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methods into a vibroacoustic finite element and boundary element framework, aimed at facilitating fast and efficient broadband frequency sweeps. Develop an adjoint gradient estimation method, based
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at facilitating fast and efficient broadband frequency sweeps. Develop an adjoint gradient estimation method, based on the reduced vibroacoustic models, Utilize the method to perform shape optimization of broadband
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communication and language skills in English, both written and spoken. What we offer DTU is a leading technical university globally recognized for the excellence of its research, education, innovation and
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on integrating AI technology and data-driven models across metabolism, bioprocess, and the economy to develop a robust data science infrastructure for improving the sustainability footprint of bioprocess. DTU
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are inferior and overcomplicated. We favour a bottom-up approach where the users (life scientists) co-develop solutions with a cross-disciplinary team of automation specialists. The interaction further allows
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recognized for the excellence of its research, education, innovation, and scientific advice. We offer a rewarding and challenging job in an international environment. We strive for academic excellence in
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have the ideal opportunity for you. Come and be a part of the “Table-Top Synchrotron” project and one of the world’s strongest groups in this field in our quest to develop supercontinuum sources