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Deadline: 30 September 2025 A fully funded 3.5 year PhD position is available to work on the project titled “Scalable benchmarking for digital quantum computers based on blind testing
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our capacity to dissect contact-dependent communication. Synthetic biology approaches, such as the engineered synNotch system, have been successfully applied in models including mouse and fly. Zebrafish
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dynamic environments, utilising Vision, Language, and Action (VLA) models. The candidate will focus on designing novel training regimes and/or novel architectures for learning in embodied environments
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. They will be encouraged to engage with appropriate University training, as well as to participate in the intellectual community provided by the School of Engineering’s Institute for Bioengineering, in which
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References: McCulloch L, et al (2017) Nature communications 8:15051-15016 Ramer-Quinn DS, et al (2000) Brain, behavior, and immunity 14:239-255. Sanders VM (2012) Brain, behavior, and immunity 26:195-200
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to the controls (Mason et al., 2023 Communications Biology). In this project, we aim to further optimise our OCE imaging platform and apply new methods (e.g. Quantitative Phase Imaging (QPI)) to expand
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this project, you will be part of the Institute for Infrastructure and Environment. You will join a vibrant community of PhD students, postdoctoral research associates and academics. Please note that the advert