Urban Transport System _department Elective-i v1k5n
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GUJARAT TECHNOLOGICAL UNIVERSITY CIVIL ENGINEERING B. E. SEMESTER: VII Subject Name: Urban Transport System (Department Elective-I) Subject Code: 170604 Teaching Scheme
Evaluation Scheme
Theory
Tutorial
Practical
Total
4
2
0
6
Sr. No.
University Exam (E) Theory Practical 70
30
Mid Sem Exam (Theory) (M) 30
Contents
Module I I
Practical (Internal)
20 Hours 12
INTRODUCTION: Development plans, objectives and goals; level of planning; role of transportation at national, regional and urban level. URBANISATION: Definition of urban area; trends in urbanization; urban class groups; metropolitan city; transportation problems & identification. TRAVEL DEMAND: Concepts of travel demand; factors affecting demand and the demand functions; calibration methods; sequential, direct demand models; introduction to aggregate and disaggregate approaches.
Module II II
12 TRANSPORTATION SURVEYS: The transportation study area definition; division into traffic zones; network identification and coding; types of travel and characteristics of various surveys; home interview; roadside survey; goods, mass transit and intermediate public transport surveys; sampling and expansion factors; accuracy checks, screen line checks, consistency checks. TRAVEL FORECASTING: Growth factor methods and urban transportation planning system; growth factors; average growth factor method and Furness method.
Module III III
12 UTP SYSTEM : Trip generation; zonal regression methods and category analysis; trip distribution method; gravity models and opportunity models; mode split methods; factors affecting modal split; trip end models and trip distribution models; route assignment; factors affecting route choice; diversion curve; shortest paths; all or nothing assignment.
Module IV IV
12 CORRIDOR IDENTIFICATION: Prediction issues and forecasting of the travel demand and future desires; corridor identification and corridor screen line analysis. MASS TRANSIT SYSTEMS: Bus and rail transit; characteristics, capacities, route planning. TRANSPORTATION PLAN PREPARATION: Urban forms and structures; point, linear, radial, poly-nuclear developments and preparation of plan; comprehensive and traffic system management plans.
Note: Each module carries equal weightage. Term work shall be based on the above mentioned syllabus
Reference Books: 1. 2. 3. 4.
B. G. Hutchison, Introduction to Transportation Engg, & Planning McGraw Hill Book Co. John W. Dickey, Metropolitan Transportation Planning, Tata McGraw Hill Pub. Co. Edward K. Morlok, Introduction to Transportation Engg. & Planning, McGraw Hill Book Co Vukan R. Vuchic, Urban Public Transportation System & Technology, Prentice Hall, Inc.
Evaluation Scheme
Theory
Tutorial
Practical
Total
4
2
0
6
Sr. No.
University Exam (E) Theory Practical 70
30
Mid Sem Exam (Theory) (M) 30
Contents
Module I I
Practical (Internal)
20 Hours 12
INTRODUCTION: Development plans, objectives and goals; level of planning; role of transportation at national, regional and urban level. URBANISATION: Definition of urban area; trends in urbanization; urban class groups; metropolitan city; transportation problems & identification. TRAVEL DEMAND: Concepts of travel demand; factors affecting demand and the demand functions; calibration methods; sequential, direct demand models; introduction to aggregate and disaggregate approaches.
Module II II
12 TRANSPORTATION SURVEYS: The transportation study area definition; division into traffic zones; network identification and coding; types of travel and characteristics of various surveys; home interview; roadside survey; goods, mass transit and intermediate public transport surveys; sampling and expansion factors; accuracy checks, screen line checks, consistency checks. TRAVEL FORECASTING: Growth factor methods and urban transportation planning system; growth factors; average growth factor method and Furness method.
Module III III
12 UTP SYSTEM : Trip generation; zonal regression methods and category analysis; trip distribution method; gravity models and opportunity models; mode split methods; factors affecting modal split; trip end models and trip distribution models; route assignment; factors affecting route choice; diversion curve; shortest paths; all or nothing assignment.
Module IV IV
12 CORRIDOR IDENTIFICATION: Prediction issues and forecasting of the travel demand and future desires; corridor identification and corridor screen line analysis. MASS TRANSIT SYSTEMS: Bus and rail transit; characteristics, capacities, route planning. TRANSPORTATION PLAN PREPARATION: Urban forms and structures; point, linear, radial, poly-nuclear developments and preparation of plan; comprehensive and traffic system management plans.
Note: Each module carries equal weightage. Term work shall be based on the above mentioned syllabus
Reference Books: 1. 2. 3. 4.
B. G. Hutchison, Introduction to Transportation Engg, & Planning McGraw Hill Book Co. John W. Dickey, Metropolitan Transportation Planning, Tata McGraw Hill Pub. Co. Edward K. Morlok, Introduction to Transportation Engg. & Planning, McGraw Hill Book Co Vukan R. Vuchic, Urban Public Transportation System & Technology, Prentice Hall, Inc.
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