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, software virtualisation, Cloud-RAN, Network Functions Virtualisation (NFV), and Software Defined Networking (SDN) technologies (including OpenFlow and Netconf) to support the experimental investigation
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possible co-appointment in the Department of Computer Science. The project combines theoretical and experimental approaches to develop renewable DNA computing devices that perform multiple computations in a
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theoretical and experimental approaches to develop renewable DNA computing devices that perform multiple computations in a single tube. The primary purpose is to regenerate automatically through temperature
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-supervised by Prof. Damien Woods. It will be based at the Hamilton Institute with a possible co-appointment in the Department of Computer Science. The project combines theoretical and experimental approaches
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macrophage (Mφ) phenotype and inflammation. A potent regulator of repair is mechanical loading, yet whether mechanics modulate Mφ phenotype, contributing to bone regeneration, is unknown. Therefore
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possible co-appointment in the Department of Computer Science. The project combines theoretical and experimental approaches to develop renewable DNA computing devices that perform multiple computations in a
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focused on efficiency and fault-tolerance in wireless Time Sensitive Networks, incorporating scheduling, clock synchronisation, and fault tolerance mechanisms across 5G-TSN networks. We plan to devise novel
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mechanisms. Candidates should have a track record in working in project-based environments, stakeholder engagement and preferably be familiar with the European research funding ecosystem. For the senior post
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, DCU, DkIT, MU (lead) and UCC, with education technology providers to develop an innovative approach to teach students in the experimental sciences. The initiative is to develop courses in which a
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genes/gene clusters, and associated immunity/resistance mechanisms. • Use of current methods for microbiome analyses of datasets (e.g., 16S rRNA, and whole metagenomic sequencing