Transportation Flow Systems

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Transportation Flow Systems posted by member7_php on 2/27/2009

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Transportation Flow Systems

Fall 2002

Aircraft in a queue. (Image is taken from NASA's Web site: http://www.nasa.gov.)

Course Highlights

This course site features lecture notes and readings, along with other materials used by students in the course.

Course Description

Design, operation, and management of traffic flows over complex transportation networks are the foci of this course. It covers two major topics: traffic flow modeling and traffic flow operations. Sub-topics include deterministic and probabilistic models, elements of queuing theory, and traffic assignment. Concepts are illustrated through various applications and case studies. This is a half-term subject offered during the second half of the semester.

Technical Requirements

Microsoft® Excel software is recommended for viewing the .xls files found on this course site. Free Microsoft® Excel viewer software can also be used to view the .xls files.

Syllabus

Description

Design, operation, and management of traffic flows over complex transportation networks. Covers two major topics: traffic flow modeling and traffic flow operations. Includes deterministic and probabilistic models, elements of queueing theory, and traffic assignment. Concepts and methods are illustrated through various applications and examples.

Requirements

You are responsible for completing three and a half problem sets and one quiz. Unless otherwise instructed, the writing of the assignments is required to be individual.

Grades

Problem Sets: 70% (you may use a one time 48-hour extension)
Quiz: 30%

Readings

There is no textbook that completely covers the material of the subject. Additional materials will be given out in class.

The Five Twos in 1.225

Two type of flows: Air and Road
Two types of problems: Modeling and Operation Problems
Two levels of analyses: Component Level and Network Level
Two time-scale of analyses: Static vs. Dynamic
Two type of approaches/tools: Analytical and Simulation-based

Academic Honesty

The MIT Department of Civil and Environmental Engineering adheres to the strictest standards of academic honesty. An important aspect of achieving these standards is to be sure that students are aware of expectations of faculty as regards academic honesty. This statement is an attempt to clarify the faculty's expectations in this subject.

Assignments

Assignments performed by students for submission have a dual purpose. They are intended as educational devices, including the teaching of skills such as working in teams. They are also evaluation tools for the faculty in judging the quality of performance of individual students. Our policies are intended to balance these two purposes and, unless otherwise stated, apply to all assignments.

Students currently taking this class can work together to conceptualize general approaches to assignments. However, unless otherwise specified for a particular assignment, the work you submit should be done completely on your own. This includes text, numerical calculations, mathematical derivations, diagrams, graphs, computer programs and output, references, and any written source you use in your submission. It is inappropriate to use assignments submitted in previous years as a source.

Quiz

All work on a quiz should be performed only by you.

If you have any questions about how these policies relate to a specific situation, you should speak to Professor Chabini or Professor Odoni for clarification.

Calendar

LEC # / REC #	TOPICS
	Part I: Traffic Flow Modeling
L1	Introduction Cumulative Plots
L2	Airport Runway Capacity
L3	Modeling Road Traffic
R1	Recitation 1
L4	Network Model and Shortest Paths
L5	Traffic Assignment
R2	Recitation 2
L6	Introduction to Optimization
	Part II: Traffic Flow Operations
L7	Highway Control: Ramp Metering
L8	Queuing Theory
R3	Recitation 3
L9	Simulation Models
L10	Control of Isolated Signals
R4	Recitation 4
L11	Operational Problems in Traffic Systems
L12	Air Traffic Operation Problems
L13	Wrap-up Lecture Quiz Review
	Quiz

Readings

Students enrolled in 1.225J were able to purchase a 'course reader' containing the required readings listed below. Additional reference texts were put on reserve at MIT's libraries.

Contents of Course Reader

LEC # / REC #	TOPICS	READINGS
	Part I: Traffic Flow Modeling
L1	Introduction Cumulative Plots	Daganzo, C. F. Fundamentals of Transportation and Traffic Operations. Chapters 1 and 2. Pergamon Press-Elsevier Science, 1997. Pp. 11-20 and 25-29.
L2	Airport Runway Capacity	Odoni, A. R., J. M. Rousseau, and N. H. M. Wilson. "Models in Urban and Air Transportation." Chapter 5 in Handbooks in Operations Research and Management Science: Volume 6 Operations Research and the Public Sector. Edited by S. M. Pollock, M. H. Rothkopf, and A. Barnett. North-Holland Press-Elsevier Science B. V., 1994. Pp. 107-128. (Except subsection 2.4)
L3	Modeling Road Traffic	Gabard, J. F. "Car-Following Models." In Concise Encyclopedia of Traffic & Transportation Systems. Edited by M. Papageorgiou. Pergamon Press, 1991. Pp. 65-68. Daganzo, C. F. "Fundamental Diagrams." In Fundamentals of Transportation and Traffic Operations. Pergamon Press-Elsevier Science, 1997. Pp. 80-93. Cohen, S. "Flow Variables." In Concise Encylopedia of Traffic & Transportation Systems. Edited by M. Papageorgiou. Pergamon Press, 1991. P. 142.
R1	Recitation 1
L4	Network Model and Shortest Paths	Sheffi, Y. Urban Tranportation Networks. Prentice-Hall, 1985. Chapter 1. Subsection 1.20. Larson, R. C., and A. R. Odoni. Urban Operations Research. Prentice-Hall, 1981. Chapter 6. Pp. 359-379. Burkard, R. E. "Shortest Path Algorithms." In Concise Encyclopedia of Traffic and Transportation Systems. Edited by M. Papageorgiou. Pergamon Press, 1991. Pp. 461-468.
L5	Traffic Assignment	Sheffi, Y. Urban Tranportation Networks. Prentice-Hall, 1985. Chapter 1. Pp. 2-26. (Except transit related materials) Daganzo, C. F. "Equilibrium Analysis." Chapter 5 in Fundamentals of Transportation and Traflic Operations. Pergamon Press-Elsevier Science, 1997. Pp. 198-209.
R2	Recitation 2
L6	Introduction to Optimization	Daganzo, C. F. Fundamentals of Transportation and Traffic Operations.Pergamon Press-Elsevier Science, 1997. Chapter 3. Pp. 47-65.
	Part II: Traffic Flow Operations
L7	Highway Control: Ramp Metering	Wattleworth, J. A. "Peak-Period Analysis and Control of a Freeway System." Highway Research Record (1967): 1-10. Papageorgiou, M. "A New Approach to Time-of-Day Control Based on a Dynamic Freeway Traffic Model." Transportation Research 14B (1980): 349-360. Makigami, Y. "On-Ramp Control: Coordinated Time-of-Day Strategies." In Concise Encyclopedia of Traffic and Transportation Systems. Edited by M. Papageorgiou. Pergamon Press, 1991. Pp. 285-289.
L8	Queuing Theory	Hillier F. M., and G. J. Lieberman. "Queueing Theory." Chapter 15 in Introduction to Operations Research. McGraw-Hill, 1995. Pp. 661-732.
R3	Recitation 3
L9	Simulation Models	Hillier F. M., and G. J. Lieberman. "Simulation." Chapter 21 in Introduction to Operations Research. McGraw-Hill, 1995. Pp. 900-934.
L10	Control of Isolated Signals	Webster, F. V. "Traffic Signal Settings." Road Research Technical Paper No. 39. Her Majesty's Stationary Office, London. 1958. Pp. 1-24.
R4	Recitation 4
L11	Operational Problems in Traffic Systems	Odoni, A. R. "Issues in Air Traffic Flow Management." Barcelo, J. "Traffic Management Systems." In Concise Encyclopedia of Traflic and Transportation Systems. Edited by M. Papageorgiou. Pergamon Press, 1991. Pp. 541-550. Stathopoulos, A. "Route Guidance, Collective.'' In Concise Encyclopedia of Traffic and Transportation Systems. Edited by M. Papageorgiou. Pergamon Press, 1991. Pp. 412-416.
L12	Air Traffic Operation Problems
L13	Wrap-up Lecture Quiz Review
	Quiz

Additional Reference Texts

Daganzo, Carlos F. Logistics Systems Analysis. Springer-Verlag, 1991.

Watson, H. Computer Simulation in Business. John Wiley & Sons, 1981.

Nersesian, R., and G. Boyd Swartz. Computer Simulation in Logistics. Quorum Books, 1996.

Smith, J. U. M. Computer Simulation Models. Griffin & Co. 1968.

Highway Capacity Manual. Transportation Research Board, National Research Council, 1985.