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%) doctoral scholarship holder in the field of signal enhancement strategies for photoelectrochemical sensors for nucleic acid-based sequences. The overall goal of this PhD is the development of strategies
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responsibilities High quality research in the field of high precision environment perception using multi-modal sensors Regular publication of results in high-impact and peer-reviewed journals and conferences
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Early integration of sensors for efficient SHM of aerostructure during their service. Using a mix of reactive machines and limited memory this project develops new fuzzy logic based artificial
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. The successful applicants will develop automated techniques to analyse multi-sensor data (video, acceleration, audio, etc) of human social behavior. Successful candidates will work in a team of 6 on
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. The project aims at high-density low-power-consumption sensors, departing from and improving conventional magnetoresistive sensors. Candidate with University Master degree (mandatory) with following profile
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to incorporate diamond quantum sensors into other materials like glasses and polymers to add sensing functionality to optical fibres and polymer-based bioscaffolds.The project involves the processing and
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responses. The system measures displacement, acceleration or inclination by using various types of contact sensors such as strain gauges, accelerometer, piezoelectric sensors etc. However, in some cases there
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project introduces a new way of studying these interactions, using a state-of-the-art optical sensor developed at the University of Exeter. This sensor can measure fast changes at the single peptide level
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candidates to investigate the use of acoustic sensors, such as a microphone array, on a (self-driving) vehicle for detection and localization of external sounds from nearby traffic. The project is co-funded
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Challenge: Realize the potential of quantum technologies Change: Develop quantum sensors using levitated systems Impact: Improve mechanical sensors and deepen our understanding of gravity Quantum