Course Details
Course Information Package
Course Unit Title | TRANSPORTATION ENGINEERING | ||||||||
Course Unit Code | CET314 | ||||||||
Course Unit Details | |||||||||
Number of ECTS credits allocated | 5 | ||||||||
Learning Outcomes of the course unit | By the end of the course, the students should be able to:
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Mode of Delivery | Face-to-face | ||||||||
Prerequisites | NONE | Co-requisites | NONE | ||||||
Recommended optional program components | NONE | ||||||||
Course Contents | Introduction: Description of general concepts related to transport engineeringTransport in society: Present the need of transport and also why public transport is needed. Explain modal split and several transport engineering concepts.Physical components of transport: Infrastructure; terminal; of carriage and motive power; Characteristics of a transport system; Overview of major transportation systems.Air Transport: Characteristics of air transport. Operational, meteorological, physical, environmental, economic factors affecting the selection of location and layout of an airport. Basic requirements of technical buildings. Factors affecting location, length and direction of runways. Parking, Importance of accessibility and connection with other means of transport. Describe different types of airport: centralized and decentralized.Data Collection: Different categories of road transport data for the planning, design and management of transport systems. Categories of data include: journey characteristics, traffic characteristics, parking studies, accidents studies. Methods for data collection for each category. Solution of home interview problems. Solution of problems of speed surveys and evaluation of resultsRoad Transport: Use of the forecasting model and solution of problems using: trip generation, trip distribution, mode choice, trip assignment methods using different algorithms. Factors affecting: (a) trip generation (income, household size), (b) trip distribution (distance between zones, socioeconomic factor), (c) mode choice (cost, time) and (d) trip assignment (traffic, distance, time, signals, type of road). Description of road network and classes of road with characteristics for each class. Types of junctions and advantages disadvantages for each one. Different types of pavement. Traffic Signals: Definitions related to traffic signals (red time, phase, intergreen period, change interval, all red, cycle length, etc). Suitability of junctions for traffic signal. Solution of problems related to traffic signal design and evaluation of results | ||||||||
Recommended and/or required reading: | |||||||||
Textbooks |
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References |
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Planned learning activities and teaching methods | The course will be presented through formal theoretical lectures, practical problems and tutorial sessions in class. The lectures will present to the student the course content and allow time for questions and discussion. Numerical examples are solved in class and tutorial questions are provided for private study. Practical exercises in lecture periods are submitted as assignments by the students and are completed with reduced angle calculations and plan drawings. Notes shall be taken by the students in class during lectures. In addition, all of the course material will be made available through the class website and also through the university’s own e-learning platform. Finally, the instructor will be available to students during office hours or by appointment in order to provide any necessary tutoring. | ||||||||
Assessment methods and criteria |
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Language of instruction | English | ||||||||
Work placement(s) | NO |