Methodology Mathematical Modeling MI 2010.pptiadan/model/modelB/Methodology_Mathematical_… ·...
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Methodology of
Mathematical Modeling
January 2010
A.C.T. Aarts
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Mathematical Models
• Model:
• simplified representation of certain
aspects of a real system
• capturing the essence of that system
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• Mathematical Model:
• using mathematical concepts:
• variables
• operators
• functions
• equations
• inequalitiesMathematics for Industry
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Mathematical Models
• First-Principle Models
based on physical laws (e.g. Newton’s second law)
descriptive, explaining
material parameter values often not known (measurements)
• Stochastic Models
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• Stochastic Models
based on distributions, averages (e.g. risk models)
capable to deal with random phenomena,
hard to distinguish relations
• Empirical/data Models
based on (historical) patterns, data (e.g. Moore’s law)
not explaining, relations based on reality
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Mathematical Modeling
Mathematical
Modeling
• Metaphor
• Non-uniqueness
• Outcome
• Skills
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Metaphor
• Forming of mental image of situation being modeled
• Symbolizes the problem
• Using concepts & analogies
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Creativity
Simplification
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Non-uniqueness
Simplification:
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Non-uniqueness: choice of model depends on
• the form the solution needs to be (problem)accuracy
• availability of data
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Outcome
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Recommendations
based on
• qualitative results
• quantitative results
A−−−−1
Back to real world:
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Skills
• Mathematics
• Creativity
• Conceptual thinking
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• Conceptual thinking
• Communication skills
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Aims
• Investigate behaviour and relation of elements of problem
• Consider all possibilities, evaluate alternatives, exclude
impossibilities
• Verification against measurements; result to be used in
other operating regimes
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other operating regimes
• Optimization
• Facilitate design and proto-typing
• Substantiate decisions
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Mathematical Modeling Cycle
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Real world
Mathematical world
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Step 1: Specify the Problem
• What is background of the problem, its history and its causes.
• What do we want to know?
• Why is one interested in solving the problem? What are the limitations of the
current practice?
• What is the solution needed for? What is the purpose of solving the problem?
• What are the constraints to solving the problem?
• Who needs a solution?
• What is the impact/benefit of solving the problem?
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• What is the impact/benefit of solving the problem?
• What problem is solved if one has found an answer?
• How will the outcome be judged?
• What form does the solution need to have?
What do you communicate to the Problem Owner?
• How would you implement the solution?
• Are there other related problems?
• What are the sources of facts and data,
and are they reliable?
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Step 2: Set up a metaphor
• What are the operative processes at work?
• What needs to be determined for solving the problem?
• What are the main features, which ones are relevant and which ones are not?
• What is the relation between the main features?
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• What is the relation between the main features?
• Which features do change?
• What is controllable in the problem?
• What are the conditions?
• What are the relevant timescales and dimensions of the problem?
• What kind of material is considered, and what is characteristic of that
material?
Simplification Assumptions
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Step 2: Set up a metaphor
• whether or not to include certain features,
• about the relationships between features,
• about their relative effects.
Assumptions
and why
made in real world
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Decisions:
• level of detail,
In collaboration with Problem Owner
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Step 3: Formulate Mathematical Model
Translate relationships of metaphor
into
mathematical terms
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Mathematical Model:
• Input and Output
• Constants
• State variables
• Independent variables
• Domain
• (Boundary / initial / constraint) conditions
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Step 4: Solve Mathematical Model
• Analytically
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• Analytically
• Numerically
make equations dimensionless
calculations with O(1)-numbers
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Step 5: Interprete Solution
Retraction of conceptual leap
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from
mathematical world
to
real-world problem
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Step 6: Compare with Reality
• Validation of model
• Extraction of model parameters
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• Extension to other operating regimes
Accuracy of measurements
Model insufficient for solving problem
Re-enter modeling cycle again
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Step 7: Use Model to Explain, Predict, Decide, Design
• Determine:
• typical behaviour
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• critical parameters
• trends
• dependency on control parameters
Recommendations
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Summary
• driven by the problem from the real world;
• also includes the interpretation of the solution
Mathematical Modeling
Finding an appropriate model is an art:
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Finding an appropriate model is an art:
Mathematical Modeling:
−conceptual thinking
−appropriate simplifications
−close collaboration between Problem Owner and Mathematician.
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Literature
D. Edwards and M. Hamson, Guide to Mathematical
Modelling, MacMillan, 1989.
J.S. Berry, D.N. Burghes, I.D. Huntley, D.J.G. James, and
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J.S. Berry, D.N. Burghes, I.D. Huntley, D.J.G. James, and
A.O.Moscardini (Eds.), Teaching and Applying Mathematical
Modelling, Wiley, 1984.
T.L. Saaty and J.M. Alexander, Thinking with Models,
Pergamon Press, 1981.
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This course
Focus on:
Step 2: Set up a metaphor (mental image)
Step 3: Formulate mathematical model
Step 4: Solve mathematical problem
Step 5: Interprete solution
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Step 5: Interprete solution
Through:
Theory Mathematical Physics / lectures
Problems / assignments
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