That’s a wrap: Another great Aerial Evolution Association of Canada Conference

That’s a wrap: Another great Aerial Evolution Association of Canada Conference

By Scott Simmie

 

What a great show.

The Aerial Evolution Association of Canada (formerly Unmanned Systems Canada – Systèmes Télécommandés Canada) held its annual conference and trade exhibition November 7-10 in Ottawa. The event had an excellent turnout, along with the usual selection of high-quality learning sessions.

There was plenty of discussion around the coming world of Advanced Air Mobility, where new and transformative aircraft (many of which are innovative new autonomous drone designs with detect-and-avoid features) will routinely deliver heavy cargo and even passengers over dense urban centres and to regional communities not currently served by traditional aircraft.

Another timely topic was the increasing use of drones in the conflict in Ukraine, as well as the latest developments in Counter-UAS technologies (including both detection and mitigation). There was even a live demonstration of a new kinetic C-UAS drone that uses a net to disable and capture a rogue RPAS.

Reps from Transport Canada and NAV Canada were on hand to discuss proposed changes on the regulatory landscape and – always an important part of these gatherings – hear questions and concerns directly from the industry. These open exchanges have long been a hallmark of the annual event.

AEAC Plenary

FIRST NATIONS

 

There was a notable emphasis this year on Indigenous use of drones and other technologies, including a powerful session about detecting unmarked burial sites on the grounds of former residential schools. The concept of data sovereignty – who owns data captured on unceded territories – was also discussed. There was even a presentation on how drones have helped to capture important First Nations cultural events. Plus, of course, the employment and opportunities that RPAS education and initiatives are creating for Indigenous entrepreneurs and communities.

Below, one of the Indigenous panels, moderated by Kristin Kozuback (C)

DRONES AND LAND MINES

 

SAIT‘s Shahab Moeini talked about a program using UAS to detect land mines using AI, machine vision and sensor fusion. Many previous and current efforts have used magnetometers, but these metal-detecting sensors are neither effective nor appropriate given that many land mines are made of plastics and other non-metallic materials. Machine Learning is being used to train drones to recognise the many, many, different types of land mines – even if only a portion of the device is visible above ground.

“Land mines,” said Moeini, “are the nastiest creation of mankind.”

Below: Shahab Moeini, who runs SAIT’S Centre for Innovation and Research in Unmanned Systems (CIRUS)

SPEXI

 

Among the many excellent and innovative presentations, one by Spexi Geospatial caught our attention. The Vancouver-based company has built software that allows pilots of micro-drones to automatically fly and capture hexagonal-shaped areas the company calls “Spexigons.” Each Spexigon covers 22 acres and when an adjacent Spexigon is flown the data and imagery are seamlessly connected. With enough Spexigons captured, you’ve got a high-resolution version of Google Earth – and a ton of use-cases for the data.

The Spexi software carries out the flights automatically using DJI sub-250g drones, flying standardized capture missions to produce imagery at scale. The data is uploaded to the cloud where it’s stitched together to form highly detailed images of very large areas with a resolution of 3cm/pixel. (A satellite, by contrast, captures at 30cm/pixel while a standard airplane generally captures at 10cm/pixel.)

During one recent mission, “over 10,000 acres of imagery was captured in three days,” explained Spexi COO Alec Wilson.

“We’ve made it super simple to get images in and out at scale… And we’re super-excited to be able to start building bigger and better platforms for the drone industry.”

Below: Spexi’s Alec Wilson explains how the system works…

Alec Wilson Spexi

WOMEN IN DRONES

 

This year’s conference saw an increased emphasis on Women in Drones.

Though this has been on the agenda at past events, the 2023 event had somehow a different feel: The recognition that women are not only increasingly entering and shaping this male-dominated sector, but that many are high-level subject matter experts making significant contributions.

While progress has been made, there’s still work to do on the equity front. And there was a strong sense the AEAC is committed to achieving that.

Below: The close of the Women in Drones breakfast

AEAC Women in Drones Breakfast

RECOGNITION

 

One of the most memorable parts of any Aerial Evolution Association of Canada conference is the awards ceremony. Individuals and organizations that have made outstanding contributions to the RPAS industry are nominated, voted for by their peers, and selected for recognition. Recipients range from student engineers (the RPAS CTOs of tomorrow) through to service providers, manufacturers – and even government agencies.

Those honoured at this year’s conference include:

  • Dr. Frederique Pivot: Pip Rudkin Individual Achievement Award
  • Jacob Taylor: 2023 Indigenous Innovation Award
  • National Research Council of Canada Aerospace Research Centre: 2023 Organizational Achievement Award
  • Bryan Kikuta, Toronto Metropolitan University: 2023 Mark Cuss Memorial Scholarship
  • Ana Pereira, University of Victoria: Best Student Oral Presentation Award (judged)
  • Aman Basawanal, Carleton University: Best Student Technical Paper Award (judged)

Below: The National Research Council Team receives its award

WAIT, THERE’S MORE

 

There was one more award recipient to whom we’d like to give a special shout-out. It’s Katelin (Kate) Klassen, who received the 2023 Aerial Evolution Ellevatus Award “for her outstanding dedication in uplifting, empowering, and inspiring women in the Canadian RPAS sector.”

Kate is truly a pioneer in this field. A multi-rated private pilot and flight instructor with traditional aircraft, Kate has been a significant force in the drone field for years. She’s an educator (her online courses have trained more than 10,000 pilots), a lobbyist (she’s taken part in multiple consultations with regulators – including being co-chair of the CanaDAC Drone Advisory Committee), and a true advocate for RPAS education. Her knowledge of the Canadian Aviation Regulations (CARs) is legendary – and she has inspired and encouraged countless women (and men) in this industry.

Plus, she’s truly an all-round awesome human being – always willing to share her time and expertise. Congratulations, Kate – and all the other winners!

Kate (C) looking justifiably happy…

Kate Ellevatus

ALSO WORTH NOTING (AND CELEBRATING)

 

Though they didn’t receive any awards, three key members of the Association certainly merit public recognition for their contributions. Jordan Cicoria (CEO of Aerium Analytics) did an outstanding job as Conference Chair. In fact, he’s overseen the last two in-person conferences, while also taking the helm of the virtual gathering during the peak of the pandemic. That’s a *lot* of work, and Jordan has carried out these tasks both professionally and modestly while juggling a plethora of moving parts.

A lot of work on the conference – and elsewhere – came from AEAC Executive Director Declan Sweeney. Declan worked hard behind the scenes (and on countless calls) with sponsors, exhibitors, membership drives – you name it. He’s also deeply involved in the annual student competition. Declan does it all with professionalism, and a great sense of humour.

Equally deserving of recognition is AEAC Chair of the Board Michael Cohen (also the CEO of Qii.AI).

Michael has been serving the Association well, and was key in the transition and rebranding from Unmanned Systems Canada / Systèmes Télécommandés Canada to the Aerial Evolution Association of Canada. This was far more than a name change, but an organizational shift to reflect the coming era of Advanced Air Mobility. He’s been instrumental in the Association’s push toward greater Diversity, Equity and Inclusion – which was reflected in the conference agenda.

The Association also benefits greatly from Michael’s extensive knowledge and background; he’s a former commercial jet pilot – a distinct advantage when discussing the Big Picture (and the minutia) with regulators.

Thank you, all.

Below: Jordan Cicoria (L) with Declan Sweeney, followed by Michael Cohen (R) with Transport Canada’s Ryan Coates

Jordan Declan
Michael Cohen Ryan Coates

INDRO’S TAKE

 

As always, we were pleased to participate at the annual Aerial Evolution Association of Canada conference. In addition to the sessions, the networking and the trade exhibit – it’s of tremendous value to have the industry and the regulators together for collaborative discussions. There’s been tremendous progress in this sector over the past decade, and much of that is due to regulators truly working with the industry to safely advance RPAS use in Canadian airspace, including BVLOS flight and other more complex operations. Technology that was seen almost as a threat in the early days is now being accepted as a useful – and critical – adjunct to the overall world of aviation.

InDro Robotics staff appeared on multiple panels; CEO and AEAC Board Member Philip Reece, pictured below, took part in the Counter-UAS panel and a live demo of kinetic C-UAS drone at Area X.O‘s Drone and Advanced Robotics Training and Testing (DARTT) facility. (That’s Philip below.)

Philip Reece

BUT…

 

We’d be lying if we didn’t tell you that a true highlight for us was seeing Kate Klassen receive the Ellevatus Award.

“One might easily conclude we’re happy simply because Kate is a flight instructor and regulatory expert with InDro Robotics,” says CEO Philip Reece. “But that’s really just a sliver of the truth. Kate’s contributions over the years have been plentiful, significant, and lasting. We’d be applauding this recognition just as loudly even if she didn’t work with InDro.”

We are, however, very happy – and fortunate – that she does.

 

InDro Robotics flies in urban wind tunnels for National Research Council project

InDro Robotics flies in urban wind tunnels for National Research Council project

By Scott Simmie

 

Flying a drone in dense urban settings comes with its own set of challenges.

In addition to following regulations laid out in the Canadian Aviation Regulations (CARs) Part IX, operators have to contend with other factors. Helicopters, for example, routinely share urban airspace. And, in addition to surrounding buildings, streets are generally more densely packed with people and vehicles than other locations.

But there’s another factor that can really cause problems: Wind.

Airflow in urban centres is very different from rural settings. The close proximity of multiple buildings can amplify wind speed and create tricky – and invisible – areas of turbulence. These can cause havoc for operators, and potentially for people and property on the ground.

That’s why the National Research Council, in conjunction with Transport Canada and other partners, is conducting research on urban airflow.

Below: The view from the InDro dashboard, showing a wishbone-shaped appendage carrying two anemometers

NRC Urban Wind Tunnel Eric

WHY THE RESEARCH?

 

The National Research Council is helping to prepare for the future of Urban Air Mobility. That’s the coming world where intra-urban drone flights are routine – and where airspace is seamlessly shared with traditional crewed aircraft. As the NRC states on this page:

“The vertical take-off and landing capability of UAS promises to transform mobility by alleviating congestion in our cities.”

As part of its seven-year Integrated Aerial Mobility program (launched in 2019), the NRC has already been working on developing related technologies, including:

  • “optical sensor-based detect-and-avoid technologies to assist path planning of autonomous vehicles
  • “drone docking technologies to support contact-based aerial robotics tasks
  • “manufacturing of high-density and safe ceramic lithium batteries to enable low-emission hybrid-electric propulsion”

The NRC is also interested in wind. Very interested.

 

DRONE FLIGHTS IN URBAN CENTRES

 

Drone delivery – particularly for medical supplies and other critical goods – will be part of this world before long (home deliveries will likely come eventually, but not for some time). In the not-so-distant future, it’s likely that specific air corridors will be set aside for RPAS traffic. It’s also likely, eventually, that an automated system will oversee both drone and crewed aircraft flights to ensure safety.

Part of the path to that future involves looking at the unique characteristics of urban wind patterns – along with the potential challenges they pose to drone flights. Are there certain locations where increased wind speed and turbulence pose a greater risk to safe RPAS operations? What wind speeds might be deemed unsafe? Can data gathered help lead to guidelines, or even additional regulations, for operations in cities? If the speed of wind at ground level is X, might we be able to predict peak turbulence wind speeds? Might drone manufacturers have to revise their own guidelines/parameters to take these conditions into account?

Those are the questions that interest the National Research Council, in conjunction with Transport Canada and other partners. And InDro Robotics is helping to find the answers.

Below: A DJI M300 drone, modified by InDro and specially equipped with anemometers to detect windspeed while avoiding prop wash

NRC Urban Wind Tunnel Eric

RESEARCH

 

Previous studies have shown that turbulence caused by buildings can indeed impact the stability of RPAS flights. Now, the NRC is keen on digging deeper and gathering more data.

The research is being carried out by NRC’s Aerospace Research Centre, in conjunction with a number of partners – including McGill University, Montreal General Hospital, CHUM Centre Hospital, InDro Robotics and others. The flights are being carried out by InDro’s Flight Operations Lead, Dr. Eric Saczuk (who is also head of RPAS Operations at the BC Institute of Technology).

Urban environments create a variety of exacerbated micro-level wind effects including shear, turbulence and eddies around buildings. These effects can locally increase reported wind speeds by up to 50 per cent,” says Dr. Saczuk.

InDro has been involved with this research for three years – with earlier flights carried out in the NRC’s wind tunnel. Now, the testing has become more real-world. InDro flies a specially equipped DJI M300. The wishbone-shaped appendage in the photo above carries two tiny anemometers placed specifically to capture windspeed and variations without being affected by the thrust generated by the rotors. The drone is also equipped with an AVSS parachute, since these flights take place over people.

 

THE MISSIONS

 

Some months prior to the flights, the NRC installed fixed anemometers on the roofs of the hospitals mentioned above. This allowed researchers to obtain a baseline of typical wind speeds in these areas. Then came the flights.

Part of our mission is to fly the drone over three different rooftops and lower the drone to hover at 60m and 10m above the anemometer station,” says Dr. Saczuk.

“This allows NRC to compare the wind data recorded by the static anemometers with data captured by the mobile anemometers on the drone. Our launch sites are from the CHUM Centre Hospital and the Montreal General Hospital, which are about three kilometres apart with a pilot at each location. Additionally, we’ll be flying the drone from one hospital to the other and also along an ‘urban canyon’ between the three rooftops.”

 

NRC Urban Wind Tunnel Eric

CHALLENGES

 

Flying in urban locations always requires additional caution. The research also demands very precise altitudes while capturing data – along with piloting with the anemometers attached to the drone.

Gathering the data always has its challenges – especially when operating over a dense downtown core such as Montreal,” he says.

“Many months of planning led to two days of successful data capture on July 26 and 27. One of the main challenges is maintaining C2 connectivity amongst the tall buildings. Another consideration is ensuring a proper center of balance with the added payload well forward of the aircraft. Resultingly, flight endurance is shortened due to the extra load on the motors and thus we had to modify our flight plans to account for this. We learned a lot during the first two days of data capture!”

For Dr. Saczuk, this is a particularly rewarding research project. Why?

Quite simply because it’s cutting-edge and involves RPAS,” he says.

“We have established a great relationship with the test facility at NRC and Transport Canada, so to know that InDro is involved in helping to understand the potentially adverse effects of flying RPAS around tall buildings for the purpose of making these flights safer feels very rewarding. Personally, I also enjoy challenging missions – and this may well be the most challenging mission I’ve ever flown!”

Below: The M300, equipped with the anemometers and looking a bit like a Scarab beetle. The sharp-eyed will notice that the two anemometers are mounted vertically and horizontally

NRC Wind Tunnel Eric

INDRO’S TAKE

 

InDro Robotics has a long history of involvement with research projects and other partnerships with academia. We are particularly drawn to projects that might have a positive and lasting impact on the industry-at-large, such as this one.

“Urban wind tunnels and turbulence have the potential to disrupt even a well-planned RPAS mission,” says InDro CEO Philip Reece. 

“As we move toward more routine drone flights in urban centres, it’s important to capture solid data so that evidence-based decisions can be made and Best Practices evolve. This research will prove valuable to the Canadian RPAS industry – by helping to ensure safer urban drone operations.”

The research is ongoing; we’ll provide updates when further milestones are hit.

FLYY’s Kate Klassen on the importance of drone training

FLYY’s Kate Klassen on the importance of drone training

By Scott Simmie

 

Here’s a quick quiz for you: How many drones are registered with Transport Canada?

Take your best guess.

The answer? According to the latest Transport Canada RPAS Team Newsletter, the number is 86,131. That’s a lot of drones. Many of these – we’re confident the majority – are recreational/hobbyist machines. But the growing service provider sector is also a big contributor.

Quiz Number Two: How many Special Flight Operations Certificates were issued by Transport Canada in 2022? The answer here is 814, with the following breakdown:

  • Beyond Visual Line of Sight Operations: 62
  • Flying higher than 400 feet AGL: 48
  • Flying in or near Department of National Defence airspace: 56
  • Special Aviation or Advertised Events: 172
  • RPAS weighing over 25 kilograms: 41

The math-inclined might notice those numbers don’t add up to 814. The final category – with 435 SFOCs issued in 2022 – is for Foreign Operators.

“It’s pretty obvious, but there’s been an incredible growth in the use of drones across all sectors,” says Kate Klassen, a licensed traditional aircraft pilot and flight instructor. She’s also InDro’s Strategy and Implementation Specialist.

“And based on what I’ve seen – including my work with the Canada Drone Advisory Committee (CanaDAC), these numbers will continue to grow for many years to come.”

Below: A professional drone operation

 

LICENSED PILOTS

 

Along with the growth in registered drones, there’s been a commensurate growth in the number of licensed RPAS pilots in Canada. Transport Canada has issued 86,709 Basic Pilot Certificates, and 10,060 Advanced Pilot Certificates. Advanced RPAS Certificates allow a pilot to fly in controlled airspace, closer than 30 metres to bystanders, and nearer than 3 NM (5.6 km) to airports and 1 NM (1.9 km) to heliports.

And of that number? Roughly one in eight received their training from InDro’s Kate Klassen.

Klassen was a pioneer in the training world, developing an online course that was both educational and entertaining. She did that prior to joining InDro, and some 10,000 people took her online course. That’s a phenomenal number.

And she’s at it again, with a series of online courses at FLYY.

We’ll get into FLYY – and the importance of training – in a moment. But first, let us more fully introduce you to Klassen.

She’s a commercial pilot and a flight instructor for both airplanes and RPAS. She’s been involved with aviation for the past 16 years and holds a Management of Technology MBA from Simon Fraser University. Klassen serves as a Director with the Aerial Evolution Society of Canada (formerly Unmanned Systems Canada/Systèmes Télécommandé Canada) and was a Director for BC/YK with COPA (Canadian Owners and Pilots Association). She was also Co-Chair of Canada’s Drone Advisory Committee (CanaDAC), working closely with Transport Canada. She’s an expert in regulations and training.

Plus, she’s an amazing educator.

Below: A screen grab of Klassen from one of the FLYY instructional videos

Kate Klassen Drone Training

WHY BOTHER WITH A COURSE?

 

That’s a good question. Especially when there are options like YouTube, where you can find plenty of videos of people in their basements offering what they say are the knowledge requirements to obtain your Basic or Advanced RPAS Certificate.

We put that question to Kate.

YouTube can be a great resource, but the challenge is knowing the accuracy and validity of the information,” she says.

“You want to trust the training provider, know their credentials and that they have the experience and expertise to be the one providing the training. In addition to video modules, FLYY also provides downloadable resources, interactive lessons and the ability to download for offline viewing.”

 

MORE THAN THE BASICS

 

What differentiates FLYY from some of the other online offerings?

For starters, Kate has deep expertise as both a commercial and RPAS pilot, as well as being an instructor. So you can have confidence you’re getting the Transport Canada knowledge requirements that ensure you’ve getting the fundamentals you need.

But FLYY offers more than just the tools to earn your Basic or Advanced RPAS Certificate.  The website has a module (and templates) to help you create your own Standard Operating Procedures, including a comprehensive pre-flight checklist. Another popular offering is the Flight Review preparation package. That package, which includes typical questions an Advanced RPAS Certificate candidate would receive at their in-person Flight Review, is designed to help ensure you pass that final step your first time. (And, given that most in-person Flight Reviews cost $200-$300, you really do want to pass your first time around.

 FLYY also offers Flight Reviews, regardless of your location in the country. Plus, once you’re registered with the site and taking a course, you’ll have access to an internal social hub where you can ask questions, post photos, and interact with other students and graduates of the FLYY program.

“I’m always happy to answer questions from students – and we get some good ones,” says Klassen. “This is something else you won’t get if you rely on a free online course. The courses have been carefully designed to ensure student success, and that’s also something I’m personally very much invested in. In fact, I like being a phone-a-friend lifeline for operators. It keeps me on my toes and problem solving at the pace of the industry.”

 

SPECIALIZED SKILLS

 

Drones have come a long way in the past decade. Like, a *really* long way. Think about it: DJI released its first Phantom in 2013 – a machine that required a separate GoPro in order to capture images. Now you can purchase a sub-250 gram drone with amazing range, connectivity and video/still qualities for less than $1,000.

But – particularly for those planning to become service providers or seeking professional employment – the knowledge base required has become more demanding. Gone are the days when having 50 hours of recreational drone flights might open the door to a job. Increasingly, employers are looking for people with highly specialised skills. They want candidates with experience flying thermal missions, capable of creating a LiDAR 3D digital twin – and much more.

Below: An Aerometrix methane-sniffing drone. Increasingly complex drones and drone operations require highly skilled pilots

 

Aerometrix

MICRO-CREDENTIALS

 

The future of training, at least from Klassen’s perspective, will involve obtaining credentials for operations requiring specific skillsets. These would be short, focussed courses – online or in-person – that would provide pilots with the skills they’ll need to carry out more complex flights (and with more complex sensors). Upon successful completion, a pilot would receive a certification that will become recognized as the standard for that industry.

Geospatial Information Systems (GIS), photogrammetry, mapping, volumetric calculations, BVLOS flights are just a few examples where Klassen envisions Micro-Credential courses would be the most effective route to obtaining skills.

“These are definitely skills that are pre-requisites for many drone jobs and require specialized training,” says Klassen. “Upon successful completion, a pilot would receive a certification or badge that’s recognized by the industry.”

Klassen is currently planning Micro-Credential courses for FLYY.

“Micro-Credentials will one day be just as important in this field as obtaining your Advanced RPAS Certificate,” says Klassen. “And with the new facility that’s coming in Ottawa at Area X.O, we’ll have a location where training, testing and evaluation for highly complex operations can take place in a controlled environment.”

(FYI, we took a deeper dive into the case for Micro-Credentials here.)

 

ADVANCED TESTING

 

That new site, which we’ve written about here, is designed for both drones and ground robots. Drone pilots will face a demanding NIST (National Institute of Standards and Technology) course, built to the exacting specifications created by ASTM (the American Society for Testing and Materials). It will also feature a large enclosed, netted area where specialised drone training and testing can be carried out. Complex testing or failsafe evaluation – missions that might normally require a Special Flight Operations Certificate – can be safely carried out within that netted enclosure without the need for special permissions.

The facility, which will open in June, has been funded by Invest Ottawa as a strategic investment in Area X.O. The facility will be operated by InDro Robotics. It is the first of its kind in Canada.

For the first time we’re seeing a ground and air robot (drone) training and testing space and I think we’ll see those technologies work more closely together in the future, too,” says Klassen. “As an educator, I’m excited for the course offerings we’ll be able to put together. So much thought has gone into the details and facilities in this space and I can’t wait to see how it’s received.”

Below: A look at the new facility during construction in late May.

 

INDRO’S TAKE

 

InDro Robotics was one of the first companies in Canada to offer specialized drone training – working with law enforcement and First Responders onsite and at Salt Spring Island. InDro takes training very seriously, which is why we partnered with Kate Klassen to create FLYY.

“We share Kate’s belief that demand for complex drone training and testing will only increase. We also agree that Micro-Credential courses and badges will be an important offering for those wishing to take their skills to the next level,” says InDro Robotics CEO Philip Reece.

“Between Kate’s excellent FLYY program and the forthcoming Area X.O facility, we’ll be creating and delivering cutting-edge training customized to meet growing industry demands.”

Want to get started with training now? Head on over to FLYY, then use the code “springisintheair” at checkout for 10 per cent off.