ICAO issues call for drone airspace management innovations
ICAO issues call for drone airspace management innovations

 ICAO has issued new requests for information (RFIs) from public- and private-sector innovators for its upcoming DRONE ENABLE event, designed to advance next generation global standards and solutions for unmanned aircraft systems (UAS), UAS traffic management (UTM), and advanced air mobility (AAM).

The deadline for the latest round of RFI submissions is 15 July, with 2022 submitters being asked to contribute either their latest experiences and best practices based on recent UTM deployments, or new insights and proposals relating to UTM data requirements.

More detailed instructions for prospective RFI contributors are available here.

“Governments and innovators expect DRONE ENABLE to deliver global solutions for them, and the focus now is on how the next evolution of aircraft, both manned and unmanned, can safely integrate into finite airspace,” commented ICAO Secretary General Juan Carlos Salazar.

“All DRONE ENABLE RFI responses will be evaluated by a group of international experts, and selected presenters will earn the opportunity to help shape the future of how highly automated drones, “air taxis”, and other new and emerging aircraft will serve societies and businesses for years to come.”

The 2022 ICAO DRONE ENABLE will take place from 14 to 16 November 2022 at ICAO Headquarters, as part of a year-long series of ICAO Unmanned Aviation activities.

DRONE ENABLE RFI submissions greatly assist States as they continue to work through ICAO to harmonize UAS and UTM-related regulatory frameworks and guidance material, with the ultimate objective of deploying safe, efficient, and effective UTM systems which are globally interoperable and accessible.

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Shaping the Future of Photonic Sensing: Advanced Navigation Acquires Vai Photonics 

Advanced Navigation, one of the world’s most ambitious innovators in AI robotics, and navigation technology has today announced the acquisition of Vai Photonics, a spin-out from The Australian National University (ANU) developing patented photonic sensors for precision navigation.

Vai Photonics share a similar vision to provide technology to drive the autonomy revolution and will join Advanced Navigation to commercialise their research into exciting autonomous and robotic applications across land, air, sea and space.

“The technology Vai Photonics is developing will be of huge importance to the emerging autonomy revolution. The synergies, shared vision and collaborative potential we see between Vai Photonics and Advanced Navigation will enable us to be at the absolute forefront of robotic and autonomy driven technologies,” said Xavier Orr, CEO and co-founder of Advanced Navigation. 

“Photonic technology will be critical to the overall success, safety and reliability of these new systems. We look forward to sharing the next generation of autonomous navigation and robotic solutions with the global community.”

James Spollard, CTO and co-founder of Vai Photonics detailed the technology “Precision navigation when GPS is unavailable or unreliable is a major challenge in the development of autonomous systems. Our emerging photonic sensing technology will enable positioning and navigation that is orders of magnitude more stable and precise than existing solutions in these environments.

“By combining laser interferometry and electro-optics with advanced signal processing algorithms and real-time software, we can measure how fast a vehicle is moving in three dimensions. As a result, we can accurately measure how the vehicle is moving through the environment, and from this infer where the vehicle is located with great precision.”

The technology, which has been in development for over 15 years at ANU, will solve complex autonomy challenges across aerospace, automotive, weather, space exploration as well as railways and logistics.

Aircraft with an electric vertical takeoff and landing system such as flying taxis will greatly benefit from this technology. Landing and takeoff are often considered the most dangerous and expensive part of a flight route. Vai Photonics sensors will provide safe and reliable autonomous takeoff and landings under all conditions. 

Space travel and exploration is fraught with risks, vast complexity and enormous cost. This technology will bring massive benefits to space missions, helping to cement Advanced Navigation as the gold-standard for space-qualified navigation systems for space exploration. 

Professor Brian Schmidt, Vice-Chancellor of the Australian National University said “Vai Photonics is another great ANU example of how you take fundamental research – the type of thinking that pushes the boundaries of what we know – and turn it into products and technologies that power our lives.

“The work that underpins Vai Photonics’ advanced autonomous navigation systems stems from the search for elusive gravitational waves – ripples in space and time caused by massive cosmic events like black holes colliding.

“The team have built on a decade of research and development across advanced and ultra-precise laser measurements, digital signals and quantum optics to build their innovative navigation technology. We are proud to have backed Vai Photonics through our Centre for Gravitational Astrophysics and business and commercialisation office. It’s really exciting to see the team take another major step in their incredible journey.”

Dr Lyle Roberts, CEO and co-founder of Vai Photonics looks forward to an autonomous future “This is a huge win for the Vai Photonics team – together with Advanced Navigation we are able to bring our product to market much faster than originally planned. We now have access to leading research and development facilities along with strong distribution channels. We couldn’t have asked for a better outcome and look forward to navigating the future with Advanced Navigation.” 

This acquisition fits into Advanced Navigation’s larger growth strategy to expand its product and solutions portfolio across deep technology fields that look to solve the world’s greatest challenges facing the autonomy revolution.

The acquisition finalised in April 2022, subject to typical closing conditions. The Vai Photonics team has been integrated into Advanced Navigation’s research and development team, based out of the new Canberra research facility.

Previous to this, Spollard and Roberts received seed funding from OzGrav, the ARC Centre of Excellence for Gravitational Wave Discovery and EQUS, the ARC Centre of Excellence for Engineered Quantum Systems towards fundamental LiDAR research that came to be Vai Photonics.

About Advanced Navigation 

Advanced Navigation was founded in Sydney, Australia in 2011 by engineers Xavier Orr and Chris Shaw to commercialise university research on AI-based inertial navigation. Since 2011, the company has experienced great success and has progressed into several deep and new technology fields. This includes underwater acoustics, GNSS antennas and receivers, radio frequency systems, inertial sensors, robotics, and quantum-enhanced inertial navigation.  

Today, Advanced Navigation is a supplier to some of the biggest companies in the world, including Airbus, Boeing, Google, Apple, and General Motors. Advanced Navigation is headquartered in Sydney with multiple research facilities throughout Australia and sales offices around the world. Advanced Navigation is an Australian manufacturer exporting globally while maintaining carbon-neutral operations.

About Vai Photonics

Vai Photonics was founded in Canberra in 2021 by physicists Lyle Roberts and James Spollard to commercialise their research at The Australian National University. Vai Photonics team of seven engineers builds sensors that enable vehicles to navigate with precision and confidence when GPS is either unavailable or unreliable. Built on more than a decade of R&D in electro-optic sensor technology, Vai Photonics’ Navigation Doppler LiDAR delivers a step change in navigation performance that reduces dependence on the Global Navigation Satellite System.