Stefano DE LUCA | THEORY OF TRANSPORTATION SYSTEMS

cod. 0622100006

THEORY OF TRANSPORTATION SYSTEMS

	0622100006
	DEPARTMENT OF CIVIL ENGINEERING
	EQF7
	CIVIL ENGINEERING
	2020/2021

CURRICULUM CURRICULUM B: TRANSPORTATION ENGINEERING

	OBBLIGATORIO
	YEAR OF COURSE 1
	YEAR OF DIDACTIC SYSTEM 2017
	SECONDO SEMESTRE

TEACHING UNITS

	SSD	CFU	HOURS	ACTIVITY	TYPE OF ACTIVITY
	ICAR/05	6	60	LESSONS	COMPULSORY SUBJECTS, CHARACTERISTIC OF THE CLASS

	Objectives
	EDUCATIONAL OBJECTIVES KNOWLEDGE AND UNDERSTANDING THE COURSE AIMS AT ANALYZING THE MAIN THEORETICAL FEATURES OF THE TOOLS ADOPTED FOR THE ANALYSIS OF TRANSPORTATION SUPPLY AND OF TRAVEL DEMAND. IN PARTICULAR: •LEARNING OF THE APPLICATION FIELDS OF ENGINEERING OF TRANSPORT SYSTEMS •ACQUISITION OF ADVANCED METHODS FOR THE SIMULATION OF SUPPLY SYSTEMS •ACQUISITION OF ADVANCED METHODS FOR THE SIMULATION OF USERS’ BEHAVIOR OF A TRANSPORTATION SYSTEM UNDERSTANDING OF THE STUDIED METHODOLOGIES: (I) FUNCTIONAL VALIDATION OF A TRANSPORTATION SYSTEM, (II) TRANSPORT POLICIES SIMULATION AND EVALUATION, (III) MARKET PENETRATION OF INTELLIGENT TRANSPORTATION SYSTEMS, INNOVATIVE VEHICLES, INNOVATIVE TECHNOLOGIES. KNOWLEDGE AND ABILITY OF UNDERSTANDING APPLIED SPECIFICATION, CALIBRATION AND VALIDATION OD ADVANCED TRANSPORTATION SYSTEM MODELS INDEPENDENCE OF JUDGMENT (MAKING JUDGEMENTS) IDENTIFICATION AND EVALUATION OF THE MOST EFFECTIVE AND EFFICACY METHODS FOR MODELLING AND SIMULATING TRANSPORTATION SYSTEMS. COMMUNICATION SKILLS WORKING AS A GROUP AND PRESENTING A EXERCISE DEVELOPED DURING THE COURSE ABILITY TO LEARN (LEARNING SKILLS) DISCUSS AND DEFEND THE STUDIED METHODOLOGIES WITH REGARD TO THE SIMULATION OF A TRANSPORTATION SYSTEM

EDUCATIONAL OBJECTIVES

KNOWLEDGE AND UNDERSTANDING
THE COURSE AIMS AT ANALYZING THE MAIN THEORETICAL FEATURES OF THE TOOLS ADOPTED FOR THE ANALYSIS OF TRANSPORTATION SUPPLY AND OF TRAVEL DEMAND. IN PARTICULAR:
•LEARNING OF THE APPLICATION FIELDS OF ENGINEERING OF TRANSPORT SYSTEMS
•ACQUISITION OF ADVANCED METHODS FOR THE SIMULATION OF SUPPLY SYSTEMS
•ACQUISITION OF ADVANCED METHODS FOR THE SIMULATION OF USERS’ BEHAVIOR OF A TRANSPORTATION SYSTEM

UNDERSTANDING OF THE STUDIED METHODOLOGIES:
(I) FUNCTIONAL VALIDATION OF A TRANSPORTATION SYSTEM, (II) TRANSPORT POLICIES SIMULATION AND EVALUATION, (III) MARKET PENETRATION OF INTELLIGENT TRANSPORTATION SYSTEMS, INNOVATIVE VEHICLES, INNOVATIVE TECHNOLOGIES.

KNOWLEDGE AND ABILITY OF UNDERSTANDING APPLIED
SPECIFICATION, CALIBRATION AND VALIDATION OD ADVANCED TRANSPORTATION SYSTEM MODELS

INDEPENDENCE OF JUDGMENT (MAKING JUDGEMENTS)
IDENTIFICATION AND EVALUATION OF THE MOST EFFECTIVE AND EFFICACY METHODS FOR MODELLING AND SIMULATING TRANSPORTATION SYSTEMS.

COMMUNICATION SKILLS
WORKING AS A GROUP AND PRESENTING A EXERCISE DEVELOPED DURING THE COURSE

ABILITY TO LEARN (LEARNING SKILLS)
DISCUSS AND DEFEND THE STUDIED METHODOLOGIES WITH REGARD TO THE SIMULATION OF A TRANSPORTATION SYSTEM

	Prerequisites
	MATEMATICA I II (FIRST AND SECOND COURSES ON MATHS)

	Contents
	>> CONCEPTUAL DESCRIPTION OF A TRANSPORT SYSTEM. STRUCTURE, TRANSPORTATION SUPPLY AND TRAVEL DEMAND. SOCIO-ECONOMIC, SPACE, AND TIME CHARACTERISTICS. NOTES ON WITHIN-DAY DYNAMICS, DAY-TO-DAY DYNAMICS. LEZIONE: 2 H ESERVITAZIONE: 0 H >> TRANSPORTATION SUPPLY. LEZIONE: 15 H ESERVITAZIONE: 5 H - INTRODUCTION TO GRAPH THEORY. - UNINTERRUPTED FLOW THEORY. - FLOW NETWORK AND CONGESTED NETWORK MODELS. - ABSTRACT MODEL OF TRANSPORTATION SUPPLY. >> TRAVEL DEMAND. LEZIONE: 25 H ESERVITAZIONE: 10 H - INTRODUCTION TO THE THEORY OF PROBABILITY. - INTRODUCTION TO STATISTICAL INFERENCE. - DIRECT AND INDIRECT DEMAND ESTIMATION. - PARTIAL SHARE MODELS. - RANDOM UTILITY THEORY. - MULTINOMIAL LOGIT MODEL. - HIERARCHICAL LOGIT MODEL. - NOTES ON: CROSS-NESTED LOGIT, MIXED LOGIT, PROBIT MODELS - SPECIFICATION, CALIBRATION, AND VALIDATION OF A RANDOM UTILITY MODEL. - MODELS OF ORIGIN-DESTINATION TRAVEL DEMAND MATRIX: TRIP EMISSION/FREQUENCY AND DISTRIBUTION. - MODELS OF TRANSPORTATION MODE CHOICE BEHAVIOUR. - MODELS OF ROUTE CHOICE BEHAVIOUR. - ABSTRACT MODEL OF TRAVEL DEMAND. >> INTRODUCTION TO THE DEMAND-SUPPLY INTERACTION STUDY. LEZIONE: 3 H ESERVITAZIONE: 0 H

Contents

>> CONCEPTUAL DESCRIPTION OF A TRANSPORT SYSTEM.
STRUCTURE, TRANSPORTATION SUPPLY AND TRAVEL DEMAND. SOCIO-ECONOMIC, SPACE, AND TIME CHARACTERISTICS. NOTES ON WITHIN-DAY DYNAMICS, DAY-TO-DAY DYNAMICS.
LEZIONE: 2 H
ESERVITAZIONE: 0 H

>> TRANSPORTATION SUPPLY.
LEZIONE: 15 H
ESERVITAZIONE: 5 H

- INTRODUCTION TO GRAPH THEORY.
- UNINTERRUPTED FLOW THEORY.
- FLOW NETWORK AND CONGESTED NETWORK MODELS.
- ABSTRACT MODEL OF TRANSPORTATION SUPPLY.

>> TRAVEL DEMAND.
LEZIONE: 25 H
ESERVITAZIONE: 10 H

- INTRODUCTION TO THE THEORY OF PROBABILITY.
- INTRODUCTION TO STATISTICAL INFERENCE.
- DIRECT AND INDIRECT DEMAND ESTIMATION.
- PARTIAL SHARE MODELS.
- RANDOM UTILITY THEORY.
- MULTINOMIAL LOGIT MODEL.
- HIERARCHICAL LOGIT MODEL.
- NOTES ON: CROSS-NESTED LOGIT, MIXED LOGIT, PROBIT MODELS
- SPECIFICATION, CALIBRATION, AND VALIDATION OF A RANDOM UTILITY MODEL.
- MODELS OF ORIGIN-DESTINATION TRAVEL DEMAND MATRIX: TRIP EMISSION/FREQUENCY AND DISTRIBUTION.
- MODELS OF TRANSPORTATION MODE CHOICE BEHAVIOUR.
- MODELS OF ROUTE CHOICE BEHAVIOUR.
- ABSTRACT MODEL OF TRAVEL DEMAND.

>> INTRODUCTION TO THE DEMAND-SUPPLY INTERACTION STUDY.
LEZIONE: 3 H
ESERVITAZIONE: 0 H

	Teaching Methods
	THE COURSE IS EQUAL TO 6 CREDITS. 1 CREDIT EQUALS TO ABOUT - 7 HOURS OF LESSONS, - 3 HOURS OF ADDITIONAL ACTIVITIES, INCLUDING EXERCISES WITH ACTIVE PARTICIPATION AND SEMINARS. CURSE ATTENDANCE IS COMPULSORY (ATTENDANCE RATE >70%)

	Verification of learning
	ORAL DISCUSSION IT IS DIVIDED INTO THREE STEPS: 1) DISCUSSION ON THE EXERCISE CARRIED OUT DURING THE COURSE 2)THEORETICAL BACKGROUND 3)PRACTICAL ISSUES GOAL: VERIFICATION OF THEORETICAL AND OPERATIONAL FOREGROUND THE EXAM WILL TAKE PLACE AT THE END OF THE COURSE. EXAMINATION TIME : 30 MIN EVAUATION: 10 POINTS FOR EACH ANSWER HONORS WILL DEPEND ON QUALITY AND MATURITY OF THE THE EXPOSITION

	Texts
	CASCETTA E. (2009 HARDBACK, 2012 PAPERBACK) TRANSPORTATION SYSTEMS ANALYSIS: MODELS AND APPLICATIONS. SPRINGER. MATERIAL FOR FURTHER NUMERICAL EXERCISES: VITETTA, A. (2003) IL DEFLUSSO NEI SISTEMI DI TRASPORTO - ESERCIZI ED APPLICAZIONI FRANCO ANGELI EDITORE DI GANGI, M., POSTORINO, M. N. (2005) MODELLI E PROCEDURE PER L’ANALISI DEI SISTEMI DI TRASPORTO- ESERCIZI ED APPLICAZIONI FRANCO ANGELI EDITORE

Texts

CASCETTA E. (2009 HARDBACK, 2012 PAPERBACK) TRANSPORTATION SYSTEMS ANALYSIS: MODELS AND APPLICATIONS. SPRINGER.
MATERIAL FOR FURTHER NUMERICAL EXERCISES:
VITETTA, A. (2003) IL DEFLUSSO NEI SISTEMI DI TRASPORTO - ESERCIZI ED APPLICAZIONI FRANCO ANGELI EDITORE
DI GANGI, M., POSTORINO, M. N. (2005) MODELLI E PROCEDURE PER L’ANALISI DEI SISTEMI DI TRASPORTO- ESERCIZI ED APPLICAZIONI FRANCO ANGELI EDITORE

	More Information
	THE COURSE IS FOLLOWED UP BY TWO COURSES TRANSPORT SYSTEMS ANALYSIS TRANSPORT SYSTEMS DESIGN

BETA VERSION Data source ESSE3 [Ultima Sincronizzazione: 2022-05-23]

Stefano DE LUCA | THEORY OF TRANSPORTATION SYSTEMS

THEORY OF TRANSPORTATION SYSTEMS

CURRICULUM CURRICULUM B: TRANSPORTATION ENGINEERING

TEACHING UNITS

PROFESSORS

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Stefano DE LUCA | THEORY OF TRANSPORTATION SYSTEMS