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Australia set to play a big role in the future of advanced flight

Australia set to play a big role in the future of advanced flight

Originally posted by Brent Balinski @ createdigital.org.au

Boeing’s Australian arm is contributing to its development of high-tech flight systems like autonomous planes and vertical takeoff. Here’s what the company’s CTO had to say.

Articles about Boeing (and the company’s own material) often refer to its Australian operations as the “largest footprint outside the United States”. According to the company’s CTO, Dr Greg Hyslop, Australian expertise is vital in the aerospace giant’s current and future innovation efforts.

Hyslop, whose broad-ranging responsibilities include leading over 45,000 engineers worldwide, spoke with create during his visit to the Fishermans Bend site in Victoria. The site hosts the Boeing Research & Technology Australia division, co-located with production for Boeing Aerostructures Australia (BAA).

Fishermans Bend is a world-class manufacturing and R&D operation, and “a company leader around a particular kind of composite fabrication called resin infusion,” said Hyslop.

“But even beyond that, to robotics and cooperative robotics, where you have humans and robots working together. They really are leading the enterprise in many of those technologies.”

Earlier this year, Boeing unveiled a cargo drone capable of carrying 225 kg.

Earlier this year, Boeing unveiled a cargo drone capable of carrying 225 kg.

BAA is a sole supplier for every component it makes, said Michael Edwards, General Manager, Boeing Research & Technology (BR&T) Australia. This includes moveable trailing edges for the 787, ailerons for the 737 and 747 moveable leading edges.

“It all tells you a lot about the heritage and the confidence and the quality of the production systems here at Fishermans Bend,” he said.

The local chapter of BR&T, one of only six outside the US, celebrated its 10th anniversary in March. BR&T is the company’s “advanced research and development unit”, covering a variety of different areas throughout the business, ranging from composite structures to unmanned aircraft systems to alternative fuels, and has Melbourne and Brisbane sites in Australia.

“We have advanced development groups within our commercial and our defence business; BR&T sits in between them as an enterprise level research and technology group, really looking for those technologies that will benefit both the commercial and the defence side of the business,” Hyslop said.

“BR&T is in an interesting position, and they can also serve really as a conduit for good ideas that they see from either commercial or defence over to the other businesses.”

It is also a conduit for collaborating with outside organisations, be they private companies or public research institutes, such as universities or the CSIRO. The latter has a significant relationship with Boeing, which has twice won Supplier of the Year awards in the last decade. Every plane in the commercial fleet wears coatings developed by CSIRO, with more recent collaborative work in factory robotics.

Greg Hyslop (left) with Boeing colleagues. (Photo: Boeing)

Greg Hyslop (left) with Boeing colleagues. (Photo: Boeing)

The partnership turns 30 this year and has grown to include ‘new space’ projects.

“CSIRO has a very strong heritage in space, from a space astronomy point of view, but also remote sensing, satellite remote sensing, satellite componentry,” Edwards told create.

“That’s some of the areas we’ve just started to explore now, and I’d think some of where we’ll grow with research with CSIRO.”

Another recent area where local engineering will make an important contribution is in autonomous flight. Boeing has made headlines this year with its autonomous taxi R&D and with an electrical vertical takeoff and landing cargo drone prototype (4.57 m x 5.49 m x 1.22 m, weighing 339 kg, with eight counter-rotating blades and a payload of 225 kg) unveiled by its HorizonX division in January.

Within Australia, work on UAVs is focused in Queensland through the Insitu Pacific subsidiary. Edwards said Australia boasts many ready-made applications to explore, such as in oil and gas and disaster recovery, and a “progressive” regulator in CASA.

“They really understand this is a game changer for this country, and equally around the world, and helping to inform what the risk-based decision making should look like in setting regulations,” he said.

“But the more that we can build robust mechanisms and algorithms for understanding what the risk is and assuring the performance of unmanned systems in shared airspace, the more that we can grow and learn here from Australia, and then use that learning globally.”

Hyslop said artificial intelligence and increased autonomy will rapidly change the aerospace industry, though the most important thing would be safety during adoption.

“As you introduce some of these technologies, that presents some very difficult technical challenges, and we have to work through those from a regulatory viewpoint, and as you introduce autonomy into things that fly you have to be thinking about those kinds of things all the time,” the CTO said.

“That’s going to be a significant challenge for us. Australia is going to play a big role in this because you’ve got a great place for us to try these things, our own teams here are looking at how with Insitu Pacific, how that might have a role in the oil and gas industry and other areas. So, Australia is going to end up playing a significant role in this.”

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