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Transport planning. Traffic flow theory. Roadway and intersection design. Road safety. Traffic surveys. Transport project evaluation. Environmental impacts. Traffic management.
AIMTo assist students to understand the fundamentals of transportation system analysis and management, andprovide some basic tools for road network design.OBJECTIVESa. To introduce traffic flow theory and simulation for the analysis of traffic flow situations and theinteraction of flow efficiency.b. To describe basic techniques for collecting and analysing traffic data, diagnosing problems,designing appropriate remedial treatment, and assessing its effectiveness.c. To introduce basic concepts underlying methods for predicting the demand for transport, thepattern of movement in a transport network, and the economic evaluation of transport projects.d. To describe basic techniques for controlling traffic flow (i.e. reduce traffic congestion).This course is comprised of three parts:e. Traffic flow theory and simulation,f. Traffic network modelling, andg. Transportation Planning
ENCN261 or subject to approval of the Director of Studies
ENCI412
Dong Ngoduy
Diana Kusumastuti and Mehdi Ekbatani
COURSE ASSESSMENT· Assignments traffic flow modelling (4) 20%· Traffic Operations & Safety Group Project 40%· Economics Assignment 5%· PLUTO Assignment 5%· Final Course Exam – 3hrs 30%Late assignments will have 20% deducted for each day late, unless prior arrangement has been made. Please contact the course co-ordinator (preferably well in advance) if you have genuine difficulties meeting submission dates.The final 3-hr exam, worth 30%, will cover all the course material. Any “CIVIL” approved calculator is allowed. Students with accepted Aegrotats for an exam may be assessed on the basis of their other assignment marks or they may be required to undertake a special oral examination.While a minimum 50% overall grade for the year is the usual benchmark for passing, to guarantee a pass in the course students must also achieve at least 40% in the total internal coursework (assignments) and the final exam. Students who fail to reach all of these criteria will be reviewed on a case-by-case basis.Repeating students should discuss with the Course Coordinator what coursework they need to repeat. If desired, they may be able to bring forward any or all of their internal coursework from the previous year, but this must be confirmed first. All exemptions must be confirmed by Friday 10th March. All students will sit the final exam.
May, Adolf D.,1927-; Traffic flow fundamentals ; Prentice Hall, 1990.
Textbook: Traffic Flow Fundamentals, by AD May (1990) and Urban transportation networks: Equilibrium analysis with mathematical programming methods, by Yosef Sheffi (1984), free download at: http://sheffi.mit.edu/sites/default/files/sheffi_urban_trans_networks.pdfOther useful course material (e.g. journal papers) will be provided during the course and students will be expected to use these to supplement any handouts provided and notes taken in class. Similarly, useful websites will also be referred to in the course material.Students are also expected to monitor Learn regularly for any notices about the course and to use it for class/group discussions and queries to lecturers.
Domestic fee $1,038.00
International fee $5,000.00
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see Civil and Natural Resources Engineering .