Sort by
Refine Your Search
-
Employer
- Chalmers University of Technology
- KTH Royal Institute of Technology
- Lunds universitet
- SciLifeLab
- Chalmers tekniska högskola
- KTH
- Chalmers
- Mälardalen University
- Sveriges lantbruksuniversitet
- Swedish University of Agricultural Sciences
- Umeå University
- University of Borås
- University of Lund
- 3 more »
- « less
-
Field
-
researchers and around 20 PhD students, and a deep collaboration with industry. The division works within wireless communication in a wider sense and the activities span from communication theory
-
modeling of water quality and quantity in agricultural systems. At the division, there are about 35 employees and around 20 PhD students. The current position is within the Remote Sensing and AI in Hydrology
-
of the Mechanical and Maritime Science department , Chalmers University of Technology. The research at the Division covers turbulent flow (both compressible and incompressible), multiphase flows, aeroacoustics and
-
Maritime Science department . The research at the Division covers turbulent flow (both compressible and incompressible), multiphase flows, aero-acoustics and turbomachines. Our tools include both
-
Maritime Science department , Chalmers University of Technology. The research at the Division covers turbulent flow (both compressible and incompressible), multiphase flows, aeroacoustics and turbomachines
-
. The research at the Division covers turbulent flow (both compressible and incompressible), multiphase flows, aero-acoustics and turbomachines. Our tools include both computations and experiments. The research
-
for industrial and environmental applications. In the biophotonic sensing group we are experts in light interaction with biological tissue and living organisms. Furthermore, we have a strong tradition
-
Nanoscience employs more than 40 people performing world-class research on high speed electronic devices, circuits, and systems for a wide range of communication and sensing applications in the frequency range
-
"Digitising Smell: From Natural Statistics of Olfactory Perceptual Space to Digital Transmission of Odors". The goal of the project is to digitalize the sense of smell, pave the ground for understanding how
-
. This particularly includes sub-terahertz (sub-THz, 100 GHz – 300 GHz) and terahertz (THz, 300 GHz – 3 THz) bands that theoretically enable both extremely high-rate connectivity and extremely high-resolution sensing