
+  * Stock changes: Changes of stocks in an IoT-controlled production or industrial systems, e.g., changes in liquid level in an IoT-controlled industrial system.
 **2. Causal Structures:**\\

en/iot-reloaded/systems_thinking_and_design_of_iot_systems.1747132557.txt.gz · Last modified: 2025/05/13 10:35 by pczekalski