project 1

LFSAB1501  2016-2017  Louvain-la-Neuve

project 1
8.0 credits
40.0 h + 40.0 h
1q

Teacher(s)
Raucent Benoît (coordinator) ; Ben-Naoum Abdou Kouider ; Bollen Xavier (compensates Raucent Benoît) ; Jacqmot Christine (compensates Raucent Benoît) ; Pecheur Charles ;
Language
Français
Prerequisites

None

Main themes

The project consists of four phases:

  •  The pre-project consists in choosing the best solution among all imaginable ones.  This is thus an exploratory phase that aims at better understanding the demand and proposing solutions.  The pre-project ends with the creation of a study model, a report and a pre-jury.
  •  Theoretical model and simulation consists in presenting a theoretical model (kinematics) and a simulation of the way in which the machine will be commanded to execute the manoeuvers in the chosen solution: what instructions must be given for moving on a straight line, taking a turn.
  •  Experimentation and validation:  At this stage, experiments are carried to characterize the LEGO motors and a pilot prototype in LEGO is built and experimented.  The robot is commanded in JAVA.  Students have the opportunity to compete with their robot for the De Bremaecker-Stockhem prize.
  •  Synthesis and presentation of the work in a report and orally, facing a final jury.
Aims

Contribution of the course to the program objectives

Regarding the learning outcomes of the program of Bachelor in Engineering, this course contributes to the development and the acquisition of the following learning outcomes:

  • LO 1.1, 1.2
  • LO 2.1, 2.2, 2.3, 2.4, 2.5, 2.6, 2.7
  • LO 3.1, 3.2, 3.3
  • LO 4.1, 4.2, 4.3, 4.4, 4.5
  • LO 5.1

Specific learning outcomes of the course

More precisely, at the end of the course the students will be able to:

  • to use technical drawing (by hand) as a design and communication tool: 2D plan and simple perspectives (cavalier and axonometric).
  • to build a kinematic model of a mobile robot, to compute internal efforts of a simplified robot model, to measure torques and internal frictions, to measure power and work produced by robot motors, to establish a balance of electrical and mechanical energy.
  • to develop and test a JAVA program that allows the robot to perform, at scale, arbitrary manoeuvers and trajectories.

The project aims at developing the following cross-cutting skills:

  • Working in team to carry through an engineering-type project.
  • Carrying a multi-disciplinary project.
  • Exercising scientific research practices.
  • Communicate verbally in an efficient manner.
  • Communicate in writing in an efficient manner.
  • Self-appraise with respect to target training objectives in order to progress.

The development of this skills must be carried in a prograssive way, cumulated and deepened across the three projects LFSAB1501, LFSAB1502 and LFSAB1503. The progression in the development of these crosscutting skills and a description of the different stages to be passed towards the development of each is presented on the web pages of the EPL BTCI Program Commission.

The contribution of this Teaching Unit to the development and command of the skills and learning outcomes of the programme(s) can be accessed at the end of this sheet, in the section entitled “Programmes/courses offering this Teaching Unit”.

Evaluation methods

The project will be assessed formatively (not summatively) all along the project.  For each activity, students receive in advance the grid that will be used to assess their work.  The pre-project is essentially formative and leads to a "contract" that will be assessed during the final jury.  At the end of the presentation to the jury, a de-briefing session will take place between the students and their tutor.  The final note for the project includes:

  • A group note (1/2): group presentation to the jury, grooup report, evaluation by the tutor.
  • An individual note (1/4): written exam during the session.
  • An individual drawing note (1/4).
Teaching methods

Project based learning

Content

The project aims at designing a robot, modelling and validating the design by building a prototype:

  • establishing requirements
  • proposing a structure for the robot
  • drawing by hand plans of the robot and communication drawings (in 2D and perspective)
  • modelling and simulating the physical behaviour of the machine
  • proposing a computer implementation of the command of the machine
  • showing the technical feasibility of the proposed solution on a reduced model of the robot using the LEGO Mindstorms system

The project is a particular problem-situation by its duration (one quadrimester) and by the possibility to integrate knowledge and skills.  The project aims at putting into context and integrating matters taught during the same quadrimester, while applying previously acquired knowledge and skills.

Faculty or entity<


Programmes / formations proposant cette unité d'enseignement (UE)

Program title
Sigle
Credits
Prerequisites
Aims
Bachelor in Engineering
8
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