New Australian space startup Quasar Satellite Technologies is set to revolutionise space communication, allowing ground stations to talk to hundreds of satellites at once using technology developed by CSIRO, Australia’s national science agency.

Quasar CEO Phil Ridley, a telecommunications veteran behind some of Australia’s pioneering internet services like BigPond and Vividwireless, said the technology would enable new satellite-based business models and opportunities previously hindered by legacy ground station technology.

Mr Ridley said:

“Space is the highway of the stars, but current ground station technology is the equivalent of one-lane on-ramps”

“By making it possible to communicate with hundreds of satellites simultaneously, we’ll be able to ensure the thousands of satellites launching over the next decade have a way to call home efficiently.”

Over the next decade, more than 57,000 satellites will be launched worldwide to support a surge in demand for space-derived data, from environmental monitoring such as bushfires and floods, to connecting to sensors on ‘Internet of Things’ networks.

However, with present-day ground stations typically tracking one satellite at a time, heavy congestion will limit the potential of satellites and the downstream industries they support.

Launched today, Quasar is backed by $12 million in funding, technology and industry expertise from CSIRO, Main Sequence, the Office of the NSW Chief Scientist & Engineer, and Australian companies Vocus, Saber Astronautics, Fleet Space Technologies and Clearbox Systems.

Quasar will look to capitalise on the US$130 billion satellite ground communications market, using technology developed by CSIRO for radio telescopes like its own Australian Square Kilometre Array Pathfinder (ASKAP) telescope in Western Australia.

CSIRO Chief Executive Dr Larry Marshall said after helping receive images of humans on the Moon fifty years ago, commercialisation of this breakthrough research will now help to put more Australians into new jobs in our growing space industry.

CSIRO has been a leader in radio astronomy and spacecraft communications for more than 60 years, from supporting the Moon landing in 1969 to inventing and delivering the phased-array feeds in Australia’s newest radio telescope, ASKAP in Western Australia

CSIRO’s technology breakthrough enabled the world to connect without wires using fast WiFi, and now their technology will help connect satellites using our breakthrough phased array technology.

CSIRO commercialisation specialist and a founding Director of Quasar, Dr Ilana Feain said bringing together state of the art technology, private investment and industry expertise gives Quasar a strong head start.

“CSIRO’s phased array technology revolutionised radio astronomy by enabling ASKAP to see enormous portions of the sky at once – about 30 times the area that conventional telescopes could see.

The evolution of this technology can empower satellite businesses and their downstream industries.

Quasar will offer the technology “as a service”, enabling commercial and public sector partners to access data from satellites in low, medium and geostationary orbit from anywhere in the world, in the same way many cloud computing services work today.

Quasar is building the technology using an Australian-based team with expertise and research support from CSIRO.

Comments from partners:

Martin Duursma, Main Sequence partner, said:

“Australia is in the midst of building a strong, globally competitive space sector. As one of our venture science collaborations, Quasar holds the key to unlocking one of the biggest challenges the industry faces over the next decade and ensure we maximise the opportunities afforded to us in space.”

Jason Held, CEO of Saber Astronautics, said:

“We look forward to working with Quasar to support this excellent technology in joining the space operations market.”

Flavia Tata Nardini, Co-Founder and CEO of Fleet Space Technologies, said:

“Fleet Space has been heavily investing in beamforming advancements for our nanosatellite, and strongly believe Quasar’s cutting-edge technology will change the dynamics of the Space industry. Having one beam-forming ground station simultaneously service multiple satellites will eliminate congestion in LEO, where there is a need to compete for a limited number of available ground stations globally. We are very proud to be a part of Quasar and contribute to the vision of the team.”

Jeremy Hallett, CEO of Clearbox Systems, said:

“We’ve been delivering satellite communications technology for over a decade. In that time, we’ve seen the market need for satellite ground communications explode, however the technology has never been adequate for the requirement. That’s why we’re backing Quasar. This is the right technology and the right team, delivering into the market at the right time.”

Michael Ackland, National General Manager Government and Special Projects at Vocus, said:

“Quasar’s breakthrough ground-station technology is a perfect fit with Vocus’ extensive regional fibre network, which is enabling satellite constellation operators through innovative ground infrastructure. We’re excited to be a part of Quasar, building the next generation of ground-station-as-a-service, in the era of new space technologies.”

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    JeniSkunk

    “Over the next decade, more than 57,000 satellites will be launched worldwide to support a surge in demand for space-derived data, from environmental monitoring such as bushfires and floods, to connecting to sensors on ‘Internet of Things’ networks.”
    57,000 ? ! ?
    Say goodbye to ground based amateur and professional astrophotography then.
    And visual astronomy will be affected as well.
    I really hope these start-ups crash and burn before any of their swarms of space-borne garbage can get near a launch site.