6 ECTS credits
160 u studietijd

Aanbieding 1 met studiegidsnummer 4016376ENR voor alle studenten in het 1e semester met een verdiepend master niveau.

Semester
1e semester
Inschrijving onder examencontract
Niet mogelijk
Beoordelingsvoet
Beoordeling (0 tot 20)
2e zittijd mogelijk
Ja
Onderwijstaal
Engels
Onder samenwerkingsakkoord
Onder interuniversitair akkoord mbt. opleiding
Faculteit
Faculteit Ingenieurswetenschappen
Verantwoordelijke vakgroep en betrokken faculteiten/vakgroepen
Elektriciteit
Elektrotechniek-Energietechniek
Elektronica en Informatica
Onderwijsteam
Peter Van Den Bossche (titularis)
Hichem Sahli
John Lataire
Valéry Ann Jacobs
Onderdelen en contacturen
36 contacturen Hoorcollege
36 contacturen Werkcolleges, practica en oefeningen
Inhoud

Partim P. Van den Bossche
The course is aimed at the analysis of the electrical and electronic systems used on board vehicles. It will focus on the components used and their functionality, and more particularly on the communication and diagnosis systems, where data buses such as the CAN bus (controller area network) are specifically treated and illustrated in practical exercises. Future evolutions of these technolgies are highlighted. Aspects ike electrical energy storage and electric traction are not covered as such, since these are treated by specific courses.

 

Partim VA Jacobs

Introduction to radiometry and photometry,

Lighting and safety

Lamp technology and optical design

Road lighting

Simulations in Dialux Evo 6.1

Vehicle lighting

 

Partim L. Van Biesen - H. Sahli

This course aims to give students of engineering sciences a clear introduction into navigation, in the broadest sense and based on its historical development. This means that the basic knowledge of mathematical and geographical descriptions must be revised and that the theory of terrestrial navigation will be studied. Through practical examples of navigation the student is meant to become acquainted with the application of the concepts and theoretical findings. After having followed this course, students must be capable of proposing the methods required for positioning and dead reckoning, defining the uncertainties associated with it, and must be able to suggest position and movement sensors, indicate correction and processing algorithms, and will be able to analyse fusing methods and networking. When we discuss automatic navigation and intelligence emphasis is of course placed on road vehicles.

Rationale: (L. Van Biesen)

General introduction to automatic navigation. Short historical perspective. Introduction to geodesion and map projection systems used in navigation (Latitude and Longitude. Motivation for nautical mile and knots. Mercator and Lambert projections. Reference ellipsoids and datum, WGS84).

Positioning techniques: (L. Van Biesen)

Short introduction (revision) of reproduction of radio waves (general electromagnetic reproduction, antennae, reproduction modes like ground wave, ionospherical reproduction, optical view). Measuring methods divided into 4 classes (angle directing methods, phase measurements, signal strength measurements, time measurements). Removing ambiguities (with GPS serving as an example), hyperbolic positioning methods. Localising through cellular networks (GSM, UMTS).

Satellite navigation: (L. Van Biesen)

Study of GPS and Differential GPS. GLONASS, Galileo and GPS-III.

Terrestrial navigation: (L. Van Biesen)

Problems with the use of satellite positioning and cellular radio in urban areas (urban canyon navigation). Methods and sensors for estimation of positioning and dead reckoning (ABS, gyroscopes, accelerometers).

Intelligent vehicles (H. Sahli)

Image processing, line tracking, traffic control, positioning, anti-collision,...

Studiemateriaal
Handboek (Aanbevolen) : Multiplexed Networks for Embedded Systems, CAN, LIN,FlexRay, Safe-by-Wire, D. Paret, Wiley, 9780470034163, 2007
Handboek (Aanbevolen) : Road Lighting for Safety, D. A. Schreuder-SWOV-NL, BIB, 9780727726162, 1998
Handboek (Aanbevolen) : Visual Search, David Brogan ed., BIB, 9780850667738, 1990
Handboek (Aanbevolen) : Lichttechnik und optische Wahrnehmungssicherheit im Straßenverkehr, M Eckert, BIB, 9783341010723, 1992
Digitaal cursusmateriaal (Aanbevolen) : Road Lighting Ebook, W. Van Bommel, De Boer, Springer International Publishing, 9783319114668, 2014
Digitaal cursusmateriaal (Vereist) : Syllabus and PPPresentation "Lighting for Transport" (P. Rombauts), P. Rombauts
Digitaal cursusmateriaal (Vereist) : Course slides, P. Van den Bossche, Canvas
Digitaal cursusmateriaal (Vereist) : Course slides, L. Van Biesen, Canvas
Digitaal cursusmateriaal (Vereist) : Course slides, H. Sahli, Canvas
Bijkomende info

Description tutoring: after class, by appointment or via e-mail. 

Leerresultaten

Algemene competenties

Partim P. Van den Bossche:
Students have to gain insight in the structure and operation of on-board vehicle electrics and electronics, particularly concerning the communication and diagnosis systems.
 
 
Partim VA Jacobs :
It concerns a specialised course in light and lighting within the applications of transport oriented towards the transfer of knowledge and the learning and developing of skills.  This course is tuned to the degree of academical transport engineer but is covering a broad spectrum of aspects that obviously should interest other engineering disciplines too.  The objective is to acquire insight in lighting applications for transport and to be able to reflect on the matter.
Exam Requirements :
The student should show distinct ability to relate and transform lighting science into practical examples of transport questions.  Insight into the subject of lighting for transport as well as thinking and reflecting upon the matter is of extreme importance !
 
Partim L. Van Biesen - H. Sahli
Students have to gain insight in navigation issues for road vehicles,  being capable of proposing the methods required for positioning and dead reckoning, defining the uncertainties associated with it, and must be able to suggest position and movement sensors, indicate correction and processing algorithms, and be able to analyse fusing methods and networking. 

Scientific competences

Can correctly report on research or design results in the form of a technical report or in the form of a scientific paper.

Scientific competences

Can present and defend results in a scientifically sound way, using contemporary communication tools, for a national as well as for an international professional or lay audience.

Scientific competences

Can collaborate in a (multidisciplinary) team.

Scientific competences

Can work in an industrial environment with attention to safety, quality assurance, communication and reporting.

Scientific competences

Can develop, plan, execute and manage engineering projects at the level of a starting professional.

Scientific competences

Can think critically about and evaluate projects, systems and processes, particularly when based on incomplete, contradictory and/or redundant information.

Attitudes

Having a creative, problem-solving, result-driven and evidence-based attitude, aiming at innovation and applicability in industry and society.

Attitudes

Having a critical attitude towards one's own results and thos of others.

Attitudes

Having consciousness of the ethical, social, environmental and economic context of his/her work and strives for sustainable solutions to engineering problems including safety and quality assurance aspects.

Attitudes

Having the flexibility and adaptability to work in an international and/or intercultural context.

Knowledge oriented competences

Having in-depth knowledge and understanding of exact sciences with the specificity of their application to engineering.

Attitudes

Having an attitude of life-long learning as needed for the future development of his/her career.

Knowledge oriented competences

Having in-depth knowledge and understanding of integrated structural design methods in the framework of a global design strategy.

Knowledge oriented competences

Having in-depth knowledge and understanding of the advanced methods and theories to schematize and model complex problems or processes.

Knowledge oriented competences

Having a broad scientific knowledge, understanding and skills to be able to design, produce and maintain complex mechanical, electrical and/or energy systems with a focus on products, systems and services. E.g. codepo project, courses around renewable sustainable mobility,....

Knowledge oriented competences

Having an in-depth scientific knowledge, understanding and skills in at least one of the subfields needed to design, produce, apply and maintain complex mechanical, electrical and/or energy systems.

Knowledge oriented competences

Having an in-depth understanding of safety standards and rules with respect to mechanical, electrical and energy systems.

Scientific competences

Can reformulate complex engineering problems in order to solve them (simplifying assumptions, reducing complexity).

Scientific competences

Can conceive, plan and execute a research project, based on an analysis of its objectives, existing knowledge and the relevant literature, with attention to innovation and valorization in industry and society.

Beoordelingsinformatie

De beoordeling bestaat uit volgende opdrachtcategorieën:
Examen Andere bepaalt 100% van het eindcijfer

Binnen de categorie Examen Andere dient men volgende opdrachten af te werken:

  • Examen andere met een wegingsfactor 100 en aldus 100% van het totale eindcijfer.

    Toelichting: Examenmoment 1ste zittijd:
    Partim P. Van den Bossche
    - Hoorcollege: mondeling examen met schriftelijke voorbereiding 20% (niet overgedragen naar 2e zit)
    - Practica: verslagen 13,33% (onmiddellijk overgedragen naar 2de zit)

    Partim VA Jacobs
    - Hoorcollege: mondeling examen met schriftelijke voorbereiding 20% (niet overgedragen naar 2e zit)
    - Zelfstudie: 13,33% (niet overgedragen naar 2de zit)


    Partim L. Van Biesen and H. Sahli:
    - mondeling examen L. Van Biesen: 6.66% (niet overgedragen naar 2e zit)
    - mondeling examen H. Sahli 6.66% (niet overgedragen naar 2e zit)
    - practica: verslagen 20% (onmiddellijk overgedragen naar 2de zit)


    Examenmoment 2de zittijd:
    Partim P. Van den Bossche
    - Hoorcollege: mondeling examen met schriftelijke voorbereiding 20% - Practica: verslagen 13,33% (onmiddellijk overgedragen van 1ste zit)

    Partim VA Jacobs:
    - theoretisch gedeelte 20%
    - zelfstudiegedeelte13.33%

    Partim L. Van Biesen and H. Sahli:
    - mondeling examen L. Van Biesen: 6.66%
    - mondeling examen H. Sahli 6.66%
    - practica: verslagen 20% (onmiddellijk overgedragen van 1ste zit)

Aanvullende info mbt evaluatie

Not applicable

Toegestane onvoldoende
Kijk in het aanvullend OER van je faculteit na of een toegestane onvoldoende mogelijk is voor dit opleidingsonderdeel.

Academische context

Deze aanbieding maakt deel uit van de volgende studieplannen:
Master in de ingenieurswetenschappen: werktuigkunde-elektrotechniek: duurzaam transport en voertuigtechnologie
Master of Electromechanical Engineering: Sustainable Transport and Automotive Engineering (enkel aangeboden in het Engels)