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This lecture provides an overview of telematics systems and their design, covering European applications, policy implications, methodology, and practical application to selected projects. Students will be introduced to the course objectives and evaluation criteria.
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Lecture 1:Course Introduction Telematics systems and their design Prof.Ing. Ondřej Přibyl, Ph.D. Ing. Petr Bureš, Ph.D. Faculty of Transportation sciences, CTU
Lecture 1 – Overview • Course objectives • Introduction of the students • Course overview • Course evaluation • Project
Objective of this course • Part I - Lectures: • To introduce traffic telematics systems • European applications, policy implications • Part II - Exercises: • To provide an overview of the methodology and major steps in analysis and design of systems • Focus on telematics systems • Best practice approach • Practical application to a selected project
Introduction of the students – main topics for discussion • Your background • Experiences with traffic telematics • Theoretical (courses) • Practical (from your country) • Other • Why are you interested in traffic telematics? • What do you expect from this course?
Course materials • Lectures • Individual internet recherché • Internet resources • to be provided by particular topics by the lecturers • Further recommended reading (Part II) • Systems Analysis and Design Methods • by Jeffrey L. Whitten, Lonnie D. Bentley • Publisher: McGraw-Hill Companies, The • November 2005 • Edition 7 • Several copies available in the library
Main contact • Course web site • Used for all readings • General information • its.fd.cvut.cz → Courses → Telematic Systems and Their Design (http://its.fd.cvut.cz/ms-en/courses/telematic-systems-and-their-design-1) • Assignment submission • via email • Contact data: • Petr Bureš (https://usermap.cvut.cz/profile/burespe1/) • Email: burespe1@fd.cvut.cz • Office: Konviktská 20, 5th floor • Ondřej Přibyl (https://usermap.cvut.cz/profile/xpribyl1/) • Email: pribylo@fd.cvut.cz • Office: Na Florenci 25, 4th floor, Nr. 407 • Personal consultation • On request (e-mail)
Evaluation and grading • Assesment • Project • Up to 45 Points • Lectures – 15 points (presentation and short paper) • Exercises – 30 points (Demonstration of your understanding particular steps in design of telematics systems) • Final presentation • 15 Points ( 5 – formal aspects, 5 – presentation, 5 – technical understanding) • Evaluation: • Maximum: 60 point • Minimum for assessment: 31 points • In case of more than 40 points: +10 extra points to exam • In case of more than 50 points: +20 extra points to exam • Exam • Written test • Max 100 points
Project: Major objectives • To demonstrate understanding of the main steps in system analysis and design (SAD) • To gain experience with one (small scale) project from beginning to the end • To learn how to document / present own ideas • To get familiar with an ITS system
Project: General features • All deliverables will be evaluated according to: • Meeting of the objective • Optimality of the scope and level of details • Structuring • Correctness of the content • Clarity of used pictures and descriptions • Formal requirements (name and scope of the document, authors, date, objectives, topic, main body, references, and others)
Project: General features • Demonstrate your understanding of the topic by addressing also exceptions and special cases (configuration, handling of failures, obtaining of statistical data, and others) • SW to be used • Microsoft products for the reports (MS Word, MS Visio, MS Project and others) • Optionally - dedicated CASE tool • Enterprise Architect not available for students (30 day trial version) • Open source products • Visual Paradigm (http://www.visual-paradigm.com/product/vpuml/) • Argo UML (argouml.tigris.org) • StarUML (staruml.sourceforge.net/) • Poseidon (http://www.gentleware.com/) • BOUML (http://bouml.free.fr)
Project: Topics • Examples: • User SW for speed measurement system • System for automated classification of traffic • User SW for variable message signs • SW for a bus ticket automata • IT system for logging for exams at a university • Section speed control system • Speed harmonization system • And others • Students are encouraged to chose a topic of their own (preferably in ITS)
Summary of the next tasks for students • Select/specify topic for the project • Delivery • Project name • One paragraph explaining the project • Due date • Per course website - 24 hours prior to theparticular lecture (first task before lecture 13.10.2015) • Next week – discussion • Keep in mind to meet all formal requirements!