Combined Expertise Intended to Explore Very High Frequencies for Commercial Mobile Multiple-Access Capabilities
SANTA ROSA, Calif. — (BUSINESS WIRE) — September 8, 2015 — Keysight Technologies, Inc. (NYSE: KEYS) today announced it is collaborating with the University of Bristol on 5G millimeter-wave research. The two organizations are already deeply involved in the 5G ecosystem in Europe and the U.S. and now will be working closely together on multiple 5G millimeter-wave technologies.
The pursuit of more bandwidth for ever-faster digital wireless communications has pushed the research community to explore how to use much higher frequencies for commercial mobile multiple-access performance. The collaboration combines Bristol’s leading-edge wireless research with Keysight’s deep experience and capability in millimeter-wave and ultra-broadband simulation, design, test and measurement. The work will contribute to the development of the new capabilities needed for 5G and at the same time enable a richer mutual learning environment for Keysight and the researchers at the University of Bristol.
Among other specific areas of research, the two organizations will combine their capabilities in millimeter-wave radio channel measurements and simulation to understand the nuances of these frequencies for use in communications. The test environment will combine Keysight’s millimeter-wave channel sounding hardware and software with the University of Bristol’s advanced antenna and ray-tracing technologies.
“I am delighted to formalize our collaboration with Keysight. Their world-leading millimeter-wave design, test and measurement facilities radically enhance our ability to contribute to global 5G developments,” said Professor Andrew Nix, Wireless Communication Systems, Dean of the Engineering Faculty and Head of the Communication Systems and Networks research group, University of Bristol. “Through our Centre for Doctoral Training in Communications we will use the Keysight tools to equip a new generation of engineers with the skills needed to develop and roll-out 5G networks.”
“The multi-gigahertz bandwidth capability of the Keysight platform will give us greater insight into the propagation mechanisms at millimeter-wave frequencies and facilitate our research in projects such as mmMagic (EU 5G PPP - www.5g-ppp.eu/mmmagic),” said Professor Mark Beach, Communication Systems and Network Research Group, manager CDT in Communications, University of Bristol. “This equipment will work hand-in-hand with the stacked-bandwidth capability of our Anite Propsim® F8 channel emulators recently procured through an U.K. EPSRC equipment award.”
“The University of Bristol represents a center of excellence in wireless research in the U.K. and I am excited to be part of this work,” said Roger Nichols, Keysight’s 5G program manager. “Dr. Nix and his team have been working closely with us for about a year and we are looking forward to a deeper collaboration.”
To understand how researchers with the Communication Systems and Networks group at the University of Bristol will be utilizing the Keysight equipment, see www.bristol.ac.uk/engineering/research/csn.
The collaboration with the University of Bristol represents another example of Keysight’s continued commitment to support industry and academic leaders in the work to make 5G wireless a reality. To see an example of the international research efforts of both organizations see www.bristol.ac.uk/news/2015/july/mmwave.html.
Images are available at www.keysight.com/find/Bristol5G_images.
The University of Bristol
The University of Bristol is one of the most popular and successful universities in the U.K. It was ranked within the top 30 universities in the world in the QS World University rankings 2014 and 7th in the country. The University of Bristol is ranked among the top five institutions in the U.K. for its research, according to new analysis of the Research Excellence Framework (REF) 2014.
Bristol is a member of the Russell Group of U.K. research-intensive universities, and a member of the Worldwide Universities Network, a grouping of research-led institutions of international standing.
The University was founded in 1876 and was granted its Royal Charter in 1909. It was the first university in England to admit women on the same basis as men.
The University is a major force in the economic, social and cultural life of Bristol and the region, but is also a significant player on the world stage. It has over 16,000 undergraduates and nearly 6,000 postgraduate students from more than 100 countries, and its research links span the globe.
Eleven Bristol graduates and members of staff have been awarded Nobel Prizes, including Sir Winston Churchill who was Chancellor of the University of Bristol from 1929 until 1965. www.bristol.ac.uk
Keysight Technologies, Inc. provides a comprehensive set of 5G
electronic design and test tools designed to help engineers gain greater
insight into their R&D and manufacturing processes. Keysight’s 5G
simulation and measurement solutions include: mmWave, broadband
generation and analysis; physical layer designs; MIMO, RF, microwave,
and millimeter-wave components and antennas; and high-speed digital and
power management. Keysight is working closely with industry consortia,
industry-leading companies and academia to advance the next-generation
of 5G wireless communications systems. Information about Keysight’s 5G
test and measurement solutions is available at