Sort by
Refine Your Search
-
you with a highly sought-after interdisciplinary skillset bridging ecological theory, modelling, field ecology, agricultural systems and applied environmental science. As a CASE-supported project with
-
analytical frameworks grounded in Mean Field Game (MFG) theory and Multi-Agent Reinforcement Learning (MARL), which are tailored for eCPS. These frameworks will facilitate the creation of effective control
-
. These insights will directly inform future nature-positive urban design. If you are passionate about ecological systems, urban sustainability or applying advanced quantitative methods to real-world environmental
-
zone in a very complex manner and lead the modelling to an imperfect zone of assumptions. These complexities allow the researchers to use approximations for useful lifetime calculations. Based
-
years EligibilityUK, EU, Rest of world Reference numberSATM450 About the host University and Through-life Engineering Services (TES) Centre Cranfield is an exclusively postgraduate university that is a
-
, exhibiting both rapid, short-term, spatio-temporal change. For some, blue spaces may be perceived as ‘wasted space’, whilst highly engineered systems may be perceived as natural. For others, blue space may
-
to slower, longer-term, evolution (e.g. vegetation and morphological change). For some, blue spaces may be perceived as ‘wasted space’, whilst highly engineered systems may be perceived as natural
-
functioning and human wellbeing outcomes. These insights will directly inform future nature-positive urban design. If you are passionate about ecological systems, urban sustainability or applying advanced
-
opportunities to access some of the MSc courses and CPD short courses relevant to the research and attend and publish papers in international conferences. Cranfield operates a substantial Doctoral Researchers
-
the future of Corrosion-Fatigue engineering. The application of repetitive loads results in fatigue damage that can propagate and cause catastrophic failures. The ambient conditions around a fatigue crack tip