168 software-formal-method-phd Postdoctoral positions at MOHAMMED VI POLYTECHNIC UNIVERSITY
Sort by
Refine Your Search
-
Listed
-
Country
-
Field
-
from a recognized university. The candidate should demonstrate that their PhD work and past experience allow them to have a connection to one or several aspects of the areas of research mentioned above
-
and international research funding calls. REQUIRED PROFILE • PhD in Hydrology, Environmental Science, Remote Sensing, Data Science, Civil Engineering, or a related field. • Strong background in
-
to the analysis and monitoring of urban environmental systems. The research will integrate geomatics, remote sensing, environmental geosciences, and artificial intelligence methods to investigate soil conditions
-
international conferences. Designing and teaching academic courses related to urban heritage, spatial justice, or affiliated domains. Required Qualifications PhD in Architecture, Urban Studies, Geography
-
. Candidate Profile: Hold a doctoral degree (PhD) in catalytic processes or an equivalent field. Have relevant experience in performing catalytic tests. Demonstrate expertise in gas-phase product analysis using
-
execution of lab-scale grinding and classification trials based on experimental design. Contribute to the numerical modeling of beneficiation circuits (e.g., using USIMPAC or similar software). Analyze
-
, remote sensing, environmental geosciences, and artificial intelligence methods to investigate soil conditions, land-use dynamics, environmental processes, and urban ecosystem functioning. This work aligns
-
utilized in MOF synthesis. The material synthesis will involve wet chemistry and other well-established solid-state methods. Required qualifications: The candidate must hold a PhD degree in Materials Science
-
for photocatalytic CO2 conversion and water splitting. Materials synthesis will involve wet chemistry and known solid-sate methods such as mechanochemical or pyrolysis. Required qualifications: The candidates must
-
focus on developing methods/tools that use multi-source remotely sensed data. The research aims to improve our understanding of the integrated functioning of continental surfaces and their interaction