ACTIVITIES | PERCENTAGES |
---|---|
Individual and final application portfolio | 40% |
Class participation and graded assignments | 15% |
Mid-semester quiz | 20% |
Final examination | 25% |
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This MIT OpenCourseWare site is based on the materials from Professor de Neufville's ESD.71 Web site. Additional materials, updated as needed by Professor de Neufville, can be found there.
This subject focuses on the flexible design of engineering systems. It recognizes that the future is necessarily uncertain, and that we need to deliver good value for the range of possible scenarios. Flexible designs enable system operators to adapt their project to future circumstances, to avoid downside risks and to take advantage of upside opportunities.
Many researchers and practitioners believe that flexible design will revolutionize the way we develop and manage complex projects. Indeed, case studies indicate that the approach can improve expected performance by around 25 percent. These are significant opportunities.
The course shows how design flexibility can substantially increase the expected value of a system. It presents an integrated approach that
The course consists of 3 major blocks.
This introductory block establishes three fundamental issues and provides the economic motivation for flexibility in design:
This is the core analytic section of the course. It presents Decision Analysis and Lattice Analysis as the two means to assess the value of flexibility in design. Both provide ways to think through the many ways in which scenarios will occur over time, and correspondingly how system developers can react effectively to these alternate futures. Decision Analysis makes is possible to look at more complex futures, while Lattice Analysis is computationally much more efficient. Analysts need to understand the relative merits of each approach and which to use when, either singly or in combination.
This section builds upon the Monte Carlo simulation methods presented in the Excel mini-course (ESD.70J) given at the start of the semester.
This section explores the question of how designers can identify the parts of the system that should be flexible. The issue is that any significant system could be flexible in many, many different ways and it is important to identify which elements might most effectively contribute to increasing the expected value of the overall system. This is a primary area of current research, and the course will showcase current and recent doctoral research and other projects at the forefront of the field.
This subject builds upon a basic knowledge of calculus and probability.
Students should be proficient in the use of spreadsheet programs at the level covered by ESD.70J, the 3-unit intensive short course designed to bring them up to speed in Excel. In general, everyone will benefit from participating in this offering.
The primary text for the class consists of draft chapters from the new text being written for the MIT Press. Prof. de Neufville will distribute these electronically throughout the semester.
This material is supplemented by chapters from:
de Neufville, Richard. Applied Systems Analysis. New York, NY: McGraw-Hill, 1990. ISBN: 9780070163720.
Extensive references and papers are available from the course Web site.
All students will be expected to have an up-to-date full version of Excel. They may also want to try the following optional add-ins:
TreeAge Pro can be downloaded for a 21-day trial from: TreeAge Pro Trial Version Download, and student licenses can be obtained from: The TreeAge Software Store.
Crystal Ball information is available here: Oracle Crystal Ball Classroom Edition.
Participants can view and download PDF copies of the PowerPoint slides on the course Web site. As the instructors routinely improve their presentations as the class proceeds, the Web versions of the slides change from time to time. Students may wish to verify that they have the latest version before downloading the slides for reference in class.
There will be regular weekly problem-solving sessions. Prof. de Neufville will schedule these in consultation with the class during the opening session.
The graded assignments for the class mainly involve the "application portfolio". This is a collection of applications, on topics individually selected by each student, using the methods presented in class on an issue. This has two phases:
Ungraded problems drawn from the Applied Systems Analysis text are distributed throughout the semester. Students are advised to complete them as a way of insuring that they know how to complete the applications — and pass the tests! Solutions to these problems will be posted so that students can grade themselves and get immediate feedback.
Grades depend principally on the application portfolio and tests, but include an allowance for class participation. The approximate weights are:
ACTIVITIES | PERCENTAGES |
---|---|
Individual and final application portfolio | 40% |
Class participation and graded assignments | 15% |
Mid-semester quiz | 20% |
Final examination | 25% |
Students should complete assignments on time. The teaching assistant will mark down unexcused late assignments.
The instructors will modulate the final grade in appreciation of the participant's progress throughout the semester. Those who finish strongly and demonstrate that they have, at the end, mastered the material will receive more credit for the final grades.
Previous quizzes and exams are posted in the "Exercises" section of the Web page. They indicate the kind of questions likely to appear on future exams. However, their content may not match the current syllabus, which is evolving along with research advances.
To avoid confusion that might result from different expectations in other contexts or establishments, please note the standards that apply in this subject:
Any questions about this policy should be addressed to the instructors.