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of growth models, crop production management with remote sensing tools and spectral techniques, and agronomic studies. Ongoing projects involve the use of optical and radar satellite imagery, drone RGB and
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communications and networks Beamforming and MIMO algorithms Millimeter wave communications Terahertz band communications Visible light communications Channel modeling and/or interference modeling Beam tracking and
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- and 1/f noise characterization of devices. Data analysis and interpretation. Device modelling in collaboration with international partners. Teaching at undergraduate, advanced and postgraduate levels
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hold a PhD in immunology or related biomedical fields, and have experience in transcriptome/proteome expression assays, site-directed mutagenesis, advanced cell culturing, multicolor/spectral flow
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mutagenesis, advanced cell culturing, multicolor/spectral flow-cytometry and cell sorting. For the current position, priority will be given to candidates with documented experience in performing standard
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description In this project you will focus on the fundamental aspects of acoustofluidics, including the nonlinear interactions between acoustic waves and fluids across different frequency regimes. Your research
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of acoustofluidics, including the nonlinear interactions between acoustic waves and fluids across different frequency regimes. Your research will also involve applying acoustofluidic technology to mechanobiology
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of Mathematical Statistics include stochastic models, statistical theory and computational statistics, probability theory and statistical signal processing, with applications in areas such as financial mathematics
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senior researchers and doctoral students. Current research areas within the Department of Mathematical Statistics include stochastic models, statistical theory and computational statistics, probability
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the development of hyperspectral 3D electric field imaging techniques in the THz spectral range, utilizing ultrashort lasers and nonlinear optical methods. The work will be conducted at KTH Laser Lab research