Computational Modelling Group

Wireless Communications

For queries about this topic, contact Panagiotis Botsinis.

View the calendar of events relating to this topic.

Projects

Chip Implementation of a Signal Detector for a Multiple-Input Multiple-Output (MIMO) Wireless System

Mark Zwolinski, Basel Halak, Mohammed El-Hajjar (Investigators), Ibrahim Bello

We implement an Application Specific Integrated Circuit (ASIC) for the signal detection of a MIMO receiver.

Predicting Available Energy in Energy Harvesting Wireless Sensor Networks

Geoff Merrett (Investigator), Davide Zilli

Is it possible to predict how much energy a sun-light or wind powered wireless sensor node can harvest and tune its sensing pattern accordingly?

Quantum Computation for Signal Detection in Multiple-Input Multiple-Output Communication Systems

Lajos Hanzo (Investigator), Panagiotis Botsinis

Optimal, classic optimization processes in communication systems, such as signal detection, introduce an extremely high computational complexity in the system. Quantum computation offers the optimal equivalent algorithms in the quantum domain, with at least a quadratic degradation in complexity. Since quantum computers have still not been physically realized though, the quantum algorithms' simulation's complexity is higher than that of the optimal classic equivalents. Use of Iridis is essential in facilitating their simulation.

People

Lajos Hanzo
Professor, Electronics and Computer Science (FPAS)
Mark Zwolinski
Professor, Electronics and Computer Science (FPAS)
Basel Halak
Lecturer, Electronics and Computer Science (FPAS)
Geoff Merrett
Lecturer, Electronics and Computer Science (FPAS)
Ioannis Begleris
Postgraduate Research Student, Engineering Sciences (FEE)
Panagiotis Botsinis
Postgraduate Research Student, Electronics and Computer Science (FPAS)
Davide Zilli
Postgraduate Research Student, Electronics and Computer Science (FPAS)
Ibrahim Bello
None, None