Doctor of Engineering (EngD) - Ophthalmic imaging with time and spectral resolution (Occuity Ltd and University of Strathclyde)


   School of Engineering & Physical Sciences

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  Prof D Reid, Dr D Li  No more applications being accepted  Funded PhD Project (UK Students Only)

About the Project

The project aims to develop a data processing analysis pipeline for retinal imaging ophthalmoscopes with spectral and time-resolved measurement capabilities, to detect signatures of severe diseases from ophthalmic data. This unique ophthalmic system is built around a single-photon avalanche photodiode (SPAD) line sensor array with single-photon time-resolved detection [1]. It produces complex and abundant data requiring the development of new data processing and analysis tools to extract accurate and insightful information about the eye’s function and pathology. Specifically, the project will focus on early detection of Alzheimer’s disease [2], the most common form of dementia.

The project’s main focus will be the development of data processing and analysis tools, including the use of artificial intelligence and on-board FPGA processing. This will require characterization of the instrument, algorithm development, tests on physical models of the eye and/or simulated data, and finally data from measurements on the human eye. The student will be deeply embedded in a friendly, multidisciplinary, efficient, and highly experienced team of scientists and engineers specializing in optics, spectroscopy, software engineering, electronics, signal processing, and ophthalmoscopy. They will be rigorously trained in common scientific research principles and specialize in spectroscopy, ophthalmoscopy, and software development.

The student must clearly show interest and capability in conducting multidisciplinary research, particularly with a bioimaging and medical focus. They need to have experience or with data analysis or signal processing, neural networks and/or FPGA firmware development.

[1] A. T. Erdogan et al. (2019) IEEE J Solid-State Circuits, 54(6), 1705-1719, https://doi.org/10.1109/JSSC.2019.2894355.

[2] S. Jentsch et al. (2015) Acta Ophthalmol, 93, e241-e247, https://doi.org/10.1111/aos.12609.

CDT Essential Criteria

A Masters level degree (MEng, MPhys, MSc) at 2.1 or equivalent

Desire to work collegiately, be involved in outreach, undertake taught and professional skills study

Project Essential Criteria

Experience in data analysis, signal processing, neural networks or FPGA firmware development.

Project Desirable Criteria

Experience in fluorescence measurements.

Experience in optics and imaging systems.

The CDT

The CDT in Applied Photonics provides a supportive, collaborative environment which values inclusivity and is committed to creating and sustaining a positive and supportive environment for all our applicants, students, and staff. For further information, please see our ED&I statement: https://bit.ly/3gXrcwg.

Forming a supportive cohort is an important part of the programme and our students take part in various professional skills workshops, including Responsible Research and Innovation, and attend outreach training.

Physics (29)

Funding Notes

This four-year project (including CDT taught courses) is funded jointly by the EPSRC CDT in Applied Photonics, managed by Heriot-Watt University and the industrial sponsor. The first year annual stipend is the UKRI minimum stipend, the stipend in years 2, 3 and 4 includes an enhancement from the industrial sponsor. A substantial consumables and equipment budget is provided by a concurrent EPSRC grant. Travel funding for conference presentations is also available.