105 communication-network positions at NIST

Machine Learning Driven Autonomous Metrology System

NIST | Gaithersburg, Maryland | United States | about 11 hours ago

are developing machine learning-driven autonomous metrology research systems, with the goal of accelerating the development of self-correcting photonic and quantum sensor networks. These systems combine machine

5G Advanced Microwave Materials for Millimeter-wave Devices

NIST | Boulder, Colorado | United States | about 12 hours ago

RAP opportunity at National Institute of Standards and Technology     NIST 5G Advanced Microwave Materials for Millimeter-wave Devices Location Communications Technology Laboratory, Radio Frequency

Microstructural Modeling of Additively Manufactured Materials

NIST | Gaithersburg, Maryland | United States | about 11 hours ago

301.975.5329 Daniel Wheeler daniel.wheeler@nist.gov 301.975.0409 Description Additive Manufacturing (“3D printing”) technologies are attractive for their ability to produce near-net-shape parts in geometries

Multimodal Transducersfor Nanoscale Sensing, Imaging and Manipulation

NIST | Gaithersburg, Maryland | United States | about 11 hours ago

: Nanomechanical motion transduction with a scalable localized gap plasmon architecture. Nature Communications 7: 13746, 2016. https://dx.doi.org/10.1038/ncomms13746 Brian J. Roxworthy and Vladimir A. Aksyuk

Generating Ontologies from Domain Corpora using Artificial Intelligence Techniques

NIST | Gaithersburg, Maryland | United States | about 11 hours ago

by taking advantage of advancements in hardware and new neural network frameworks such as Recurrent Neural Networks and Transformers. We are now interested in synthesizing these advancements with other

Devices, Circuits and Architectures for Neuromorphic Computing

NIST | Gaithersburg, Maryland | United States | about 12 hours ago

, M. Lueker-Boden, T. S. Santos, P. M. Braganca, M. D. Stiles, J. J. McClelland, and B. D. Hoskins, Measurement-driven neural-network training for integrated magnetic tunnel junction arrays, Phys. Rev

Computational Metrology for Systems Biology and Medicine

NIST | Gaithersburg, Maryland | United States | about 12 hours ago

volume and quality that is consistent with the use of statistical methods; machine learning techniques for knowledge discovery; protein-protein interaction network analysis; novel algorithms for next

Data-driven materials discovery and design

NIST | Gaithersburg, Maryland | United States | about 12 hours ago

://jarvis.nist.gov/) infrastructure uses a variety of methods such as density functional theory, graph neural networks, computer vision, classical force field, and natural language processing. We are currently

High Rate Mechanical Properties of Materials

NIST | Gaithersburg, Maryland | United States | about 11 hours ago

mechanical behavior of polymers from low impact speeds to ballistic speeds. We are particularly interested in the role of polymer architecture, such as network structure, backbone stiffness and side group

Johnson Noise Thermometry with Superconductive Waveform Synthesizers

NIST | Boulder, Colorado | United States | about 11 hours ago

methods, and digital signal processing and network modeling. Other research topics are High-Tc superconductive Josephson junction array waveform synthesizers and compact cryogenic design for the development