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Design of Novel Channel Coding Techniques for Short Packet Transmission in Massive Internet of Things

In this project, the channel code design problem for massive Internet of Things (IoT) is considered by taking into account the unique characteristic of massive IoT, i.e., short leng more...

Supervisor(s): Shirvanimoghaddam, Mahyar (Dr), Li, Yonghui (Professor), Vucetic, Branka (Professor)

Channel Code Design in Short Block Length Regime: Capacity Analysis and Code Design

Ultra-reliable and low latency communications is central to the development of next generation's mobile communications and many emerging mission critical applications. The project w more...

Supervisor(s): Shirvanimoghaddam, Mahyar (Dr), Li, Yonghui (Professor), Vucetic, Branka (Professor)

Non-orthogonal multiple access for massive Internet of Things

Non-orthogonal multiple access (NOMA) has been identified as a key technology in the fifth generation of mobile wireless standards to improve the network capacity. This project aims more...

Supervisor(s): Shirvanimoghaddam, Mahyar (Dr), Vucetic, Branka (Professor)

Conserved mechanisms of chronic pain

This project involves combining human genomics data for chronic pain disease with high throughput behavioral genomics techniques in fruit fly in order to better understand how chron more...

Supervisor(s): Neely, Greg (Professor)

Whole genome CRISPR screening to define drug mechanism of action

This project will involve new whole genome CRISPR editing strategies, coupled with bioinformatics analysis, to identify the complete molecular mechanism of action for relevant human more...

Supervisor(s): Neely, Greg (Professor)

HUMAN MINIBRAINS GROWN FROM STEM CELLS

This project will involve CRISPR genome editing strategies combined with human stem cell derived mini-brains to investigate new neuronal factors that control development, cognitive more...

Supervisor(s): Neely, Greg (Professor)

CRISPR-based genome editing

The recent development of genome editing technology is perhaps the single biggest technical breakthrough in the history of life sciences, allowing for near complete control over euk more...

Supervisor(s): Neely, Greg (Professor)

Turbulent transport of algae in stably stratified rivers: a computational fluid dynamics study

In stably stratified shear flows, turbulent mixing is suppressed by the background stratification. In rivers, these conditions allow buoyant cyanobacteria to float to the surface an more...

Supervisor(s): Williamson, Nicholas (Dr), Armfield, Steven (Professor)

Turbulent mixing in stably stratified flow: a laboratory and field based study

In stably stratified shear flows, turbulent mixing is suppressed by the background stratification. This project will examine this dynamic using laboratory experiments and field meas more...

Supervisor(s): Williamson, Nicholas (Dr), Armfield, Steven (Professor)

Simulating Transport for Realistic Engineering Education and Training

Understanding and predicting travel demand and travel patterns is one of the most important
but also most challenging tasks of transport
engineers, planners, and geographers. Tr more...

Supervisor(s): Levinson, David (Professor), Ramezani Ghalenoei, Mohsen (Dr)