64 web-programmer-developer-"https:"-"https:"-"https:" positions at Aalborg University in Denmark
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the development of electro-thermal models, state estimation methods, and control strategies to support efficient battery operation and thermal management. The Postdoc will collaborate with colleagues at AAU Energy
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are for 2 years. Aalborg University contributes to the knowledge building of the global society as well as the development of prosperity, welfare, and culture of Danish society. This is accomplished through
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and internationally oriented research department at Aalborg University, dedicated to developing clean and sustainable energy systems. Our research spans electrical, thermal, and mechatronic energy
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characterization in complex in-situ environments. The key responsibility of the position is to develop post-processing methods to extra essential features from the collected measurement data despite drone positional
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the laboratory, in pilot scale setups, and in the field. Complex systems are commonly assessed by modeling applying dedicated models developed by the research group. Assessment in connection with transfer
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side, you will investigate and develop data-driven methods for optimal and nonlinear control with a particular focus on dual control and on approaches to measurement scheduling and active sensing
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phoneme-level representations to improve intelligibility and robustness in challenging acoustic environments. Your work tasks In this role, you will be responsible for developing and implementing advanced
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” (Improving green innovation for the blue revolution – Homepage - IGNITION ). The project seeks to revolutionize salt tolerant (halophyte) biomass use by developing a universal biorefinery model for processing
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MOFs and their hybrid materials. The primary objective is to explore the fundamental structure–property relationships that govern MOF vitrification and liquid-phase behavior, and to develop new MOF-based
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the differentiated cells, we explore how pathogenic calmodulin mutations impact cellular differentiation, development, and signaling. The project is a collaboration between prof. Michael Toft Overgaard and assist