Lockheed Martin to partner with two Australian universities on world leading space R&D technologies

Lockheed Martin is partnering with the University of Sydney and RMIT University on Research and Development (R&D)

27th Sep 2017



Lockheed Martin to partner with two Australian universities on world leading space R&D technologies


ADELAIDE, Australia, September 27, 2017 – Lockheed Martin is partnering with the University
of Sydney and RMIT University on Research and Development (R&D) projects to develop
advanced technologies that will have significant implications for both defence and commercial
space-based applications.


Speaking in Adelaide at the 68th International Astronautical Congress, Rod Drury, Managing
Director - Australia, Lockheed Martin Space Systems Company, reaffirmed the company’s
commitment to partnering with Australia’s research and industry communities.


“Lockheed Martin has a strong track record of partnering with Australian industry and
universities on space-based technology research and development programs,” he said.


“Australia’s participation in the development of advanced technologies that will support the
utilisation, monitoring and exploration of space provides opportunities for innovation, local
skilled jobs and growth across our space industry, and clearly demonstrates Australia’s world
class R&D capabilities in this area.”


Lockheed Martin is partnering with The University of Sydney, focusing on developing photonicbased
filters for microwave Radio Frequency (RF) signal processing.


According to Professor Benjamin Eggleton, Project Lead and Director of The University of
Sydney’s ARC Centre of Excellence for Ultrahigh Bandwidth Devices for Optical Systems
(CUDOS), the use of light to carry RF signals through fibre-optic components enables RF filters
which are significantly smaller, more efficient and more agile than traditional RF processors;
thus allowing the data received from transmitters (including satellites) to be manipulated faster,
and in many more ways.


“The photonic RF filter R&D project started out as a fundamental research program, and to see
this research capture the attention of a global innovation leader such as Lockheed Martin is a
testament to both the standard of research being conducted at CUDOS, and the potential
processing capability of the optical domain,” he said.


Lockheed Martin is also partnering with RMIT University to investigate new materials and new
processing routes for metallic additive manufacturing, commonly known as 3D printing.


According to Professor Milan Brandt, Project Lead and Technical Director of the Advanced
Manufacturing Precinct (AMP) at RMIT University, advances in metallic additive manufacturing
processes and materials, particularly for high-strength lightweight alloys, will have significant
implications for aerospace applications.


“This fundamental research may lead to improved metallic additive manufacturing processes
and materials, reducing costs without sacrificing quality - making it feasible to manufacture highstrength
lightweight aerospace components anywhere, and at any time, even in space.” he said.


“This partnership with Lockheed Martin is recognition of the importance of the additive
manufacturing research being conducted at the AMP, and reinforces our commitment to
maintaining close relationships with industry.”


The two research projects are the first to result from the Meet the Technologist symposium held
in December 2016. The symposium was jointly hosted by Lockheed Martin and the Defence
Science Institute (DSI) to explore potential collaborations in new and emerging areas of
technological innovation. That three-day event aligned technologists to innovation opportunities
in various focus areas across the spectrum of Lockheed Martin’s technology and advanced
innovation portfolio.


The Meet the Technologist event was organised by Lockheed Martin's Office of Australian
Industrial Participation and is an important and enduring component of Lockheed Martin’s
Global Supply Chain Enabled Innovation program bringing together industry, government and
academia to explore opportunities for collaboration.

 

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