MARITIME TRANSPORTATION AND INFRASTRUCTURES
(objectives)
Nowadays several strategic activities for economic and social development at regional, national and global scale have a crucial role at the land-sea interface where specific facilities support the transfer of goods and passengers. These facilities support the maritime transportation that is the main effective and sustainable mode for long-distance transportation. New concerns both in terms of design and construction of infrastructures and in terms of management of the functional components of maritime transportation systems have to be considered under advanced and novel paradigms that take into account the particular environmental vulnerability of costal environment. The main objective of the course is related to the assessment of any interferences between coastal environment and existing as well new infrastructures devoted to the passengers and goods transfer from landside to seaside and reversal.
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Code
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20810170 |
Language
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ENG |
Type of certificate
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Profit certificate
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Module: MARITIME TRANSPORTATION AND INFRASTRUCTURES-A
(objectives)
The problem of intermediate reloading between shipping and terrestrial transport is typically affected by many constraints given by many factors among them the limited spaces of the seaports certainly prevailing. Horizontal and vertical alignment (slopes, curves, clothoids) as well manoeuvres or design speeds must take into account any constraints in a not ordinary framework. The overall objective is here to give to the students all the information and technical tools to design and manage the transportation infrastructure at the terrestrial-maritime interface. Design and construction as well as maintenance of parking lots, roads, motorways, rail stations and railways at the land/sea interface are discussed, in particular focusing on geometry standards, safety and efficiency of transport. Moreover the main concepts of selection criteria and acceptance standards for construction and building materials are explained under a perspective of sustainability. The main concepts of construction management and building sites or work zones safety and efficiency are also accurately presented, mainly considering the aspects related to the environmental impacts during construction.
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Code
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20810170-1 |
Language
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ENG |
Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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ICAR/05
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Contact Hours
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54
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Type of Activity
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Core compulsory activities
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Teacher
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GEMMA ANDREA
(syllabus)
Overview of transportation engineering with an in-depth analysis on maritime transportation - Transportation supply models o Study area o Zoning o Graph - Transportation demand models o Generation model o Attraction model o Distribution model and matrix squaring - Interaction models of supply and demand o Assignment models - Transportation system of access to maritime infrastructure o Passenger and freight accessibility - Logistics o Logistics system o Logistics platforms - Types of maritime transport vehicles o Vessel classification o Vessel characteristics o Vessel descriptions - Types of shipping services: o Active subjects o Scheduled or on-demand services o Hub & spoke - Point-to-Point o Transhipment models o Costs - Intermodal Transportation o Road-Rail / Road-Sea / Sea-Sea o Containers and other types of cargo units for intermodal transportation - Constituent Elements and Modes of Operation of Ports o Layout of ports o Elements of ports o Vehicular movements in ports o Types of handling equipment o Port terminals o Focus on container/ro-ro/ro-pax terminals - Maritime routes o Routes and navigation o Highways of the sea - Gigantism o Ships and ports o Italian ports - Environmental impact of shipping o Emissions by vessel type in port and during navigation - Port infrastructure performance o KPIs by Port, Terminal and Vessel - Information technology tools for transport data analysis
(reference books)
Handouts and Slides provided by the Professor
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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Teacher
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MANNINI LIVIA
(syllabus)
- Overview of transportation engineering with an in-depth analysis on maritime transportation - Transportation supply models o Study area o Zoning o Graph - Transportation demand models o Generation model o Attraction model o Distribution model and matrix squaring - Interaction models of supply and demand o Assignment models - Transportation system of access to maritime infrastructure o Passenger and freight accessibility - Logistics o Logistics system o Logistics platforms - Types of maritime transport vehicles o Vessel classification o Vessel characteristics o Vessel descriptions - Types of shipping services: o Active subjects o Scheduled or on-demand services o Hub & spoke - Point-to-Point o Transhipment models o Costs - Intermodal Transportation: o Road-Rail / Road-Sea / Sea-Sea o Containers and other types of cargo units for intermodal transportation - Constituent Elements and Modes of Operation of Ports o Layout of ports o Elements of ports o Vehicular movements in ports o Types of handling equipment o Port terminals o Focus on container/ro-ro/ro-pax terminals - Maritime routes o Routes and navigation o Highways of the sea - Gigantism o Ships and ports o Italian ports - Environmental impact of shipping o Emissions by vessel type in port and during navigation - Port infrastructure performance o KPIs by Port, Terminal and Vessel - Information technology tools for transport data analysis
(reference books)
Lecture notes provided by the professor.
|
Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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|
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Module: MARITIME TRANSPORTATION AND INFRASTRUCTURES-B
(objectives)
The main objective of the course is providing a specific knowledge for the analysis and the design of the functional characteristics of the components of the maritime transport system (ships, infrastructures and transport services). The course explores the study of these elements pertaining to the maritime transport system and the seaports. The study includes also the management of these components and the logistic issues. The first part of the course is an introduction to the transport engineering for providing the basic knowledge about the models used for the representation of the transport demand and supply, as well as the related interactions (assignment models). The last part of the course provides additional knowledge about problems related with the maritime transport system as the methods and the models for the management of the freight transport demand, the analysis and the design of the access transport system to the seaside infrastructures, in particular considering the aspects related to the environmental impacts during operation of services.
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Code
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20810170-2 |
Language
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ENG |
Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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ICAR/04
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Contact Hours
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54
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Type of Activity
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Core compulsory activities
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Teacher
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BENEDETTO ANDREA
(syllabus)
0 Introduction 1 Course content 2 Transportation supply model 3 Transportation demand model 4 & 5 Models based on regression analysis - Calibration of Regression Models + Ex 6 Distributional models 7 Transportation assignment model 8 & 9 Logistic system 10 Accessibility to maritime infrastructures 2 Sea-land transportation 3 & 4 Roads & Railways 5 Equations of motion 6 Applcation of motion eqq. 7 & 8 H and V alignment & project examples 1/2 9 project examples 2/2 10 lateral dynamic equilibrium 11 & 12 curve in railway 11 Maritime transport vehicles 12 Maritime transport services 13 & 14 Intermodal transport of goods by sea with description of loading units and handling units 15 Main characteristics, components and modes of operation of ports and cargo terminals 16 Container/ro-ro/ro-pax terminal 17 & 18 Advanced data collection and utilization techniques for transportation engineering 19 Port Infrastructure Performance: KPIs for Port, Terminal, and Ship 20 Tools for transport data analysis: (exercise with GPS data) 21 & 22 Discrete event simulation for port handling representation 23 Maritime routes and navigation 24 Gigantism - Italian ports 25 & 26 Environmental impact of maritime transportation 27 Italian and European projects - Masterplan example 13 layout of ports, masterplan and infrastructures 14 & 15 special areas & intersections 16 pavement 17 railway superstructure 18 & 19 soil stabilization & examples 20 summary, discussion and questions 21 & 22 seminar on Port of Genoa 23 seminar on remote sensing and applications 24 seminar on data fusion and application 25 & 26 seminar on BIM
(reference books)
papers and documents given by professors
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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|
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