Alister G. Burr

TL;DR: This paper provides an overview of the state-of-the-art radio propagation and channel models for wireless multiple-input multiple-output (MIMO) systems and describes a couple of key features of channels and radio propagation which are not sufficiently included in current MIMO models.

TL;DR: A novel sub-optimal scheme is presented which provides a GP formulation to efficiently and globally maximize the minimum uplink user rate and substantially outperforms the existing schemes in the literature.

TL;DR: The integral inequality lemma is applied to extend research to more general Nakagami-m fading channel and can be applied to evaluate the average packet error rate of a conventional packet transmission system over a quasi static fading channel.

TL;DR: This book is aimed primarily at final year undergraduate or Master's level postgraduate students, with the implications that some prior exposure to basic communication principles would be helpful, and it is hoped it will support courses towards the end of a Bachelor's program (or an equivalent first degree in Europe), or master's level courses or in support of Doctoral programmes.

TL;DR: The limits to the capacity of the multiple-input-multiple-output wireless channel as modeled by the finite scatterers channel model is considered, a generic model of the multipath channel which accounts for each individual multipath component.