17 phd-communication-and-signal-processing Postdoctoral positions at KTH Royal Institute of Technology
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of speech, gesture and facial expressions. Yet most systems treat these modalities as separate. In the BodyTalk project we take a holistic approach to simultaneous synthesis of human communication
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semantic representation models for sign language. Such representations are key to allowing SL to be efficiently processed by large language models (LLMs), and will lead to machine learning models that can
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requirement must be met no later than the time the employment decision is made. PhD in Nuclear Engineering, Materials Science, Engineering Mechanics or similar. Preferred qualifications A doctoral degree or an
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to the application deadline.(With some exceptions for special reasons such as periods of sick or parental leave, kindly indicate if such reason exists in your resume) Expertise in crystallization and precipitation
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next-generation therapeutic antibodies by tailoring glycan structures for improved stability, efficacy, and biological activity. A unique strength is integration with the COMMUNITY biobank at Karolinska
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integration of heterogeneous data sources. Experience with signal processing and statistical modeling of high-dimensional data. Strong programming skills in Python and relevant ML frameworks (PyTorch
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of novel magnetic materials, future generations of particle acceleration, measurements of chiral molecules, free-space communication, and elsewhere. The successful completion of the project will result in
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Infrastructure? No Offer Description Job description Do you have a background within mechatronics, biomedical, mechanical, electrical, or computer engineering and research interests in medical robotics and human
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. This eligibility requirement must be met no later than the time the employment decision is made. PhD in Nuclear Engineering, Nuclear Power Safety, Engineering Mechanics or similar, with extensive experience from
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provide detailed information on dynamic processes previously not feasible to study experimentally. Of special current interest is the development of new spectroscopic techniques to study high