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road conditions. Your specific activities will include (but are not limited to): • Develop robust, production-grade machine learning solutions for predictive modelling and complex decision
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Post Doctoral Researcher in Human-Centered AI for Software Engineering, Department of Electrical ...
particular with Large Language Models. Solid programming expertise in Python. Be the main author in at least one journal publication in the area of AI4SE, published at a high impact journal. Experience with
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Grant Agreement signed with the European Commission, at least one original publication in a peer-reviewed journal, a background in the relevant methods, a complete application package submitted through
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toxicity, drug metabolism and drug transport. Examples of this include cell-based models such as induced-pluripotent stem cells, primary human hepatocytes and clinical studies. The environmental medicine
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understood forms of vertebrate locomotion. The project will focus on a unique group of reptiles known as amphisbaenians - limbless, burrowing lizards that resemble snakes. They exhibit four distinct head
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. amino acid and lipid metabolism), signaling pathways (e.g. mTOR and nutrient signaling), and systems-level regulatory networks that regulate basic T cell and dendritic cell biology and antitumor immunity
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, such as: Macrophage and primary cell culture T cell analyses Western blotting qPCR CRISPR Co-immunoprecipitation experiments The laboratory of Dr. Thirumala-Devi Kanneganti offers a remarkable training
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university-level institutes focus on solving the world’s most pressing challenges. As an NUS postdoc, you will benefit from access to state-of-the-art research facilities, opportunities to collaborate with
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main campus. Depending on the position, the work will involve a combination of experimental research, process simulation, reactor operation, and system-level optimization. We are currently advertising
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as well as the stepwise process of leukemogenic transformation. Our approach integrates gene editing in human and murine primary hematopoietic and iPSC-derived stem cells, in vivo zebrafish and mouse