Sort by
Refine Your Search
-
energy use of a building is associated with operating the building. Building owners also face pressure to improve safety, security, occupant comfort and health, and to make buildings responsive to a new
-
academic communities. However, there are many practical impediments which need to be addressed to realize the full potential of SDD/EDS. We work on many different aspects of the problem: Modeling X-ray
-
. The NIST channel sounding measurement team specializes in the development and use of instrumentation in the 10s of GHz based on phased array antennas that is optimized to capture dynamically evolving
-
catalysis; and the examination of reaction models used to optimize reaction efficiencies and pathways in chemical systems. A wide variety of diagnostic equipment is available including ultrasensitive cavity
-
systems. This work will specifically focus on combining ML algorithms with classical data analysis and control techniques to develop robust in situ (i.e., in real-time, during the operating experiment
-
corrected for, the noise and drift can directly affect not only the initial calibration of qubits, but also the coherence times and, ultimately, fidelities of the quantum control and readout operations
-
; Decision making; Systems modeling; Engineering; Operations research; mathematical programming; optimization; systems analysis; risk analysis; statistics; hazards and disaster research; Decision support
-
the field of flexible electronics. Developing an effective flexible electronic structure has its own challenges from mechanical compliance of the substrate to device performance. There is a delicate balance
-
our understanding of the fundamental limitations of detectors and sources; development of new ways to package detectors, sources, and components optimized for few photon operation; and developing new
-
DFT, beyond-DFT, and experimental techniques. We are also interested in developing both forward and inverse machine learning models to accelerate and optimize the design processes. We work in close