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optimization techniques and apply them to the existing devices to find optimum geometries, material properties, and device control methods to potentially revolutionize the field of soft total artificial hearts
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to develop new spatial estimates of forest area in Southeast Asia across different benchmark years since ca. 1850. The project explains changes in forest area over time by relating it to developments in global
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vegetation maps to develop new spatial estimates of forest area in Southeast Asia across different benchmark years since ca. 1850. The project explains changes in forest area over time by relating it to
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track its health, recurrent neural networks, particle and/or extended Kalman filters, and inverse parameter estimation methods might be worth exploring. By uncovering the dependency between the cell
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change on vegetation seasonality and efficiency. For this, you will develop and apply geo-artificial intelligence methods, including spatiotemporal machine learning techniques, and gather and integrate
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, Computer Systems, or another relevant specialisation; strong academic performance in university-level courses in computer science, in particular topics related to computer architecture eager to tackle
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have long-term consequences for the enslaved people and their freed descendants? The project will apply advanced empirical methods (e.g. structural estimation) in finance and economics to study these
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. Combined with the quantum-limited measurement capabilities of optical interferometers, state estimation protocols and ultra-high vacuum engineering, such systems become extremely sensitive probes for a wide
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methods (e.g. structural estimation) in finance and economics to study these questions in the context of Surinam and the adjoining colonies of Demerara and Essequibo in the 18th and 19th centuries. New data
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patterns, and optimizing radar systems for real-time response. This project addresses these challenges by improving radar-based detection and tracking methods using multiple beams simultaneously generated by