Hardware Implementation Strategies for JPEG 2000. JPEG2000 is a new image compression standard, which is expected to become the dominant format for image communications over the internet and then make inroads into consumer peripheral devices, including digital cameras, printers and scanners. The standard is fundamentally different from and much more complex than its well-known predecessor, JPEG, and there are currently no published hardware implementations. The aim of this project is to investig ....Hardware Implementation Strategies for JPEG 2000. JPEG2000 is a new image compression standard, which is expected to become the dominant format for image communications over the internet and then make inroads into consumer peripheral devices, including digital cameras, printers and scanners. The standard is fundamentally different from and much more complex than its well-known predecessor, JPEG, and there are currently no published hardware implementations. The aim of this project is to investigate a wide range of potential implementation strategies to identify those which are able to minimize the consumption of various resources, including memory consumption, memory bandwidth, chip area and processing latency.Read moreRead less
New Methods and Microelectronics for Wireless Communication Systems. Global demand for high quality wireless communications poses significant challenges. The so-called "physical layer" is crucial, as this is where the vagaries of the wireless channel, including interference and limited bandwidth, are mitigated by sophisticated signal processing.
This project will conduct applied research to meet these physical layer challenges, providing solutions that feed directly into next generation wirel ....New Methods and Microelectronics for Wireless Communication Systems. Global demand for high quality wireless communications poses significant challenges. The so-called "physical layer" is crucial, as this is where the vagaries of the wireless channel, including interference and limited bandwidth, are mitigated by sophisticated signal processing.
This project will conduct applied research to meet these physical layer challenges, providing solutions that feed directly into next generation wireless communication systems.
Uniquely, this project focuses on the transfer of research from theoretical genesis, through to realisation of silicon integrated
circuit "chips". This will maximise both the impact of the research
and the potential for significant national economic benefits to accrue.Read moreRead less