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Advanced communications

Projects/Programs

Displaying 1 - 18 of 18
Trustworthy Network of Things

Trustworthy Networks of Things

NIST is working with industry to design, standardize, test and foster adoption of network-centric approaches to protect IoT devices from the Internet and to
USGv6 Program

USGv6 Program

NIST is Working with other USG agencies and industry to develop and maintain the standards, test program, deployment guidance and test and measurement tools

AWS-3 LTE Impacts on AMT

This test builds on and extends a previous NASCTN project that measured the out-of-band (OoB) LTE evolved Node B (eNB) and User Equipment AWS-3 emissions into

Fiber Sources and Applications

Optical frequency combs convert a laser source containing a single frequency of light into pulses that include thousands of frequencies. This project aims to
High Assurance Domains Infor Graphic

High Assurance Domains

NIST is working with the Internet industry to design, standardize and foster deployment of technologies to improve the security and robustness of enterprise

High-Speed Electronics

This project supports the microwave, telecommunications, computing, and emerging nanoelectronics industries through research and development of high-frequency

Impact of LTE Signals on GPS Receivers

The National Advanced Spectrum and Communications Test Network (NASCTN) has completed the Impacts of LTE Signals on GPS Receivers project and has released the

Quantum Communications and Networks

The Quantum Communication and Networks Project develops quantum devices and studies them for use in quantum communications and networking applications. Our goal
Robust Inter-Domain Routing project info graphic

Robust Inter-Domain Routing

We live in a network-centric society that increasingly relies on the Internet’s routing infrastructure to facilitate human communication, connect users to
Software Defined and Virtual Networks

Software Defined Virtual Networks

NIST is working to develop test and measurement techniques to advance the state of the art in network virtualization, network service function chaining
Trustworthy Intelligent Networks Project

Trustworthy Intelligent Networks

NIST is working with industry and academia to improve the trustworthiness and applicability of artificial intelligence and machine learning technologies to

Trustworthy Networks Program

NIST works with industry partners to advance the research, standardization and adoption of technologies necessary to increase the security, privacy, robustness

Waveform Metrology Project

Today's economy relies on high-speed communications that ride fiber-optic networks, and CTL physicists play a crucial role in providing the means to test the