High Performance Processing of Distributed Acoustic Sensing Data

Lead Research Organisation: University of Liverpool
Department Name: Electrical Engineering and Electronics


Distributed Acoustic Sensing (DAS) offers great potential to extract pertinent information from the environment close to optical fibres, turning each 50km long fibre into 5000 (or more!) acoustic microphones. This has significant commercial utility in contexts that include monitoring roads and railways as well as protecting critical infrastructure (eg gas pipelines and nuclear power stations). A market-leading DAS company have a novel ability to use coherent processing to maximise the ability to extract such information. This provides an opportunity to develop a novel Bayesian signal processing chain that fully exploits the novel sensing capability. This PhD will focus on developing a high performance variant of this processing chain using state-of-the-art techniques such as particle filters, Convolutional Neural Networks etc. The focus will be on a subset of: detection, localisation (e.g., using beamforming), tracking and classification of anomalies (e.g., the sounds of people walking, digging, driving, etc) as well as long term condition monitoring and simulation (both for assessment of performance and generation of training data for machine learning algorithms). Note that since the data-rates involved are high, it is anticipated that software will need to be developed with a view to implementation on a small cluster of GPUs or similar. The specific focus of the PhD will be chosen to be well matched to the skills of the student (as well as to the company's needs).


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Studentship Projects

Project Reference Relationship Related To Start End Student Name
EP/S023445/1 31/03/2019 29/09/2027
2299114 Studentship EP/S023445/1 31/08/2019 30/08/2023 Marco Fontana