Volvo

Background

A brief introduction

Environment

To meet the future demands of engine efficiency and environmental requirements, multivariable engine control is a way to achieve these needs of coming generations.

Performance

At the same time there will always be times were power is needed, and with a variable powertrain this can be achieved without compromising on engine efficiency.

CDIO

Conceive, Design, Implement, Operate. This has been the core of this project. The meaning of these words in terms of our project is what will be presented here.

Gallery

Snapshots from the process

Data

Open step

Feedback

Closed step

Reality vs simulation

VVT Validation

Simulink

VVT-Controller

Motor testing

Test cell engine

Multi variable control

Final Product

OUR TEAM

Our team consists of five students currently studying a master's in mechatronics.

William Winbladh

Project leader

Carl Tidén

Responsible for quality

Erik Vandor

Responsible for testing

Tobias Sanchez

Responsible for design

Johan Eriksson

Responsible for documentation

Video

Our documentation of the project

In this section you can view and download all accumulated information about the project. All documents are in LIPS.

Technical report

Our entire work flow and reasonings in the project work.

Requirement specification

All requirements on the product and their prioritization.

Design specification

Our pilot study.

Test protocol

All tests performed and which requirements they satisfy.

Project plan

Our general plan of the project.

User manual

A user manual to the product.

Poster

Our poster presentation [A0-format].

envato

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