Griffith University has signed a Memorandum of Understanding (MOU) with Gold Coast company that will see Low Earth Orbit (LEO) prototype satellites developed locally and deployed for launch in 2023.
The five-year agreement will include a range of projects aimed at increasing Australia’s LEO satellite capability by undertaking research and development for Aerospace Applications towards the development of small satellite prototypes.
Vice Chancellor and President said the partnership would offer significant benefits.
“By entering into this MOU with Gilmour Space, we will be helping to create the jobs of the future by delivering world class capability hand-in-hand with industry, in this exciting and growing market,” Professor Evans said.
“By entering into this MOU with Gilmour Space, we will be helping to create the jobs of the future by delivering world class capability hand-in-hand with industry, in this exciting and growing market”
“One of the most exciting elements of this partnership will be the development of a prototype 100 kg satellite for improved Earth observation by, for instance, utilising LEO satellites in disaster management applications, mining operations, thermal mapping of fires, reef and flood monitoring, land use and urban planning.
“This is a great collaboration for us and indeed Gilmour Space has already hired some of our graduates.
“We look forward to extending our internship arrangements and new opportunities for staff exchange. There are exciting chances to co-design inspirational industry-focused educational programs for students and professionals.”
Deputy Vice Chancellor Research said there would be a range of cutting-edge research and development (R & D) opportunities as a result of the partnership.
“We envisage undertaking R&D on materials, advanced manufacturing methods, components, sensors and IT systems for aerospace applications, including light-weight alloys, incorporated in on-board satellite IT systems for telecommunications, data processing and analysis, and spacecraft data and metadata management,” he said.
“We will also investigate sensing and imaging technologies, including the integration of artificial intelligence in satellite systems.”
Gilmour Space CEO Adam Gilmour said the company was excited to partner with the University on these opportunities.
“This project is about demonstrating to Australia that we can build and launch a significant-sized satellite with significant capability,” he said.
“It’s also about working with local partners like Griffith to educate the next generation of space engineers who take us to orbit.”
Griffith will also join forces with Gilmour Space on a Collaborative Research Centre project (CRC-P) to develop composite rocket fuel tanks for low cost space transport.
As the research partner in the CRC-P, the University will assist Gilmour Space to complete its previously announced project to manufacture lightweight rocket fuel tanks.
The consortium, which includes and , will manufacture composite tanks up to two metres in diameter and trial them in rocket flights, in a bid to reduce weight, increase reliability and achieve cost savings.
“Queensland has a lot of talent in this space,” Pro Vice Chancellor Sciences said.
“Griffith is pleased to be able to assist Gilmour Space in bringing this project to fruition and making it a reality. Now is the time to create the future”.
“Northrop Grumman is proud to support collaboration with academic institutions like Griffith University and innovative Australian companies like Gilmour Space in building sovereign space capabilities in Australia,” Chris Deeble, Chief Executive Northrop Grumman Australia, said.
, Head of School, School of Information and Communication Technology, who has worked with NASA on the Mars rover projects, said a Space Tech Lab is currently being built at Griffith’s Gold Coast campus, offering dedicated facilities for researchers and Gilmour staff to work collaboratively.
“Aerospace capability is in deep need right here in Australia, for defence, disaster management and environmental observations,” he said.
“We are relying too much on a few companies and legacy systems for critical capability to keep Australia safe.
“This partnership will make a world of difference to the current landscape.”
Professor de Souza joined Griffith in late 2019, having previously been the CSIRO’s Chief Research Scientist.
While completing his PhD, Professor de Souza contributed to the design, production, deployment and operation of sensors that was used by NASA aboard two of its Mars rovers, Spirit and Opportunity. Read more about his career journey in the .