NPTEL : NOC:Urban Transport Systems Planning (Civil Engineering)

Co-ordinators : Prof. Bhargab Maitra


Lecture 1 - Urbanization, Urban Transportation and Transportation Demand

Lecture 2 - Travel Behaviour, Transportation Externalities and Present Scenario of Urban Transportation

Lecture 3 - Approaches for Mitigating Externalities, Need for Transportation Planning and Transport Planning Morphology

Lecture 4 - Transport Planning Morphology

Lecture 5 - Hierarchical Level of Urban Transport Planning and Interrelationship of Transport Problems and Models

Lecture 6 - Traditional Travel Demand Forecasting Process

Lecture 7 - Traditional Travel Demand Forecasting Process, Specification, Calibration, Validation and Forecasting

Lecture 8 - Information Needs for Travel Demand Forecasting: Study Area, Urban Activities, Transportation System

Lecture 9 - Information Needs for Travel Demand Forecasting: Travel Information

Lecture 10 - Data Collection and Techniques

Lecture 11 - Introduction and Basic Considerations of Trip Generation

Lecture 12 - Trip Classifications and Factors Affecting Trip Generation

Lecture 13 - Modelling Approaches and Step-Wise Approach of Multiple Regression Analysis

Lecture 14 - Step-Wise Approach of Multiple Regression Analysis and Examples

Lecture 15 - Examples, Common Mistakes and Zonal Based Models of Multiple Regression Analysis

Lecture 16 - Zonal and Household Based Regression Models

Lecture 17 - Cross Classification Analysis: Model Structure and Calibration

Lecture 18 - Cross Classification Analysis: Model Calibration

Lecture 19 - Cross Classification Analysis: Model Application, Advantages and Dis-Advantages

Lecture 20 - Matching Productions and Attractions; Stability of Trip Generation Models

Lecture 21 - Basic Considerations and Trip Distribution Matrices

Lecture 22 - Methods for Trip Distribution, Uniform Growth Factor Method and Average Growth Factor Method

Lecture 23 - Detroit Method and Fratar Model

Lecture 24 - Furness Method

Lecture 25 - Synthetic Methods, Measures of Travel Resistance and Gravity Model

Lecture 26 - Singly Constrained Gravity Model

Lecture 27 - Bureau of Public Roads Calibration Procedure

Lecture 28 - Doubly Constrained Gravity Model

Lecture 29 - Intervening Opportunities Model

Lecture 30 - Competing Opportunities Model and Linear Programming Approach

Lecture 31 - Factors Influencing Mode Choice and Aggregate Modal Split Models

Lecture 32 - Disaggregate Mode Choice Models - I

Lecture 33 - Disaggregate Mode Choice Models - II

Lecture 34 - Disaggregate Mode Choice Models - III

Lecture 35 - Disaggregate Mode Choice Models - IV

Lecture 36 - Disaggregate Mode Choice Models - V

Lecture 37 - Logit Choice Models - I

Lecture 38 - Logit Choice Models - II

Lecture 39 - Logit Choice Models - III

Lecture 40 - Logit Choice Models - IV

Lecture 41 - Introduction to Traffic Assignment

Lecture 42 - Network Algorithms - I

Lecture 43 - Network Algorithms - II

Lecture 44 - Network Algorithms - III

Lecture 45 - Static assignment models, User Equilibrium

Lecture 46 - User Equilibrium Assignment and System Optimum Assignment

Lecture 47 - Deterministic Traffic Assignment - I

Lecture 48 - Deterministic Traffic Assignment - II

Lecture 49 - Stochastic Traffic Assignment - I

Lecture 50 - Stochastic Traffic Assignment - II and Dynamic Traffic Assignment

Lecture 51 - Land Use and Transportation - I

Lecture 52 - Land Use and Transportation - II

Lecture 53 - Land Use and Transportation - III

Lecture 54 - Land Use and Transportation - IV

Lecture 55 - Urban Goods Movement - I

Lecture 56 - Urban Goods Movement - II

Lecture 57 - Urban Goods Movement - III

Lecture 58 - Urban Goods Movement - IV

Lecture 59 - Activity Based Modelling

Lecture 60 - Big Data, GIS and SDI