Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
cases of next generation wireless communications systems. For details, you may refer to the following: https://wwwen.uni.lu/snt/research/sigcom We're looking for people driven by excellence, excited about
-
from satellites, ground and base stations, and many users need to be integrated in an energy-efficient manner using massive and distributed MIMO, reconfigurable intelligent surfaces (RIS) and possibly
-
, ground and base stations, and many users need to be integrated in an energy-efficient manner using massive and distributed MIMO, reconfigurable intelligent surfaces (RIS) and possibly other emerging
-
, and our Facilities . For further information, you may refer to https://www.uni.lu/snt-en/research-groups/sigcom/ . The successful candidate will conduct research on quantum MIMO systems, focusing
-
Inria, the French national research institute for the digital sciences | Palaiseau, le de France | France | about 1 month ago
?." arXiv preprint arXiv:1903.03063 (2019). [4] "Modern Random Access for Grant-Free Cellular Networks," C. Adjih, Tutorial, https://indo-french-seminar-6g.github.io/slides/Modern_Random_Access_for_Grant
-
Postdoctoral Research Associate (Electrical and Computer Engineering) Posting Number req24681 Department Electrical and Computer Engr Department Website Link https://ece.engineering.arizona.edu/ Location Main
-
knowledge of channel modelling and MIMO is a plus. Proficiency with Matlab or Python. Additionally, the applicant should have strong interpersonal skills and the ability to work in an international team. Type
-
multiple output (MIMO) wireless connectivity. Very good understanding of communication theory. Strong command of mathematics and simulation in MATLAB. Proven track record of innovation supported by
-
in multiple input multiple output (MIMO) wireless connectivity Experience of fabrication of antenna prototypes, skills in RF test and measurement such as using a vector network analyser Ability
-
that can power the next generation of wireless infrastructure. We will explore how to combine heterogeneous computing platforms with distributed MIMO architectures to support both real-time AI workloads and