Ingegneria Gestionale | Transportation Planning

cod. 0622600029

TRANSPORTATION PLANNING

	0622600029
	DIPARTIMENTO DI INGEGNERIA INDUSTRIALE
	EQF7
	MANAGEMENT ENGINEERING
	2016/2017

PERCORSO COMUNE Cohort 2015/2016

	YEAR OF COURSE 2
	YEAR OF DIDACTIC SYSTEM 2014
	SECONDO SEMESTRE

TEACHING UNITS

	SSD	CFU	HOURS	ACTIVITY	TYPE OF ACTIVITY
	ICAR/05	6	60	LESSONS	OPTIONAL SUBJECTS

	Objectives
	EXPECTED LEARNING RESULTS AND SKILLS TO ACQUIRE: LEARN THE THEORETICAL AND APPLICATION FEATURES OF THE TOOLS ADOPTED BY THE MODERN TRANSPORT SYSTEMS DESIGN, BASED ON MATHEMATICAL MODELS OF TRANSPORTATION SUPPLY, TRAVEL DEMAND, AND THEIR INTERACTION AND ON CONTINUOUS AND / OR DISCRETE OPTIMIZATION TECHNIQUES , BY DEEPENING THE METHODS FOR THE CONTROL AND MANAGEMENT OF AN URBAN TRANSPORT NETWORK WITH KNOWN OR DETECTED FLOWS, AND THE EXTENSIONS TO THE CONTROL AND MANAGEMENT WITH EQUILIBRIUM FLOWS; LARN THE THEORETICAL AND APPLICATIVE FEATURES OF THE TOOLS USED TO EVALUATE INTERVENTIONS ON A TRANSPORT SYSTEM. KNOWLEDGE AND UNDERSTANDING: UNDERSTANDING THE PROPERTIES OF THE VARIOUS METHODS FOR CONTROLLING AND MANAGING AN URBAN TRANSPORTATION NETWORK AND THE METHODS FOR EVALUATING INTERVENTIONS; KNOWLEDGE OF CONTINUOUS OR DISCRETE OPTIMIZATION TECHNIQUES. APPLYING KNOWLEDGE AND UNDERSTANDING: ABILITY TO DEFINE CONTROL AND MANAGEMENT STRATEGIES FOR A TRANSPORTATION NETWORK IMPLEMENTED IN COMMERCIAL SW, AND TO EVALUATE THE EFFECTS OF INTERVENTIONS ON A TRANSPORTATION SYSTEM. MAKING JUDGEMENTS: TO FIND THE MOST APPROPRIATE CONTROL AND MANAGEMENT METHODS WITH RESPECT TO THE TRANSPORTATION SYSTEM TO BE ANALYZED COMMUNICATION SKILLS: KNOW HOW TO WORK IN A GROUP, WRITE DOWN A TECHNICAL REPORT, AND PRESENT THEM ORALLY. LEARNING SKILLS: KNOW HOW TO APPLY THE ACQUIRED KNOWLEDGE AND KNOW HOW TO LEARN THE NEW EVOLUTIONS OF KNOWLEDGE INDEPENDENTLY.

EXPECTED LEARNING RESULTS AND SKILLS TO ACQUIRE:
LEARN THE THEORETICAL AND APPLICATION FEATURES OF THE TOOLS ADOPTED BY THE MODERN TRANSPORT SYSTEMS DESIGN, BASED ON MATHEMATICAL MODELS OF TRANSPORTATION SUPPLY, TRAVEL DEMAND, AND THEIR INTERACTION AND ON CONTINUOUS AND / OR DISCRETE OPTIMIZATION TECHNIQUES , BY DEEPENING THE METHODS FOR THE CONTROL AND MANAGEMENT OF AN URBAN TRANSPORT NETWORK WITH KNOWN OR DETECTED FLOWS, AND THE EXTENSIONS TO THE CONTROL AND MANAGEMENT WITH EQUILIBRIUM FLOWS; LARN THE THEORETICAL AND APPLICATIVE FEATURES OF THE TOOLS USED TO EVALUATE INTERVENTIONS ON A TRANSPORT SYSTEM.

KNOWLEDGE AND UNDERSTANDING:
UNDERSTANDING THE PROPERTIES OF THE VARIOUS METHODS FOR CONTROLLING AND MANAGING AN URBAN TRANSPORTATION NETWORK AND THE METHODS FOR EVALUATING INTERVENTIONS; KNOWLEDGE OF CONTINUOUS OR DISCRETE OPTIMIZATION TECHNIQUES.

APPLYING KNOWLEDGE AND UNDERSTANDING:
ABILITY TO DEFINE CONTROL AND MANAGEMENT STRATEGIES FOR A TRANSPORTATION NETWORK IMPLEMENTED IN COMMERCIAL SW, AND TO EVALUATE THE EFFECTS OF INTERVENTIONS ON A TRANSPORTATION SYSTEM.

MAKING JUDGEMENTS:
TO FIND THE MOST APPROPRIATE CONTROL AND MANAGEMENT METHODS WITH RESPECT TO THE TRANSPORTATION SYSTEM TO BE ANALYZED

COMMUNICATION SKILLS:
KNOW HOW TO WORK IN A GROUP, WRITE DOWN A TECHNICAL REPORT, AND PRESENT THEM ORALLY.

LEARNING SKILLS:
KNOW HOW TO APPLY THE ACQUIRED KNOWLEDGE AND KNOW HOW TO LEARN THE NEW EVOLUTIONS OF KNOWLEDGE INDEPENDENTLY.

	Prerequisites
	THE STUDENT MUST HAVE THE MATHEMATICAL BACKGROUND ACQUIRED IN ANY FIRST UNIVERSITY DEGREE (LASTING AT LEAST THREE YEARS) IN ENGINEERING.

	Contents
	UNINTERRUPTED FLOW THEORY: MACRO-MESO-MICRO TRAFFIC FLOW MODELLING. INTERRUPTED FLOW THEORY. ANALYSIS OF JUNCTIONS WITH PRIORITY RULES, OF ROUNDABOUTS, METHODS FOR FUNCTIONAL EVALUATION OF JUNCTIONS WITH PRIORITY RULE, OF ROUNDABOUTS. ANALYSIS AND FUNCTIONAL DESIGN OF INTERSECTIONS WITH KNOWN FLOWS. INTRODUCTION TO LINEAR OR CONVEX OPTIMIZATION WITH LINEAR CONSTRAINTS. SIGNAL SETTING DESIGN FOR SINGLE JUNCTION ARTERIAL SIGNAL SETTING DESING; NETWORK SIGNAL SETTING DESIGN. USE OF TECHNOLOGIES FOR URBAN AND FREEWAY CONTROL: NOTES ON INTELLIGENT TRANSPORTATION SYSTEMS URBAN TRAFFIC CONTROL FREEWAY TRAFFIC CONTROL PUBLIC TRANSPORT DESIGN (NOTES) METHODS FOR ENVIRONMENTAL IMPACT EVALUATION: EMISSION MODELS; DISPERSION MODELS. METHODS FOR ROAD SAFETY EVALUATION: ACCIDENT ANALYSIS AND EVALUATION. METHODS FOR EVALUATION AND COMPARISON OF OPERATIONS ON TRANSPORT SYSTEMS. I)COST-BENEFIT ANALYSIS. II) USER SURPLUS; III) MULTI-CRITERIA ANALYSIS; MODELS FOR DATA ACQUISITION (NOTES).

Contents

UNINTERRUPTED FLOW THEORY: MACRO-MESO-MICRO TRAFFIC FLOW MODELLING.
INTERRUPTED FLOW THEORY.
ANALYSIS OF JUNCTIONS WITH PRIORITY RULES, OF ROUNDABOUTS,
METHODS FOR FUNCTIONAL EVALUATION OF JUNCTIONS WITH PRIORITY RULE, OF ROUNDABOUTS.
ANALYSIS AND FUNCTIONAL DESIGN OF INTERSECTIONS WITH KNOWN FLOWS.
INTRODUCTION TO LINEAR OR CONVEX OPTIMIZATION WITH LINEAR CONSTRAINTS.
SIGNAL SETTING DESIGN FOR SINGLE JUNCTION
ARTERIAL SIGNAL SETTING DESING; NETWORK SIGNAL SETTING DESIGN.
USE OF TECHNOLOGIES FOR URBAN AND FREEWAY CONTROL: NOTES ON INTELLIGENT TRANSPORTATION SYSTEMS
URBAN TRAFFIC CONTROL
FREEWAY TRAFFIC CONTROL
PUBLIC TRANSPORT DESIGN (NOTES)
METHODS FOR ENVIRONMENTAL IMPACT EVALUATION: EMISSION MODELS; DISPERSION MODELS.
METHODS FOR ROAD SAFETY EVALUATION:
ACCIDENT ANALYSIS AND EVALUATION.
METHODS FOR EVALUATION AND COMPARISON OF OPERATIONS ON TRANSPORT SYSTEMS.
I)COST-BENEFIT ANALYSIS. II) USER SURPLUS; III) MULTI-CRITERIA ANALYSIS;
MODELS FOR DATA ACQUISITION (NOTES).

	Teaching Methods
	1 CREDIT EQUALS TO ABOUT 7 HOURS OF LESSONS, 3 HOURS OF ADDITIONAL ACTIVITIES, INCLUDING EXERCISES WITH ACTIVE PARTICIPATION AND SEMINARS. A PROJECT WORK IS DEVELOPED DURING THE COURSE.

	Verification of learning
	THE ACHIEVEMENT OF THE OBJECTIVES OF THE COURSE IS CERTIFIED BY PASSING AN EXAM WITH SCORE IN THE RANGE [0-30] OVER 30 (THE MINIMUM FOR PASSING THE EXAM IS 18/30). THE EXAMINATION INVOLVES AN ORAL TEST, LASTING ABOUT 30 MINUTES. THE ORAL TEST CONSISTS OF A DISCUSSION CONCERNING A PRELIMINARY PRESENTATION OF THE WORK DONE DURING THE COURSE FOLLOWED BY A DISCUSSION ON THE THEORETICAL AND METHODOLOGICAL CONTENTS INDICATED IN THE TEACHING PROGRAM; IT IS AIMED AT VERIFYING THE LEVEL OF KNOWLEDGE AND UNDERSTANDING ACQUIRED BY THE STUDENT, AS WELL AS IN VERIFYING THE ABILITY OF EXPOSURE USING THE APPROPRIATE TERMINOLOGY AND THE ABILITY TO ORGANIZE THE EXHIBITION ON THE SAME SUBJECTS WITH THEORETICAL CONTENT. A "WITH HONORS" CAN BE ATTRIBUTED TO STUDENTS WHO REACH THE MAXIMUM VOTE OF 30/30 AND DEMONSTRATE THAT THEY ARE ABLE TO APPLY THEIR KNOWLEDGE AND SKILLS BEYOND THE CONTEXTS OF LESSONS LEARNED.

Verification of learning

THE ACHIEVEMENT OF THE OBJECTIVES OF THE COURSE IS CERTIFIED BY PASSING AN EXAM WITH SCORE IN THE RANGE [0-30] OVER 30 (THE MINIMUM FOR PASSING THE EXAM IS 18/30). THE EXAMINATION INVOLVES AN ORAL TEST, LASTING ABOUT 30 MINUTES. THE ORAL TEST CONSISTS OF A DISCUSSION CONCERNING A PRELIMINARY PRESENTATION OF THE WORK DONE DURING THE COURSE FOLLOWED BY A DISCUSSION ON THE THEORETICAL AND METHODOLOGICAL CONTENTS INDICATED IN THE TEACHING PROGRAM; IT IS AIMED AT VERIFYING THE LEVEL OF KNOWLEDGE AND UNDERSTANDING ACQUIRED BY THE STUDENT, AS WELL AS IN VERIFYING THE ABILITY OF EXPOSURE USING THE APPROPRIATE TERMINOLOGY AND THE ABILITY TO ORGANIZE THE EXHIBITION ON THE SAME SUBJECTS WITH THEORETICAL CONTENT. A "WITH HONORS" CAN BE ATTRIBUTED TO STUDENTS WHO REACH THE MAXIMUM VOTE OF 30/30 AND DEMONSTRATE THAT THEY ARE ABLE TO APPLY THEIR KNOWLEDGE AND SKILLS BEYOND THE CONTEXTS OF LESSONS LEARNED.

	Texts
	CASCETTA E. (2009 HARDBACK, 2012 PAPERBACK) TRANSPORTATION SYSTEMS ANALYSIS: MODELS AND APPLICATIONS. SPRINGER. G.E. CANTARELLA, E A. VITETTA. (2010). LA REGOLAZIONE DI INTERSEZIONI STRADALI SEMAFORIZZATE: METODI ED APPLICAZIONI. FRANCO ANGELI EDITORE R. MAURO, R. (2007). IIL CALCOLO DELLE ROTATORIE CAPACITÀ, TEMPI DI ATTESA; LUNGHEZZA DELLE CODE. HEVELTIUS EDIZIONI

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