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Field
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multimodal sensor systems—both as standalone sensor solutions and as networked sensor systems. Implementation is carried out as embedded systems in the laboratory as well as for deployment in field experiments
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for the computer simulation of electronically excited processes in molecules and materials. In the age of net-zero it is more important than ever to obtain a deep, molecular-level understanding of the working
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photonic and electronic co-design for complex systems-on-chip. Ability to work in an interdisciplinary team and collaborate with industrial partners. Research-oriented mindset and motivation to develop new
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computer chips and more sustainable IT technologies. Your research will be to design and fabricate magnetic thin films using the NanoAccess facility, contribute to the development of the ‘optical pen
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-efficient digital AI/ML accelerator for real-time transmitter error correction in high-speed RF systems. Co-design and validate on real silicon. Job description Wireless networks are becoming increasingly
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. Click here to go to the website of the Faculty of Applied Sciences. Conditions of employment Doctoral candidates will be offered a 4-year period of employment in principle, but in the form of 2
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and login to GMS (gms.georgetown.edu ) using your Net ID and password. Then select the Career worklet on your GMS Home dashboard to view Jobs at Georgetown. Submission Guidelines: Please note that in
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. Develop the Core AI Predictor - You will explore and train advanced models, such as Graph Neural Networks (GNNs), to solve the key challenge: distinguishing benign aging from true failure precursors
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-on-a-chip and neuromesodermal organoid models. Characterize the neurophysiological aberrations induced by DMPK repeat expansions by morphological and molecular characterization of the NMJ and
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of the CDT in Process Industries: Net Zero . Taylor–Couette technology exploits the controlled vortices formed between concentric rotating cylinders to generate intense, well-defined shear and mixing