G54SIM (Spring 2014) - Nottinghampszps/g54sim/2014/documents... · G54SIM (Spring 2014) Lecture 06...
Transcript of G54SIM (Spring 2014) - Nottinghampszps/g54sim/2014/documents... · G54SIM (Spring 2014) Lecture 06...
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G54SIM (Spring 2014)
Lecture 06
Simulation Methods: System Dynamics Simulation
Peer-Olaf Siebers
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Motivation
• Introduce the concepts of – Systems Thinking
– System Dynamics
• Provide some insight into the design of SD simulation models – Patterns of Behaviour
– Feedback and Causal Loop Diagrams
– Stock and Flow Diagrams
• Provide some ideas for application opportunities of SD and hybrid SD/AB simulation models
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Reminder: Simulation Paradigms
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Systems Thinking
• We are quick problem solvers. We quickly determine a cause for any event that we think is a problem. Usually we conclude that the cause is another event. – Example: Sales are poor (event) because staff are insufficient
motivated (cause); staff are insufficient motivated (event) because ...
• Difficulty: You can always find yet another event that caused the one that you thought was the cause. This makes it very difficult to determine what to do to improve performance.
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Systems Thinking
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Systems Thinking
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Systems Thinking
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Systems Thinking
• Idea of Systems Thinking: – Move away from looking at isolated events and their causes
– Look at the organisation as a system made up of interacting parts
– Internal structure of the system is often more important than external events in generating the problem
– If we shift from the event orientation to focussing on the internal system structure we improve our possibility of improving system performance as the system structure is often the underlying source of the difficulty.
• Systems Thinking: The process of understanding how things influence one another within a whole. [Wikipedia]
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• System Dynamics (SD): An approach to understanding the behaviour of complex systems over time. It deals with internal feedback loops and time delays that affect the behaviour of the entire system. [Wikipedia]
– The basis of the methodology is the recognition that the structure of any system (relationships amongst its components) is just as important in determining its behaviour as the individual components themselves.
– It is mostly used in long-term, strategic models and assumes high level of aggregation of the objects being modelled.
– The range of applications includes business, urban, social, ecological types of systems.
System Dynamics
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System Dynamics
• Norbert Wiener (1940s) studied how biological, engineering, social, and economic systems are controlled and regulated ... Cybernetics
• Jay Forrester (1950s) applied the principles of Cybernetics to industrial systems ... Industrial Dynamics
• John Collins (1970s) and John Sterman (1980s) applied the principles of Industrial Dynamics to urban, business, social, and ecological types of systems ... System Dynamics
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System Dynamics
• Model representations – Causal loop diagrams (qualitative)
– Stock and Flow diagrams (quantitative)
• Example: Simple causal loop diagram of food intake [Morecroft 2007]
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if cause increases ... effect decreases
(above what it would otherwise have been)
if cause increases ... effect increases
(above what it would otherwise have been)
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How to build SD simulation models
• System Dynamics Simulation Project Life Cycle – Dynamic Hypothesis: Preliminary
sketch by the modeller of the main interactions and feedback loops that could explain observed or anticipated performance
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[Morecroft 2007 (after Sterman 2000)]
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How to build SD simulation models
• Conceptualisation – Define the purpose of the model
– Define the model boundaries and identify key variables
– Describe the behaviour of the key variables
– Diagram the basic mechanisms (feedback loops) of the system
• Formulation – Convert diagrams to stock and flow equations
– Estimate and select parameter values
– Create the simulation model
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How to build SD simulation models
• Testing – Test the dynamic hypothesis (the potential explanation of how
structure is causing observed behaviour)
– Test model behaviour and sensitivity to perturbations
• Implementation – Test model's responses to different policies
– Translate study insight to an accessible form
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Patterns of Behaviour
• Generalise from the specific events to consider patterns of behaviour that characterise the situation
• Once we have identified a pattern of behaviour that is a problem, we can look for the system structure that is known to cause this pattern
• By finding and modifying this system structure you have the possibility to permanently eliminate the problem pattern of behaviour.
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Patterns of Behaviour
• Common patterns that show up either individually or combined
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Feedback and Causal Loop Diagrams
• Notation for presenting system structures – Short descriptive phrases
represent the elements which make up the sector.
– Arrows represent causal influences between these elements
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Feedback
structure of a
basic production
sector
... directly influenced by ...
... influences ...
... directly influenced by ...
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Feedback and Causal Loop Diagrams
• Feedback loop or causal loop: Element of a system indirectly influences itself
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Feedback and Causal Loop Diagrams
• Causal link – Causal link from element A to B is positive (+ or s) if either A adds to B
or a change in A produces a change in B in the same direction
– Causal link from element A to B is negative (- or o) if either A subtracts from B or a change in A produces a change in B in the opposite direction
• Feedback loop – A feedback loop is positive (+ or R) if it contains an even number of
negative causal links
– A feedback loop is negative (- or B) if it contains an uneven number of negative causal links
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s=same; o=opposite; R=reinforcing; B=balancing
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Feedback and Causal Loop Diagrams
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Feedback and Causal Loop Diagrams
• Self regulating biosphere
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Sunshine
EvaporationAmount of
water on earth
RainClouds
Earth’s
temperature
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Feedback and Causal Loop Diagrams
• Self regulating biosphere
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Sunshine
EvaporationAmount of
water on earth
RainClouds
Earth’s
temperature
+
-
+
+
-
+
+
+
+
-
-
+
-
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Modelling Example
• Aim: Getting a set of open tasks done by a particular deadline – Qualitative analysis: Ask questions ...
• What influences this part?
• Which other parts of the system does this part influence?
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Source: Introduction to System Dynamics with iThink
http://www.youtube.com/watch?v=V3pPQk5Opc8
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Modelling Example
• Aim: Getting a set of open tasks done by a particular deadline – Qualitative analysis: Ask questions ...
• What influences this part?
• Which other parts of the system does this part influence?
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Source: Introduction to System Dynamics with iThink
http://www.youtube.com/watch?v=V3pPQk5Opc8
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Modelling Example
• Aim: Getting a set of open tasks done by a particular deadline – Qualitative analysis: Ask questions ...
• What influences this part?
• Which other parts of the system does this part influence?
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Source: Introduction to System Dynamics with iThink
http://www.youtube.com/watch?v=V3pPQk5Opc8
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Modelling Exercise
• Aim: Reduce road congestion – Consider things like: road construction; highway capacity; pressure to
reduce congestion; attractiveness of driving; trips per day; traffic volume; average trip length; cars per person; public transit fare; desired travel time; cars in region
– Feel free to add your own phrases!
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Modelling Exercise
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[Morecroft 2007]
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System Structures and Patterns of Behaviour
• Positive (reinforcing) feedback loop [e.g. growth of bank balance]
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System Structures and Patterns of Behaviour
• Negative (balancing) feedback loop [e.g. electric blanket]
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System Structures and Patterns of Behaviour
• Negative feedback loop with delay [e.g. service quality]
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System Structures and Patterns of Behaviour
• Combination of positive and negative loop [e.g. sales growth]
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Stock and Flow Diagrams
• Example: Advertising for a durable good
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-
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Stock and Flow Diagrams
• Stock and flow diagram: – Shows relationships among variables which have the potential to
change over time (like causal loop diagrams)
– Distinguishes between different types of variables (unlike causal loop diagrams)
• Basic notation: – Stock (level, accumulation, or state variable) {Symbol: Box}
• Accumulation of "something" over time
• Value of stock changes by accumulating or integrating flows
• Physical entities which can accumulate and move around (e.g. materials, personnel, capital equipment, orders, stocks of money)
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Stock and Flow Diagrams
• Basic notation (cont.) – Flow (rate, activity, movement) {Symbol: valve}
• Flow or movement of the "something" from one stock to another
• The value of a flow is dependent on the stocks in a system along with exogenous influences
– Information {Symbol: curved arrow}
• Between a stock and a flow: Indicates that information about a stock influences a flow
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Stock and Flow Diagrams
• Additional notation – Auxiliary {Symbol: Circle}
• Arise when the formulation of a stock’s influence on a flow involves one or more intermediate calculations
• Often useful in formulating complex flow equations
– Source and Sink {Symbol: Cloud}
• Source represents systems of stocks and flows outside the boundary of the model
• Sink is where flows terminate outside the system
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Stock and Flow Diagrams
• Growth of population through birth – Find the causal links and feedback loops
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Births ChildrenChildren maturing
AdultsAdults
maturing
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Stock and Flow Diagrams
• Growth of population through birth
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Births ChildrenChildren maturing
AdultsAdults
maturing
+ + + +
-+
-
+
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System Dynamics Simulation
• Computation behind the System Dynamics simulation – Time slicing
• At each time point ...
– Compute new stock levels at time point
– Compute new flow rates after the stocks have been updated (flow rate held constant over dt)
– Move clock forward to next time point
– The software must apply numerical methods to solve the integrations
• Integration errors
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• Back to the advertising example ... – Can our stock and flow diagram below help us answering the question:
How will the number of potential customers vary with time?
– We need to consider the quantitative features of the process
• Initial number of potential and actual customers
• Specific way in which sales flow depends on potential customers
System Dynamics Simulation
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No!
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System Dynamics Simulation
• Simplifying assumptions – Aggregate approach is sufficient
– Flows within processes are continuous
– Flows do not have a random component
• Analogy: Plumbing system – Stocks are tanks full of liquid
– Flows are pumps that control the flow between the tanks
• To completely specify the process model – Initial value of each stock + equation for each flow
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System Dynamics Simulation
• Number of potential customers at any time t
• Number of actual customers at any time t
• Many possible flow equations! It is up to the modeller to choose a realistic one
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System Dynamics Simulation
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• Bass Diffusion (simple) [see tutorial in AnyLogic Help]
Advertising Effectiveness: 0.011; Total Population: 10,000; Adoption Fraction: 0.015; Contact Rate: 100; Model Runtime: 10
AdoptionFromAd = PotentialAdopters * AdEffectiveness;
AdoptionFromWOM = Adopters * ContactRate * AdoptionFraction * PotentialAdopters / TotalPopulation
AdoptionRate = AdoptionFromAd + AdoptionFromWOM
Automatically created by AnyLogic:
d(PotentialAdopters)/dt = -AdoptionRate
d(Adopters)/dt = AdoptionRate
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System Dynamics Simulation
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System Dynamics Simulation
• Bass Diffusion (+ product consumption) [see tutorial in AnyLogic Help]
ProductLifeTime = 2
DiscardRate = delay(AdoptionRate, ProductLifeTime)
Automatically created by AnyLogic:
d(PotentialAdopters)/dt = DiscardRate - AdoptionRate
d(Adopters)/dt = AdoptionRate - DiscardRate
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Multi-Method Simulation (SD+ABS)
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Further Reading & Acknowledgement
• Further reading: – Kirkwood (1998) System Dynamics Methods: A Quick Introduction
– Morecroft (2007) Strategic Modelling and Business Dynamics
– Sterman (2000) Business Dynamics: Systems Thinking and Modeling for a Complex World (all simulation models in this book are available as AnyLogic sample models - see AnyLogic Help)
– Proceedings of the International System Dynamics Conference
– VenSim User's Guide
• Acknowledgement: – Slides are based on Kirkwood (1998) and Fishwick (2011)
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Comments or Questions?
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References
• Fishwick P (2011) CAP4800/5805 Computer Simulation: System Dynamics Lecture Slides (http://www.cise.ufl.edu/~fishwick/cap4800/sd1.ppt)
• Kirkwood CW (1998) System Dynamics Methods: A Quick Introduction (http://www.public.asu.edu/~kirkwood/sysdyn/SDIntro/SDIntro.htm)
• Morecroft JD (2007) Strategic Modelling and Business Dynamics. Wiley, Chichester, UK.
• Proceedings of the International System Dynamics Conference (1983-2012) (http://conference.systemdynamics.org/past_conference/)
• Sterman JD (2000) Business Dynamics: Systems Thinking and Modeling for a Complex World. McGraw Hill, Boston, USA.
• VenSim User's Guide (http://www.vensim.com/ffiles/VensimUsersGuide.zip)
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