Electronics I

Posted on 19 December, 2014 by Stephane

The syllabus of the 1st-year module entitled “Electronics I” is divided into two parts: Analogue Electronics taught by me and Digital Electronics taught by Dr N Coleman.

You can download the lecture notes on analogue electronics for the current academic year by clicking on EEE1002 – EEE1010 Lecture Notes.

In addition, you can even download the answers to all tutorials by clicking on the links below.

Answers Tutorial 1 EEE1002 – EEE1010 – Answers Tutorial 2 EEE1002 – EEE1010 – Answers Tutorial 3 EEE1002 – EEE1010 – Answers Tutorial 4 EEE1002 – EEE1010 – Answers Tutorial 5 EEE1002 – EEE1010 – Answers Tutorial 6 EEE1002 – EEE1010

I am currently trying to further improve this set of lecture notes by adding new topics and tutorial questions/answers. This takes a lot of time. I however expect the new lecture notes to be ready before September 2015, just in time for the start of the academic year.

De-mapping Equations in “Advanced Modulation and Coding”

Posted on 18 December, 2014 by Stephane

I jointly teach the module entitled “Advanced Modulation and Coding” with Dr Martin Johnston. This module is offered to both our MSc and MEng students. Dr Johnston is in charge of the “coding” part, whereas I teach the “modulation” part. You can download the lecture notes for my part by clicking on this link: EEE8003.

The coursework for this module consists of a Matlab assignment in which students have to assess via Monte Carlo computer simulations the error performance of several coded modulation systems over both Gaussian and flat Rayleigh fading channels. The assignment questions can be found in the last pages of the lecture notes.

In the Matlab assignment, students are required at some stage to use a soft-decision Viterbi decoder in order to improve the error performance of the system. This can be done only if a de-mapping function (also known as a “demapper”) is employed at the channel output. The purpose of the demapper is to convert the channel estimates into estimates of the transmitted bits that can then be processed by the soft-decision Viterbi decoder.

Finding the equations to implement the de-mapping function is not an easy task. This is why I am happy to offer a bit of help here: these equations can be found in the two following papers: ICC 1994 and Eusipco 2000.

You will notice that, remarkably, the demapper can be implemented using a set of very simple equations.

Information Theory & Coding

Posted on 18 December, 2014 by Stephane

I used to teach a module entitled “Information Theory & Coding” from 2006 to 2012. Although it is no longer taught at Newcastle University, I still have a fairly complete set of lecture notes that some of you might enjoy reading.

You can download it by clicking on the link below.

EEE2004

Information theory is a branch of applied mathematics that was introduced by Claude Elwood Shannon in 1948. Information theory finds its applications in many fields such as data compression, data protection, neurobiology, genetic evolution, finance, etc.

Welcome to my Blog!

Posted on 18 December, 2014 by Stephane

Welcome to my Blog!

My name is Stéphane Le Goff. Since 2005, I have been a lecturer in the School of Engineering at Newcastle University, United Kingdom.

I received the BSc, MSc, and PhD degrees, all in electrical engineering, from the University of Western Brittany (known in France as the Université de Bretagne Occidentale), Brest, France, in 1990, 1991, and 1995, respectively.

My main interests in the field of engineering include electronics and digital communications.