74 postdoc-in-thermal-network-of-the-physical-building positions at Cranfield University
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
self-motivated and have good communication skills for regular interaction with other team members. Funding This is a fully funded opportunity. Cranfield Doctoral Network Research students at Cranfield
-
University this department studentship will provide a bursary of up to £57711(tax free) plus 100% of fees for UK students and 45% of fees for international students. Cranfield Doctoral Network Research
-
modelling with AI-driven decision logic. Over a period of three years, the candidate will build and validate simulation models using open-access metocean datasets (e.g., CMEMS, ERA5), contributing to safer
-
and emerging applications, such as multi-domain autonomy and aerial mobility. With rising risks to PNT systems from interference, spoofing, and cyber-physical attacks, unified, security-aware integrity
-
” highly flexible components and ensure their energy harvesting capabilities. This project will contribute to ambitious plans for SBSP as a vital part of the future Net Zero landscape. Recent advances in
-
infrastructure. However, the increasing application requirements and rising threats from intentional interferences, spoofing, and cyber-physical attacks expose vulnerabilities in conventional GNSS-centric systems
-
and nanomaterials at the Composites and Advanced Materials Centre (Dr Sameer Rahatekar, Prof Krzysztof Koziol) and Hyper-velocity impact testing facilities at Centre for Defence Engineering and Physical
-
management, strategic planning, and technology development while building strong communication and analytical capabilities. This experience prepares graduates for leadership roles in technology development
-
(Emissions Analytics) and academia (Loughborough University). Expected Impact The PhD research findings will enable us to make recommendations to improve air quality in passenger car cabins (for commuters) and
-
sensors, firmware-controlled automation, wireless connectivity, and maintenance algorithms. Students will design, build, and test smart sanitation solutions that can monitor system performance, optimize