Master Degree TRANSPORT SYSTEMS ENGINEERING
YOUAREGOINGTOSTUDY How to: Design Plan Operate Monitor What: Technologies Operational measures On: Infrastructures (Railways, Roads, Sea, Air) Vehicles (Trains, Trams, Trucks, Buses, Cars, Motorbikes, Bicycles, Ships, Planes) Services (Passengers, Freight) TRANSPORT SYSTEMS ENGINEERING Page 2
YOU ARE GOING TO ACQUIRE SKILLS ABOUT Transport and mobility planning technics Technical and economic aspects at various levels Methods for design and supervision of transport systems Dimensions and Performances of components Models for transport systems operations and management Real time and operation planning Models for mobility of people and goods Transport demand/supply on multi-modal networks Monitoring and assessment from technical, economic and environmental viewpoints Investigations, measurements, experiments Service planning and logistic organization Production, distribution, stocking TRANSPORT SYSTEMS ENGINEERING Page 3
ON INFRASTRUCTURES Network planning Design Construction Tests Operation Maintenance Scrapping TRANSPORT SYSTEMS ENGINEERING Page 4
ON VEHICLES Definition of functional requirements Design Construction Homologation Operation Maintenance Scrapping TRANSPORT SYSTEMS ENGINEERING Page 5
ON PASSENGERS SERVICES Public transport networks Metro and tramways systems Intermodal exchange nodes Local railway services High speed railways Air services RO-PAX maritime services TRANSPORT SYSTEMS ENGINEERING Page 6
ON FREIGHT SERVICES Local and urban distribution Combined transports Stocks and logistic services Intermodal terminals RO-RO maritime services Tran-shipment terminals Air cargo services TRANSPORT SYSTEMS ENGINEERING Page 7
IN ENGLISH BECAUSE We want to offer: 1) To Italian students a programme of studies and a degree of higher values in the Italian and international job market More job options More qualified job options 2) To foreign students the accessibility to a programme od studies and a degree at a prestigious University highly qualified in the transport engineering sector Unique in Italy Rare in other European countries TRANSPORT SYSTEMS ENGINEERING Page 8
HOW THE STUDY PROGRAMME IS ORGANISED 120 ECTS 4 modules on characterizing disciplines (48 ECTS) 4 modules on characterizing disciplines chosen by the student in a optional group (24/48 ECTS) 2 modules on integrative disciplines (12 ECTS) 2 modules freely chosen by the student in coherence with educational purposes of the Master Degree (12 ECTS) Other education activities proposed by the student (3 ECTS) Thesis work (21 ECTS) TRANSPORT SYSTEMS ENGINEERING Page 9
HOW TO BE ADMITTED Open for Students with Engineering Bachelor s Degree Minimum curricular requirements for Italian BSC students 18 ECTS in one or more of the following sectors of disciplines: MAT/03, MAT/05, MAT/06, MAT/07, MAT/08 e MAT/09; 12 ECTS in one or more of the following sectors of disciplines: CHIM/03, CHIM/07, FIS/01, FIS/07, ING-IND/11 e ING- IND/21; 18 ECTS in one or more of the following sectors of disciplines: ICAR/01, ICAR/02, ICAR/03, ICAR/04, ICAR/05, ICAR/06, ICAR/07, ICAR/08, ICAR/09, ICAR/10. ICAR/11, ICAR/17 e ICAR/20. Possible admittance of students not completely meeting the requirements under knowledge integration TRANSPORT SYSTEMS ENGINEERING Page 10
TO BE STUDIED IN SEMESTER 1.. Module Sector Credits Transport modelling and planning ICAR/05 12 Transport networks and vehicles Geomatics and ITS (*) (*) optional ICAR/05 ICAR/06 12 6 TO BE STUDIED IN SEMESTER 2 Module Sector Credits Traffic engineering and ITS ICAR/05 12 Air Transport (*) ICAR/05 6 Maritime Transport (*) ICAR/05 6 Road safety and externalities (*) ICAR/05 6 Transport infrastructures (*) ICAR/04 6 (*) optional TRANSPORT SYSTEMS ENGINEERING Page 11
TO BE STUDIED IN SEMESTER 3.. Module Sector Credits Railway engineering ICAR/05 12 Urban and regional policy ICAR/20 6 Freight transport and logistics (*) ICAR/05 6 (*) optional TO BE STUDIED IN SEMESTER 4 Module Sector Credits Safety and risk analysis ING-IND/28 6 Maritime constructions (*) ICAR/05 6 Transport policies and terminals design (*) ICAR/05 6 (*) optional TRANSPORT SYSTEMS ENGINEERING Page 12
TO COMPLETE THE STUDIES Module Sector Credits 2 freely chosen modules Any 12 Education activities proposed by the students Stages Certified informatics abilities Technical visits Additional logistics knowledge Certified professional activities Thesis work Planning applications Feasibility studies Design activities Methods and models implementations Operational analysis and verifications Monitoring and investigations - 3 Any 21 TRANSPORT SYSTEMS ENGINEERING Page 13
AFTER THE MASTER DEGREE OUTSIDE SAPIENZA First job within 6 months (historical data 2003-2015) Placement Regular contacts with Industries, Operators, Consultants, Public agencies and administrations, Research centres, Other subjects interested to employ Transport Systems Engineers Active support with stages hosted and scholarships financed by: TRANSPORT SYSTEMS ENGINEERING Page 14
AFTER THE MASTER DEGREE INSIDE SAPIENZA Further Education Programmes Post-Master Specialist Course Railway Infrastructures and Systems Engineering (1 year) PhD Infrastructures and Transport (3 years) TRANSPORT SYSTEMS ENGINEERING Page 15
FEEDBACK FROM PREVIOUS ACADEMIC YEARS International environment 2014-2015: 23 enrolled students over 4 countries 2015-2016: 55 enrolled students over 8 countries Visiting professors over 4 countries Limited linguistic problems Technical language Tutorage Opportunity to increase own English linguistic knowledge TRANSPORT SYSTEMS ENGINEERING Page 16
TO KNOW AND UNDERSTAND MORE TRANSPORT ENGINEERING EDUCATION AREA https://web.uniroma1.it/cdaingtrasporti// Prof. Stefano Ricci (Chair) stefano.ricci@uniroma1.it Dr. Eng. Bojan Kostic (Tutor for foreign students) Bojan.kostic@uniroma1.it Eng. Filippo Maria Rea (Students delegate) filipporea@yahoo.it TRANSPORT SYSTEMS ENGINEERING Page 17