Transport Demands Models



Similar documents
Global Economy and International Environment in Business Administration

GUIDE FOR INCOMING STUDENTS CIVIL ENGINEERING - INGENIERÍA DE CAMINOS, CANALES Y PUERTOS MATERIALS ENGINEERING - INGENIERÍA DE MATERIALES

Universidad de Alcalá

Teaching guide ECONOMETRICS

240EO036 - Business Project Management

Alex wasn t sure what he wanted to do or what degree he needed initially. It s a good point there are several types of college degrees.

DoQuP project. WP.1 - Definition and implementation of an on-line documentation system for quality assurance of study programmes in partner countries

COMPLEMENTOS PARA LA FORMACIÓN DISCIPLINAR EN INGLÉS. Máster en Formación del Profesorado. Universidad de Alcalá

Syllabus for the course: Operations Management. Index

Credit and Grading Systems

Active methodology in the Audiovisual communication degree

SUBJECT TEACHING GUIDE

Syllabus (Pla Docent) : Data Analysis. Teaching guide Activities schedule

School of Engineering Degree: Bachelor of Science Credits: 131 Program: Mechanical Engineering CURRICULUM

emadrid Seminar on Learning with Free Software Experiences at All Levels

Construction Management

Public Works Engineering Technician: Speciality Civil Constructions

Grado en Administración y Dirección de Empresas, Mención Creación y Dirección de Empresas, Itinerario Emprendedores

PREDICTING SUCCESS IN THE COMPUTER SCIENCE DEGREE USING ROC ANALYSIS

M. E. Degree in Energy Systems Engineering. Student Handbook

Adding Time to Expand Opportunities for High School Students March 2011

INSTITUTO POLITÉCNICO NACIONAL

University of the Balearic Islands Teaching guide

240IOI21 - Operations Management

MEBS09 Didactics of Natural, Social and Cultural Sciences

Project Management (Gestão de projectos) 2013 / 2014

UNIVERSITY OF TRIESTE UNIVERSITY OF UDINE ACADEMIC REGULATIONS MASTER DEGREE PROGRAMMEME IN PHYSICS. Master Degree Programme Section LM-17

How To Create A Tutorial System For Computer Science And Telecommunication Engineering Students

COURSE GUIDE: Ubiquitous Computing and Ambient Intelligence (UCAMI)

Introduction to MSc Program in Operations Management & Logistics

Programme Specification for Computer Systems Engineering (Software Systems) MSc

PI - Internet Protocols

Programme name Civil Engineering, Civil Engineering with Industrial Placement

Course Computer Science Academic year 2012/13 Subject Databases I ECTS 5

Supply Chain Management

THE SERVICES A UNIVERSITY WEBSITE SHOULD OFFER

Innovative Masters Program Safety of Civil Engineering Critical Infrastructures and Territories

Titulación Grado en Administración y Dirección de Empresas, Mención Creación y Dirección de Empresas, Itinerario Emprendedores.

Bachelor Program in Analytical Finance, 180 credits

A written statement of words detailing your qualifications for, interest in, and philosophy of teaching at the community college level.

240ST014 - Data Analysis of Transport and Logistics

FACULTY OF ECONOMICS AND BUSINESS SCIENCE Elviña Campus, A Coruña Updated: october 2005 GRADUATE IN BUSINESS ADMINISTRATION AND MANAGEMENT

DOCTORAL PROGRAMME IN MANAGEMENT ENGINEERING

Academic Guide. Strategic Management 4th year Degree in Marketing and Sales Management (TSDMC) Academic Year 2014 /2015

BACHELOR S DEGREE IN BUSINESS ADMINISTRATION

Cursos Generales Complementarios. Universidad del TURABO. Escuela: Ingeniería Grado: Bachillerato

University of North Dakota Department of Electrical Engineering Graduate Program Assessment Plan

Relaciones Internacionales en la ETSI Industriales de la UPM WELCOME MEETING

Value equivalent. ECTS equivalent. Value N/A

value equivalent value

Course Guide Academic Year COURSE INFORMATION SHEET

POLITECNICO DI MILANO SCHOOL OF MANAGEMENT

Título del curso Créditos Pre-requisitos

Master degree in Construction area (main results of the admission company)

ONLINE COURSE ON LEGAL INSTRUMENTS OF INTERNATIONAL ECONOMIC RELATIONS AND REGIONAL INTEGRATION 11 OCTOBER - 12 DECEMBER, 2010 PROSPECTUS

Bachelor Degree in Informatics Engineering Master courses

E-ASSESSMENT IN A MASTER ONLINE COURSE. A CASE STUDY

Transportation and Logistic Systems. Logistics fuels business MASTER S TRANSATLANTIC FULL-TIME DUAL DEGREE PROGRAM

Welcome to the School of Aeronautics and Aerospace Engineering - Technical University of Madrid (UPM)-

Final Award. (exit route if applicable for Postgraduate Taught Programmes) H204 JACS Code

How To Prepare And Manage A Project

Drawing up and assessment of proposals for officially recognised postgraduate programmes and degrees. Academic Year

Corporate Finance II

2016 Master s Program in Environmental Engineering in Suzhou University of Science and Technology

Software Development Emphasis in Informatics Engineering Curriculum

Universidad Pública de Navarra Public University of Navarre International student guide

MEng Aeronautical Engineering (H401)

SOCI 1301 INTRODUCTION TO SOCIOLOGY - 5 Weeks (Online) CRN # 82737

BACHELOR S DEGREE IN BUSINESS ADMINISTRATION

DEPARTMENT OF TRANSPORTATION MANAGEMENT

1. Programme title and designation Advanced Software Engineering

A CALCULUS COURSE WITH INTERACTIVE SUPPORT ON MOODLE

Transcription:

ESCUELA DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS. Curso académico 2015-16 Pág. 1 de 8 Transport Demands Models 1. General overview UPM Code Credits Type Specialization Language 43000411 4,5 Optional Transports, Territory and Urban Planning English Name in Spanish Subject Department Web page Semester Formación predoctoral Modelos de Demanda de Transporte Transport Demands Models Civil Engineering: transports https://moodle.upm.es/titulaciones/oficiales Fourth semester Asignatura válida como créditos formativos de admisión al Programa de Doctorado D7 Doctorado en Sistemas de Ingeniería Civil NOTE. It can be taught in English, depending on the number of students and the availability of professors. 2. Teaching staff Name Evaluation jury Group Office hours Place E-mail address Andrés Monzón Chair All Mon (9.30-12.30) Tue (9.30-12.30) Óscar Martínez Secr. All Fri (9.30-15.30) NOTE. The person on the first place is the course coordinator. TRANSyT Department of Transports andres.monzon@upm.es oscar.martinez@upm.es 3. Previous knowledge Courses that must be taken in advance: Transport Systems Other learning requirements: None 4. Assigned competences Code CGP1 CGP6 CGP7 CE28 Competence Scientific, technical and methodological ability to the continuous use of previous knowledge and the practice of professional functions such as assessment, analysis, design, calculus, project, planning, direction, management, construction, maintenance, conservation and use of civil engineering fields. Knowledge to make use of technical and management capacities in activities of research, development and innovation inside the civil engineering area. Capacity to plan, design, inspect and manage infrastructure constructions of ground transportations (roads, railways, bridges, tunnels and urban roads) and ocean transportations (harbor works). Knowledge of engineering and transportation planning, functions and modes of transport, urban transport, management of public services of transport, demand, costs, logistics and the financing infrastructure and public services.

Pág. 2 de 8 ESCUELA DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS. Curso académico 2015-16 Code CE30 CE41 CT1 CT2 CT3 CT8 Competence Ability to plan, manage and operation of infrastructures related to Civil Engineering. Capacity to apply technical knowledge to the evaluation of infrastructures and transport systems. Ability to prepare and present oral, written and graphical documents with order and clarity. Capacity to become autonomous and multi-skilled. Capacity of technical communication in English, written and oral. Ability to design, analyse and understand relevant experiments in civil engineering. 5. Student outcomes Code SO1 SO2 SO3 Learning results The student knows and understands the planning process of transport networks, the objectives to reach and the criteria and indicators that measure the compliance. The student knows how to design, make and use mobility surveys as well as transport databases. The student knows transport modelling techniques and manage the four step model. Competences linked All the previous ones All the previous ones All the previous ones 1. Indicators of achievement Code Basic Indicators of achievement SO linked AI1 AI2 AI3 Yes Yes Yes Yes The student knows how to develop planning processes of transport in different territorial scopes. The student knows the necessity of having information with appropriate quality for each planning process. The student knows how to analyze the mobility seeing the results of previous studies and statistics information. The student knows how to implement and make use of transportation models, in each phase and stage. NOTE. Basic: Indicator that must be achieved to pass the subject. SO1 SO2 SO2 SO3 7. Evaluation methods and criteria Code, name of evaluation methods, brief description of evaluation methods, criteria, place and period of evaluation Weight 7.1. Evaluation through continuous assessment EM1. Participation and resolution of interactive exercises and case- studies 10% Description: It consists of evaluate the level and quality of student s participation in master lectures, practice lessons, laboratory classes and lectures, as well as exercise an case-studies. Evaluation criteria: The professor will evaluate the students according to the notes of participation and attention. Place and period: At class, during the course. EM2. Individual/autonomous and assisted resolution of case studies 20% Description: It consists of solving theoretical issues or practical exercises which will be done in class.

ESCUELA DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS. Curso académico 2015-16 Pág. 3 de 8 Code, name of evaluation methods, brief description of evaluation methods, criteria, place and period of evaluation Weight Evaluation criteria: Each exercise will be ranked from 0 to 10. The mark of this part will be the weighted average of all the exercises done during the course. Place and period: At class, during the course. EM3. Laboratory classes 30% Description: Students will do modelling practices in the computer lab. They will learn how to use demand models, including the design and characterization of networks, the calculation of demand matrices, modal distribution and allocation of routes. Evaluation criteria: Laboratory classes will consist on knowing the modelling tool, which will be evaluated by practice applications of the model network. Then, each student will make a series of case studies, which will be in groups. Place and period: At laboratory classes, during the course EM4. Final exam 40% Description: The final exam will consist of two parts, with a duration of 2 hours. The first part will consist of theoretical or applied questions. The second part will consist of exercises that will include practical problems. Evaluation criteria: Each exercise will be ranked from 0 to 10. The score will be the weighted average of the marks obtained in the exercises. Place and period: To be detered by the Head of Studies Result of the evaluation through continuous assessment The final score will be the weighted average of the results obtained: - For those students who have gone to the 80% of the lessons, the weighted average of the four parts of evaluation seen previously. - For all the students, the score obtained by the evaluation through final exam that will be described next. The subject will be passed if the final score is equal or greater than 5. Those students with a score less than 5 through continuous assessment in the ordinary exaation will not pass the subject and will have another opportunity in the second period exaation (extraordinary), with through final exam evaluation. 7.2. Evaluation through final exam only Description: The exam will be the same final exam done by the students under the evaluation through continuous assessment. Evaluation criteria: Each exercise will be ranked from 0 to 10. The score will be the weighted average of the marks obtained in each exercise. Place and period: To be detered by the Head of Studies. Result of the evaluation through final exam only The final score will be the one obtained in the final exam. The subject will be passed if the final score is equal or greater than 5. 8. Course content Units, sections and descriptors Unit 1. Planning process: objectives and indicators 1.1. Sustainability objectives 1.2. Planning criteria 1.3. Indicators 1.4. Models as tools for planning Achievement indicators linked AI1

Pág. 4 de 8 ESCUELA DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS. Curso académico 2015-16 Units, sections and descriptors Unit 2. Surveys and Information resources 2.1. Necessity of information and data sources available 2.2. Surveys: typology, design and sampling 2.3. Surveys of revealed preferences 2.4. Surveys of stated preferences 2.5. Analysing and application of data collected 2.6. New information sources: big data Unit 3. Structure of model transport to travellers 3.1. Concept and structure 3.2. Model network and necessary data 3.3. Demand model and related information 3.4. Balance between supply-demand and forecasting Unit 4. Building the network model 4.1. Zoning 4.2. Components and characteristics of the network: infrastructures 4.3. Public transport services: frequency, rates 4.4. Route optimization and network checks Unit 5. Four steps demand model 5.1. Trip generation/attraction model 5.2. Trip distribution model: matrices supply-demand 5.3. Mode choice model 5.4. Route choice model 5.5. Assignment Unit 6. Transport of merchandise model 6.1. Aggregate models 6.2. Logistic models Unit 7. Other transport models 7.1. Integrated models of land use and transport 7.2. Micro models 7.3. New techniques of real time modelling Unit 8. Application of models: case studies 8.1. Application in urban area: private car 8.2. Application in urban area: public transport 8.3. Application in long distances 8.4. Application in freight logistics Achievement indicators linked AI2, AI3 AI3, 9. Description of teaching methodology Theory lessons: The teacher will explain the necessary concepts to understand the concepts of the course in order for the student to achieve the expected indicators. The teacher will use appropriate practical examples and logical reasoning to develop the scientific and technical abilities of the student. The participation of students will be encouraged by means of discussions on the topics taught. Practice lessons: Practice lessons will be aimed at the resolution of exercises and case-studies. Practice lessons are intended as a correlation between the content of theory lessons and engineering practice, in order for the student to achieve the ability to apply the acquired knowledge in the future career. The teacher will first solve some exercises and case-studies to show the students how to work on their own later.

ESCUELA DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS. Curso académico 2015-16 Pág. 5 de 8 Laboratory classes: Laboratory classes will take place during the course, one to each phase of the supply-offer modelling of transport systems. Independent work: The student shall study the contents explained in theory lessons and shall strive to solve the exercises and case-studies. Professional meetings: Professionals of the transport sector will be invited to give some lectures in application of the issues view at the lessons. Office hours Office hours are intended as a complement for the students to ask questions on the content of the course. Details of office hours are detailed at the beginning of this guide for each teacher. 10. Bibliography and resources Basic bibliography: Modelos de Transporte (Transport Modelling) Juan de Dios Ortuzar, Luis Willumsem, Universidad de Cantabria, 2008 Complementary bibliography: Transportes: un enfoque integral. Izquierdo, R. et al. (2001). Colegio de Ingenieros de Caos, Canales y Puertos. Madrid. Handbook of Transport Modelling. Hensher, D.A. and Button, K.J. Elsevier Science, 2000. Stated Preference Modelling Techniques. PRTC. London, 2000 Web resources: Movilia 2006/07 Ministry of Public Works www.fomento.es Transport and logistic Observatory www.observatoriotransporte.fomento.es Metropolitan mobility Observatory www.observatoriomovilidad.es Web site of the subject, virtual platform (MOODLE). Specific equipment: Computer lab with computers provided with transport modelling software and academic license

Pág. 6 de 8 ESCUELA DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS. Curso académico 2015-16 Table 11. Time schedule Week (see Note 1) 1 2 3 4 5 6 7 8 9 10 11 12 Theory lessons Practice lessons Laboratory classes (see Note 1) Independent work Evaluation activities Other activities Hours Unit 1 Study Unit 1 6 h 45 3 h 3 h 45 Unit 1 Study Unit 1 6 h 45 3 h 3 h 45 Unit 2 Study Unit 2 6 h 45 3 h 3 h 45 Unit 3 Study Unit 3 6 h 45 3 h 3 h 45 Unit 4 Study Unit 4 7 h 45 1 h 2 h 4 h 45 Unit 4 Study Unit 4 7 h 45 1 h 2 h 4 h 45 1 h 2 h 4 h 45 1 h 2 h 4 h 45 1 h 2 h 4 h 45 1 h 2 h 4 h 45 1 h 2 h 4 h 45 Units 6 and 7 Study Units 6 and 7 7 h 45 3 h 4 h 45

ESCUELA DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS. Curso académico 2015-16 Pág. 7 de 8 Week (see Note 1) 13 14 15 To the exam Theory lessons Practice lessons Laboratory classes (see Note 1) Independent work Evaluation activities Other activities Hours Units 7 and 8 Study Units 7 and 8 7 h 45 3 h 4 h 45 Unit 8 Study Unit 8 Lecture 6 h 45 1 h 3 h 45 2 h Review 1 h 1h Independent study and preparation of final exam Final exam 12 h 4 h Hours 27 h 1 h 14 h 73 h 30 4 h 2h NOTE 1. Exact dates are shown in the academic calendar. 2 h 16 h 121 h 30

Pág. 8 de 8 ESCUELA DE INGENIEROS DE CAMINOS, CANALES Y PUERTOS. Curso académico 2015-16

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information