![]() His work relies heavily on the development of measurement capabilities to estimate carbon exchange between the land and the atmosphere. He is an internationally recognized expert in the field of atmospheric greenhouse gases (GHG) observations to support research on carbon cycle, satellites validation, and source attribution. He is the Principal Investigator of the DOE-supported Atmospheric Radiation Measurement Carbon Project, Airborne Carbon Measurement Experiments (ARM-ACME). Sebastien Biraud leads the Climate Sciences Department in the Climate and Ecosystem Sciences Division (CESD). (3) Pricing and incentive design in integrated systems (2) The modeling, analysis, scheduling, and control of warehouse, production, and container terminal systems. The analysis and development of robust and efficient algorithms for design, operation, and risk management in logistics systems and supply chains. (3) Application of computational methods for a broad range of science and engineering fields, including combustion and geophysical fluid dynamics. (2) Programming language and library design for high-performance computing. ![]() ![]() Phillip Design of finite volume methods for solving partial differential equations in complex geometries. His two affiliations are with UC Berkeley’s Space Sciences Lab and LBNL. He is presently supporting the international Dark Energy Spectroscopy Investigation (DESI) team and advising the FUEGO wildfire networking group at Berkeley. Michelle Newcomer received her PhD in Civil & Environmental Engineering from UC Berkeley. Michael kinetics Combustion chemistry Pollutant formation (NOx, soot) Computer modeling Particle dynamics, Model reduction, Surrogate model building, Uncertainty quantification, Data organization This includes the mechanical and controls design of the vehicles, for example with a view to being able to withstand large disturbances, or having multiple vehicles interacting. Mark research is in the design, modeling, and control of aerial robotics, especially for use in challenging environments. (6) Performance and health monitoring of structures using machine and deep learning. (5) Experimental methods including hybrid simulations (4) Energy-efficiency, sustainability and resiliency of structures (3) Earthquake engineering and fire following earthquakes Kai New concepts and technologies in nuclear radiation detection and imaging for applications ranging from basic research to health, nuclear safeguards and security (3) Multi-physics engineering problems in complex geometries with experimental validation (2) High-resolution climate and weather-related simulations Hans High-accuracy adaptive algorithms on large-scale HPC She is interested in machines for extreme changes in whether conditions and autonomous field sampling. ![]() Smart interactive mechanisms can lead to affordable, adoptable monitoring of environments that are critical to understanding and preventing fires. Hannah Stuart focuses on design for dexterous remote robotic systems. (4) Combining satellite and ground-based remote sensing with in situ observations to quantify the impacts of aerosols and greenhouse gases on the local, regional, and global distribution of atmospheric radiant energy. (3) Active and passive remote sensing instrument development from concept to deployment through the use of massively parallelized Observing System Simulation Experiments. After honing his skills on astrophysically interesting objects, he now wants to put such skills to the more immediate well-being of society by helping to reduce the danger from wildland fires faced by a warming world.ĭaniel Radiative transfer modeling and software development for atmospheric and land modeling including (1) full-physics solutions on novel hardware systems and (2) improved parameterizations that incorporate known physics with computational efficiency. This involves a combination of inter-discplinary fields, including sensor development and deployment, automated telescopse or other platforms, pipelined and efficient data reducation and analysis, and finally robust detection of small signals among a cluttered background, with sufficient background rejection so the system is usable. His principal interests and skills are developing systems for automated imaging and data reduction leading to the discovery of significant signals. He shared the 2007 Gruber Prize in Cosmology and the 2015 Breakthrough Prize in Fundamental Physics for the Supernova Cosmology Project’s discovery that the expansion of the universe is accelerating. With Rich Muller, he co-founded the Berkeley Supernova Search, which later became the Supernova Cosmology Project. ![]()
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