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projects related to magnonics, spintronics and magneto-acoustics. We are looking for a candidate with a strong motivation for experimental work, although simple modelling and numerical simulations are also
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more (for an overview of these technologies, see http://behaverse.org/ ). Your role in this team will be to develop computational models and data analysis code to process large, multimodal behavioral
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as a set of interconnected hubs. The current energy transition processes require new strategies to generate models with immediate responses to problems, not only in terms of redesigning operating
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enable the fast and reliable computation of bone mechanical characteristics. Finite element (FE) modelling is an engineering tool for structural analysis that has been used for many years to assess
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engineering of non-equilibrium cold plasmas, as well as environmental and biomedical applications, via fundamental studies ranging from basic data to the multi-physics simulation of discharges and reactors and
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and scientific/technical context The Internet of Things (IoT) ecosystem is characterized by diverse protocols (e.g., Matter, CoAP, MQTT, CORECONF) and data models, creating significant interoperability
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on quantum logic protocols [4-6]. At every step, the student will develop theoretical models and conduct numerical simulations to guide the experiments. These experiments and findings will pave the way toward
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suppression, dosage compensation) will be addressed. These models will build on the recent development of chromosome-scale simulations developed for the study of sex chromosomes (2–5). References: 1. N. O
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understanding of machine learning algorithms and their application in optimization or predictive modeling. Proficiency with simulation tools such as MATLAB or NS3. Strong programming skills in Python, C/C
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. The mathematical modeling traditionally plays a major role in the study of such phenomena. In this project, we are interested in a class of models describing the sexual reproduction via a collision