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Engineering Systems Analysis for Design >> Content Detail

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This table provides information about both the lecture (L) and recitation (R) sessions.

Calendar table.
SES #	TOPICS	KEY DATES
Introduction to course
L1	Motivation: paradigm shift from best outcome to moving distribution of outcomes to right	ESD.70J in parallel for 4 days
Part 1: basics, recognition of uncertainty, valuation fundamentals, and timing issues
Conventional valuation and recognition of uncertainty
L2	Discounted cash flow and present value Criteria for valuation
R1	Valuation methods and discussion for uncertainty exercise
L3	Uncertainty recognition
L4	Choice of discount rate Opportunity cost, weighted average cost of capital, capital asset pricing model	Application Portfolio 1 due: Topic definition
R2	Discussion of choice of discount rate and production functions
Timing of development
Basic issue: build now or later?
L5	Asphalt vs. concrete highways Basic system model: production function, economies of scale
L6	Optimum expansion size deterministic case
R3	Exercises on production functions and economies of scale
L7	Determining economies of scale from cost function Constrained optimization and marginal analysis
L8	Sources of flexibility "On" systems-timing "In" systems-timing and function Case examples	Application Portfolio 2 due: Defining uncertainties
R4	Discussion of flexibility in application portfolio Review of probability determination from data and Bayesian analysis
Part 2: uncertainty modeling and flexibility valuation methods
Decision analysis
L9	Uncertainty assessment
L10	Primitive models Introduction to decision analysis
R5	Decision analysis practice
L11	Practical issues Solutions by "folding back" Flaw of averages	Application Portfolio 3 due: Flexibility identification
L12	Distribution of outcomes for decision analysis Value at risk and gain, multiple value metrics
R6	Value of information and flexibility
L13	Benefits of waiting: value of information
L14	Decision analysis examples: oil platform, wind energy, silicon wafer plant, Tokyo/Haneda runway	Application Portfolio 4 due: Decision analysis
R7	Past midterm solutions
L15	Mid-semester review
L16	Midterm exam
Lattice analysis
L17	Lattice model to represent uncertainty Regression to determine trend and variability (μ and σ)
R8	Review of midterm and of regression analysis
L18	Dynamic programming: systematic solution by "folding back"
R9	Dynamic programming and valuation of lattice model
L19	Valuation of lattice by dynamic programming Satellite case study
L20	Combining lattice and decision analysis Case studies: aqua line tunnel	Application Portfolio 5 due: Lattice analysis of evolution of a major uncertainty
L21	Conceptual valuation and application	Application Portfolio 6 due: Decision analysis using lattice
R10	Advice on application portfolios
L22	Comparing decision analysis and lattice analysis
L23	Definition and analysis of "hotspots" using change propagation analysis Path dependency Comments on draft application portfolio Case studies: car platforms, hydroelectric dam, mini unmanned aerial vehicle	Draft of complete portfolio due
L24	Perspective on flexibility in design and real options analysis (Part 1)	Complete revised portfolio due
L25	Perspective on flexibility in design and real options analysis (Part 2)
L26	Review for final exam

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