27 software-engineering-model-driven-engineering-phd-position research jobs at Emory University
Sort by
Refine Your Search
-
Ph.D. in Computer Science, Data Science, Economics, Engineering, or related field Excellent scientific written and oral skills Experience in developing state-of-the-art optimization and prediction models
-
pediatrics by achieving new levels of clinical excellence—driven by research, teaching and wellness. We look forward to our future together. NOTE: Position tasks are generally required to be performed in
-
skills and research independence needed for pursuit of a career. The Ear lab at the Department of Hematology and Medical Oncology aims to develop novel NET models for small molecule drug testing and
-
discovery and clinical research, and coordinating exceptional education of the future healthcare workforce. Our physicians, researchers, and educators have created a model where leadership, commitment and
-
investigation across the full spectrum of cardiothoracic surgery and cardiovascular disease. This position offers an exceptional opportunity for surgical residents, medical graduates, or postdoctoral trainees
-
responsible for operation of specific equipment. May teach techniques to others, train, and supervise research staff. Positions are temporary appointments as a research trainee. The initial appointment is for
-
. Responsibilities include leading data analysis, preparing manuscripts for publication in high-impact peer-reviewed journals, and contributing to the development of new grant proposals. This position is designed
-
contribute to the excellence of our academic community. A new post-doctoral position in computational modeling and functional neuroimaging related to studies of mood and anxiety disorders is available in
-
of the center director Professor Darren Hutchinson, who holds the John Lewis Chair in Civil Rights & Social Justice. This position offers an exceptional opportunity for an aspiring academic to engage in high
-
pressure. Our translational research utilizes animal models of hypertension and human samples/tissues. We address our research hypotheses using integrated whole-animal, genetic, molecular biology