Underwater information systems
Our oceans and seas remain largely unexplored due to the hostile nature of the environment, yet they contain a wealth of resources, pristine nature and biodiversity.
Improvement in wireless communications would transform our ability to explore the oceans, by enabling unobtrusive real time continuous data collection and control of underwater devices from remote sites. Such technology would allow us to gather a wealth of data to better understand the Earth’s natural processes, monitor marine life, and protect biodiversity. It will help predict natural disasters and undoubtedly lead to the discovery of new ecosystems, sources of energy, food and medicine.
Current underwater deployments often comprise low numbers of instruments recording data during a mission for later retrieval. This is an inflexible approach which inhibits adaptation or control of sensing tasks. Acoustic signals are most suitable for long-distance transmission, but the oceans present a different scale of challenge for signal propagation. The focus of our research is to exploit knowledge of underwater acoustic propagation and develop advanced point to point communication and networking capability. Topics of current interest include:
- Modelling of underwater acoustic communication channels (at the signal level)
- Physical layer signalling for underwater acoustic communication
- Full duplex underwater acoustic communications
- Intelligent medium access control protocols for underwater acoustic networks
- Localisation of nodes in underwater communication networks
- Exploitation of relays for enhanced communication performance
- Multi-hop underwater networks
Download our Waymark Based Underwater Acoustic Channel Model
- Smart Dust for Large Scale Underwater Wireless Sensing
- Medium Access Control Protocols for Underwater Acoustic Networks
- Advanced Signal Processing Techniques for Underwater Acoustic Imaging
- Self-Interference Cancellation for Full-Duplex Underwater Acoustic Systems
- Intelligent Medium Access Control for Underwater Acoustic Communication Networks
- Full-duplex MAC protocol for Underwater Acoustic Networks
- Multi-Antenna Underwater Acoustic Communication Systems
- Effective Medium Access Control for Underwater Acoustic Sensor Networks
- Intelligent Medium Access Control for Underwater Acoustics Communication Networks
- Development of real-time UWA communication modem
Previous or current non-academic collaborators include:
- Proserv (Nautronix)
- Subsea 7 Limited
- TECHNIP-COFLEXIP UK HOLDINGS LIMITED
- Integration of optical, radio and acoustic communication technologies end-to-end systems, eg providing remote internet connectivity to underwater assets using an aerial platform based on a combination of radio and/or free space optics and underwater acoustics
- Underwater sensors for real-time monitoring
- Exploitation of state-of-the-art experimental facilities.
- National Nuclear Lab
- National Physical Laboratory
- Kromek PLC
- LabLogic
- AWE
- Sellafield Sites
- Jacobs
- Nuvia
- UKAEA