Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
may refer to https://www.uni.lu/snt-en/research-groups/sigcom/ . The successful candidate will conduct research on quantum MIMO systems, focusing on the development of theoretical models, communication
-
16 Mar 2026 Job Information Organisation/Company Fundació per a la Universitat Oberta de Catalunya Research Field Engineering » Communication engineering Researcher Profile First Stage Researcher
-
. Where to apply Website https://cv.newton-6g.eu/ Requirements Research FieldEngineering » Communication engineeringEducation LevelMaster Degree or equivalent Skills/Qualifications The candidate must have a
-
emerging spectrum (FR3, MMW, sub-THz/THz) Extreme massive MIMO communications Analog, digital and hybrid beamforming architectures Reconfigurable intelligent surfaces Machine learning for wireless
-
University Abu Dhabi, seeks to recruit a motivated Research engineer to work under the supervision of Dr. Marwa Chafii on Channel Modeling for integrated sensing and communication (ISAC). Responsibilities
-
)]. Scientific Area: Optical Communications Group: Optical Communications Systems and Networking – Av Work Objectives: Main objectives: 1) to develop optimized interfaces between the PON-based fiber distribution
-
positions to carry out research with the Signal Processing group in the area of next generation space-terrestrial wireless communications and sensing. We are looking for ambitious and creative candidates with
-
digital integrated circuits design and system development for full-duplex repeaters augmented massive MIMO systems, a key technology for the 6th generation mobile communication systems (6G). The main focus
-
on cutting edge technological areas, such as artificial intelligence for wireless, neuromorphic computing, remote sensing, quantum communications, 6G satellite systems or ultra massive MIMO, among others? CTTC
-
must be compatible with massive MIMO architectures, necessitating full-duplex operation and reciprocity. The project aims to establish an innovative IC-antenna co-design methodology for full-duplex