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experts in the prognostics and condition monitoring field, as well as being part of our strong and dynamic research centre at Cranfield University. About the host University/Centre Cranfield is an
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its environment and respond optimally in dynamic operating conditions. Meanwhile, you will also develop intelligent control strategies that minimise energy use while ensuring punctuality and safety
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precision Mechatronics systems and algorithms. Ability to develop kinematic and/or dynamic analysis of Mechanical/Robotic systems. Ability to implement control and kinematics with hardware-in-the–loop
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modelling of the gut microbiome. This is a unique opportunity to work within a dynamic, multidisciplinary team of microbiologists, clinicians, and molecular scientists with a strong track record in
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tuition fees. This PhD project in the area of autonomy, navigation and artificial intelligence, aims to advance the development of intelligent and resilient navigation systems for autonomous transport
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. Experience with molecular dynamics software such as LAMMS is desirable. Experience with molecular simulation software is beneficial. To apply please contact Dr Siperstein - flor.siperstein@manchester.ac.uk
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manufacturing and hydrogen technology. In a dynamic, interdisciplinary environment, you will work at two renowned research locations: 21 months at the internationally recognized University of Birmingham
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approach to understanding material performance. The outcomes of this research could guide the development of new refractory alloys and coating systems critical for future aerospace technologies, directly
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. This project seeks to enhance the phase-field method, enabling more accurate predictions of fracture under dynamic conditions. State-of-the-art computational techniques combined with insights from advanced
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management and business model innovation in SMEs The aim of this project is to study how entrepreneurial firms engage with IP strategy in the context of dynamic technological disruption and their ecosystems. A