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- MOHAMMED VI POLYTECHNIC UNIVERSITY
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disadvantages in the application due to false degrees, research achievements, errors, and incomplete documents. We are not accepting applications for this job through AcademicJobsOnline.Org right now. Please see
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background in mathematics, particularly in coding theory, error correction, and their real-world applications. Knowledge of cryptography is appreciated but not mandatory. Limited teaching within the area can
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settings (non iid); - information-theoretic bounds on the generalisation error of learning algorithms; - estimation theory; - hypothesis testing in non-classical settings; - estimation and prediction in
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and evolution of fault and fracture systems to crustal-to-lithospheric scale deformation responsible for the formation of sedimentary basins and mountain belts. This 3-year, full-time postdoctoral
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on projects in this area, with assistance and mentoring from senior academic staff familiarity with the theoretical methods of quantum error correction, and the theory of fault-tolerant quantum computing
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proactive approach to patient safety by seeking opportunities to improve patient safety through questioning of current policies and processes * PATIENT SAFETY 3 - Identify and report/correct environmental
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error-correcting codes, novel schemes of mutually unbiased bases, and symmetric informationally complete generalised quantum measurements that provide optimal measurement accuracy. Furthermore, we plan
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detecting, quantifying, reasoning about and reconciling perceptual inconsistencies and errors. The resulting system will be capable of meta-perception: it will reason about its own perceptual limitations
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only the amounts needed at the right time, thus avoiding nutrient leaching, soil degradation and, above all, water wastage. In contrast to in situ measurements, remote sensing data provide frequent
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-time position for 3 years. Scaled physical models provide powerful tools for multiscale 4D analysis of complex geological processes from the formation and evolution of fault and fracture systems