-
modeling and characterization for communication and sensing in emerging spectrum for 6G and beyond, with a focus on the FR3, THz and optical frequency bands. This research will be conducted under the joint
-
, beamforming techniques for FR3 and THz bands, reconfigurable intelligent surfaces (RIS), and integrated sensing and communications (ISAC). The research methodology will involve the development of mathematical
-
, machine-learning model development, structural sensing and health monitoring, conducting physical experiments, and validation of computational models. Required Qualifications: A successful applicant must
-
play a pivotal role in Dynamic Nuclear Polarization (DNP) sensing, a technique that significantly enhances nuclear spin signal. Candidates will contribute to the development of new classes of organic
-
of novel self- sensing concrete with a dual capability of self healing through the integration of smart technologies. The successful applicant will work on four main areas leading to the success
-
collaboration between multiple research groups and involves a diverse range of activities including: structural and geotechnical modeling, machine-learning model development, structural sensing and health
-
devices for sensing applications. The Post-Doctoral Associate will work under the supervision of Dr. Panče Naumov (Center for Smart Engineering Materials (NYUAD-CSEM) ) on preparation of materials and