Founder and Director of Tektonex Ltd, a company that specialises in sensor design, processing, and performance modelling for defence and security systems. Recent projects include the development of an FPGA-based multi-band image processing and fusion system for military vehicles, handheld imaging cameras for border security, multi-band polarimetric imaging systems, and the development of ATDR processing. Tektonex has an international portfolio of clients and partners that provide sensor hardware and camera platforms (vehicles, drones).
In April 2024 I was appointed as an Associate Professor at the University of Western Australia. My current research interests include integrated FPA and MEMS technology.
Prior to Tektonex, I was a Director and Chief Engineer at Waterfall Solutions, a UK-based SME business that became a preferred supplier to the UK MOD. Waterfall specialised in the development of novel image and data processing systems including a full-panoramic dual-band imaging system for maritime and vehicle-mounted applications, the design of an AI-based ATDR system, and high performance imaging cameras for police and fire services.
Previously, I was Project Engineering Manager at BAE Systems (Seawolf Point Defence System), Design-Lead and International Group Manager at Thales (Typhoon IRST, MAWS, Land Vehicles), Optics Design Authority at Marconi Space Systems, and Senior Research Officer in BAE Systems (interferometry, laser and fibre-optic systems, holography).
I have held a number of academic posts at Oxford University and University of Surrey, and continue to provide invited presentations and lectures at schools and universities across the UK and internationally. My background is in theoretical and engineering physics (first degree and doctorate) and I have published over 75 technical papers and books across a broad range of EO/IR sensor related subjects. I am pleased to support SPIE and chair their EO/IR Systems Technology and Applications Conference.
In April 2024 I was appointed as an Associate Professor at the University of Western Australia. My current research interests include integrated FPA and MEMS technology.
Prior to Tektonex, I was a Director and Chief Engineer at Waterfall Solutions, a UK-based SME business that became a preferred supplier to the UK MOD. Waterfall specialised in the development of novel image and data processing systems including a full-panoramic dual-band imaging system for maritime and vehicle-mounted applications, the design of an AI-based ATDR system, and high performance imaging cameras for police and fire services.
Previously, I was Project Engineering Manager at BAE Systems (Seawolf Point Defence System), Design-Lead and International Group Manager at Thales (Typhoon IRST, MAWS, Land Vehicles), Optics Design Authority at Marconi Space Systems, and Senior Research Officer in BAE Systems (interferometry, laser and fibre-optic systems, holography).
I have held a number of academic posts at Oxford University and University of Surrey, and continue to provide invited presentations and lectures at schools and universities across the UK and internationally. My background is in theoretical and engineering physics (first degree and doctorate) and I have published over 75 technical papers and books across a broad range of EO/IR sensor related subjects. I am pleased to support SPIE and chair their EO/IR Systems Technology and Applications Conference.
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You will have access to both the presentation and article (if available).
This will count as one of your downloads.
You will have access to both the presentation and article (if available).
Modeling and simulation of imaging systems is fundamental to the performance evaluation of imaging sensors, as well as becoming an increasingly important activity in the design, development, and acceptance of new camera systems. Traditionally, imaging sensors have been modeled in terms of the mathematical functions associated with hardware components such as optics and focal plane arrays. However, modern sensor systems increasingly utilize complex image and data processing which not only affects the performance characteristics but also their operational behavior. Consequently, an understanding of both the physical components and the camera processing characteristics is required to provide a realistic overall imaging system representation.
This course covers all aspects associated with the modeling and simulation of imaging systems including both physical sensor components and data processing. Additionally, the interaction of the imaging system with its platform, the operating environment, and the scene characteristics are discussed. The incorporation of verification and validation approaches is also addressed, and modeling techniques are described which can be used to establish confidence in the performance predictions. Although the emphasis of the material is on infrared systems, the principles can be applied to imaging systems operating in other wavebands. The course material includes numerous cases of single and multi-band models used across a diverse range of applications such as surveillance, remote sensing, security, defense, fire and rescue, and industrial inspection.
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