Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
-
Field
-
communication and data fusion requirements in designing an efficient WSN-IoT system/network. Responsibilities The successful candidate is expected to perform the following tasks: Conduct literature reviews and
-
wireless sensor technologies such as RFID sensors, inductive-capacitive resonance sensors, or magnetoelastic sensors • Experience in wireless communication protocols such as Bluetooth Low Energy • Experience
-
information at: http://www.ifw-dresden.de . The Institute for Metallic Materials (Prof. K. Nielsch) of the IFW Dresden offers Postdoc position (m/f/d) on the following topic: Thermoelectric Energy Harvesters
-
Associate. This postdoctoral researcher will work under the supervision of Prof. Bo Ji and Prof. Lingjia Liu, conducting research on immersive communication/computation-aware optimization of next-generation
-
field, laboratory, and analytical research related to (1) electrically conductive concrete (ECON) for heated transportation infrastructure, wireless electric vehicle charging, and structural health
-
The SigCom research group at SnT, led by Prof. Symeon Chatzinotas, focuses on wireless and satellite communications for future 6G networks. Research includes security, IoT, unmanned aerial vehicles
-
London The successful candidate will join a team of researchers aiming to realise next-generation communication systems operating in the terahertz range and participate in inter-site collaborations as
-
Universities of Swansea, Leeds, and University College London The successful candidate will join a team of researchers aiming to realise next-generation communication systems operating in the terahertz range and
-
. Responsibilities The successful candidate is expected to perform the following tasks: Conduct literature reviews and surveys on the subject. Contribute to developing novel communication designs to optimize the WSN
-
on the physical layer design of programmable metasurfaces enabled wireless communication systems. The candidate will investigate the role of programmable metasurfaces as reconfigurable holographic surfaces (RHSs