New InDro Sentinel has wireless charging enclosure for remote operations

New InDro Sentinel has wireless charging enclosure for remote operations

By Scott Simmie

 

If you follow our news, you’re likely familiar with our Sentinel inspection robot. It’s been built specifically for monitoring critical assets like electrical substations etc. – places where you need regular eyes on assets without the cost and inconvenience of having a human being on site.

We are pleased to announce that InDro Robotics has perfected an outdoor enclosure that keeps Sentinel protected from harsh weather, while allowing for wireless recharging.

“If you imagine a robot in any sort of demanding outdoor environment to improve the longevity of the equipment, you want to keep it away from the elements as much as possible – which is why the enclosure exists,” explains Luke Corbeth, InDro’s Head of R&D Sales.

“For any demanding outdoor application such as substation inspection, solar farm inspection, etcetera, you’re going to want to keep the robot out of the rain, away from the wind, out of direct heat. These elements are why the enclosure exists.”

And the best part? Sentinel can autonomously return to that enclosure to rest and recharge completely on its own. And that makes it perfect for even the most distant of assets. If there’s a cellular connection, Sentinel can be a totally remote employee.

Below: The new Sentinel enclosure, on site at our R&D headquarters at Ottawa’s Area X.O

Sentinel enclosure Ottawa Hydro

JANUARY, FEBRUARY, MARCH…

 

And what comes next? April, of course. And the reason we’re going down this road is because Sentinel finds its roost using a code known as AprilTags. They’re similar to QR codes, but have been designed for 3D orientation. Sentinel’s enclosure uses AprilTags – which are detected by onboard cameras – for the robot to find its way home, and snug up nice and close to its wireless recharging system.

“The robot is trained to know exactly what these tags look like from every angle,” says Corbeth. “And by looking at these tags, it’s able to determine: ‘Oh, I’m a little bit off in this direction, so I need to make this adjustment.’ That ensures that we have a smooth and reliable docking and undocking sequence every single time the robot goes in and out of the enclosure.”

There’s a slightly inclined ramp for Sentinel to access this tiny recharging home. And the floor is deliberately a bit slippery in order for Sentinel to fine-tune its docking procedure by, for lack of a better word, drifting inside the enclosure to get its bearings.. And the charging system? Amazing.

The Wibotic charger is incredibly efficient. One hour of wireless charging is enough for Sentinel to fully recharge and deploy on a five-hour mission. Let’s repeat that: One hour of wireless charging gives Sentinel five hours on the ground.

The other advantage is that, because it’s wireless, there are no mechanical interfaces. These can be a potential point of failure, which is the last thing you’d want on a remote, autonomous installation. The whole point of these installations is for a robot to take care of things on its own.

“Anytime you have a mechanical interface, there are usually prongs involved. These can get bent or damaged – which is the last thing you’d want on a remote installation. So wireless charging completely eliminates that potential point of failure,” says Corbeth.

Below: Sentinel in its enclosure. You can see one of the AprilTags, which are used for Sentinel to perfectly align with the Wibotic charger

 

Sentinel enclosure Ottawa Hydro

REAL WORLD DEMO

 

Sentinel has been through multiple iterations as platforms, sensors and  compute improve. The newest version uses a wheeled platform (though a separate version with treads is available). Compute is a powerful AI-enabled processor capable of many Trillions of Operations per Second (TOPS). And because we deploy with InDro Controller, our in-house user interface, Sentinel can be easily programmed to repeat highly complex tasks.

Say, for example, you are particularly interested in the reading on a gauge. The first time you deploy Sentinel using InDro Controller, you would manually adjust the Pan-Tilt-Zoom camera to capture an image of that asset. But once you’ve done it once? InDro Controller remembers the settings – so you can deploy Sentinel on an autonomous mission and it will remember all parameters. It will capture the same image, on its own, during any subsequent deployment. This applies to any sensor, capturing any data.

 

HYDRO OTTAWA DEMO

 

Recently, InDro got in touch with Hydro Ottawa. We were looking to deploy Sentinel in a real-world situation, and Hydro Ottawa has an electrical substation in the city. We were interested in testing Sentinel in that scenario, and Hydro Ottawa was interested in seeing what Sentinel could do.

We deployed over the Rogers 5G network, using InDro Controller to quickly plot its route and some specific Points of Interest (which did indeed include a gauge). Then we let Sentinel go about its business completely on its own with an autonomous mission.

The result? Phenomenal. Sentinel captured all the salient data, demonstrating its immense capabilities as a ‘set and forget’ robot. Now that the data is in InDro Controller, Sentinel can carry out the same mission on a schedule with zero human intervention. Data will be automatically uploaded – and Sentinel is even capable of sending alerts if, say, that gauge was sending a reading of concern.

“We were able to plot a full preventative maintenance mission – and then run it autonomously several times within a two-hour window,” says Corbeth.

What’s more? It was freezing cold, putting Sentinel to the test in a harsh environment. This is what this robot was built to carry out – and can operate in environments from -20C to +30C.

And the Hydro Ottawa people?

“They were blown away,” says Corbeth. “They even told me: ‘Luke, your team should be very proud.'”

We are.

Below: Sentinel at a Hydro Ottawa substation

 

Sentinel enclosure Ottawa Hydro

INDRO’S TAKE

 

Sentinel has been an ongoing project for InDro for several years. We have continually upgraded the product as newer sensors and AI compute capabilities have become available. In conjunction with InDro Controller, this is now a fully commercial product. In fact, we recently shipped three of these to a US client and look forward to reporting on this when they are first deployed (which is happening shortly).

“Sentinel is one of our core products,” says InDro Robotics Founder and CEO Philip Reece. “Our team, both at Area X.O and InDro Forge, have worked very hard on the design and integration of this product. And InDro Controller, under the hands of Head of Software RJ Bundy, is an extremely intuitive and powerful user interface. We look forward to manufacturing many more Sentinels in 2025.”

Oh. We almost forgot to tell you that Sentinel is available as a quadruped, so it can tackle stairs and more demanding environments. So cool.

Interested in learning more – including a remote demo where you can take control of Sentinel? Contact us here.

InDro Robotics launches powerful new Sentinel UGV

InDro Robotics launches powerful new Sentinel UGV

By Scott Simmie

 

InDro has taken the wraps off its latest innovation – the all-new Sentinel Uncrewed Ground Vehicle.

Sentinel has been built for inspection, remote teleoperation and surveillance over 5G and 4G networks. Its robust build has been designed to take demanding weather and ground conditions in stride, while capturing virtually any kind of data across a broad range of use-cases.

“That’s what really excites me about Sentinel,” says Head of R&D Sales Luke Corbeth. “It can be used across multiple verticals, ranging from remotely inspecting assets like electrical sub-stations, through to agriculture, mining and more. It’s a workhorse.”

We could list all the sensors and processors onboard (and we will), but it’s the synergy here that counts.

“Sentinel has been very purposely designed and integrated so that virtually anyone can carry out highly complex missions with ease,” explains InDro Vice President Peter King. “And with our InDro Autonomy stack onboard, Sentinel can carry out tasks completely on its own for up to four hours before returning to wirelessly recharge at its base.”

That workhorse is the result of a lot of R&D by our Area X.O engineering team – and also the logical step forward from our original Sentinel V1. That was our original design for remote teleoperated inspection.

But, as you likely know by now, at InDro the innovation never stops.

Below: The new InDro Sentinel, carrying out an autonomous mission

InDro Sentinel

INDRO COMMANDER: SMARt AND VERsAtile

 

What truly sets Sentinel apart from the competition is the synergy of two innovations we’re quite proud of: InDro Commander and InDro Controller. And while Sentinel takes full advantage of these products, they are both robot-agnostic.

InDro Commander is a module that houses Sentinel’s brain – and allows for the seamless integration and power management of other sensors. With multiple USB slots and ROS1 and ROS2 libraries onboard, it makes modifying Sentinel a pleasure rather than a pain. You can, quite simply, plug in a new sensor and it will be detected; no complex coding or wiring required.

“Having Commander on board allows clients to easily modify their robots with different sensors for different applications. This is particularly appealing to those in the R&D community,” says Engineering Lead Arron Griffiths.

Commander also connects with 5G at near-zero latency for remote teleoperations or monitoring dense data during autonomous missions.

“Whether it’s 4G, 5G or WiFi, it does it all,” he adds.

With two state-of-the-art EDGE processors onboard, Commander also has the compute power and AI to take on anything. For autonomy, we’ve integrated the NVIDIA Jetson AGX Orin – a powerful 64GB developer kit. It’s capable of AI calculations at the astounding speed of 275 trillion operations per second (TOPS). Our InDro Autonomy Stack is embedded in Commander for precision autonomous missions. We’ve also outfitted Sentinel with a Realtime Kinematic (RTK) sensor for centimetre-level positioning accuracy.

The other EDGE processor is the ZED Box, which contains an NVIDIA Orin NX (100 TOPS). This carries out multiple tasks, but is specially built to work with depth-perception ZED cameras. There are two of these cameras on board Sentinel, used for AI obstacle detection and avoidance.

Below: A LiDAR-equipped InDro Commander module

Teleoperated Robots

INDRO CONTROLLER AT THE HELM

 

InDro Controller is our custom-built dashboard, and it’s been designed to match perfectly with InDro Commander for an exceedingly powerful but user-friendly means of programming and monitoring missions, robot health, sensor data and more. Operators can easily customize to get precisely the layout they want.

“The dashboard, the cameras, the heads-up display on the autonomous missions – those all can be customised,” says Front End Developer RJ Bundy. “We’re also adding other personal user customisations, like a light and dark mode, metric conversion, schedule missions – all the kinds of features you could want.”

The software resides in Commander and is accessed remotely via an encrypted login system. No one will ever see your missions and data except you – and those you grant the same secure access. (Yes, multiple users can simultaneously monitor a remote operation from locations across the country or across the globe.)

“We’ve created an interface that makes it very hard for a third party to intercept any of those commands or the data coming from the robot to you,” says Bundy.

And while it’s a perfect fit with Sentinel, InDro Controller can be used with any robot.

“It’s an all-in-one data visualization, robot management and robot control software,” he adds. “Whether you’re a student first learning how to use a robot or you’re a commercial giant, you’d be able to manage and maintain all of your robots.”

He’s not kidding. You can intuitively control Sentinel – or any other robot – using an Xbox controller. We’ve done demonstrations more than 4,000 km away from Area X.O where we’ve simply put a controller in someone’s hands. With imperceptible lag, they’re able to operate the robot. (Plus, you can customise the buttons for specific sensor features like pan, tilt, zoom, etc.)

Autonomous missions – including complex actions like stopping at a precise location, tilting a camera to a gauge and then zooming in and capturing the readout – are easily plotted using Controller. Once your mission has been set with multiple waypoints and actions, it’s a single click to repeat it. (And, of course, you can save as many different missions as required.)

The InDro Autonomy stacks are pre-loaded, meaning location doesn’t really matter.

“We have a GPS-based autonomy – which is better for outdoors – and then we have a SLAM- (Simultaneous Localisation and Mapping) based autonomy which is ideal for indoors,” says Head of R&D Sales Corbeth.

There are actually two versions of InDro Controller available; a simpler version is still full-featured but does not ship with InDro Autonomy, meaning it’s ideal for those in the R&D space who want to test their own autonomy software. Several academic institutions have already been using this version, and feedback has been excellent.

And the best news? Both versions will only become even more sophisticated over time.

“We’re heavily invested in continuously improving the software,” says Corbeth. “So regardless of which version you’re shipped, know that this is something that InDro Robotics is constantly developing and improving with client feedback in mind to ultimately provide the best mission planning, teleoperations and development software tool in the robotics industry.”

Below: A screenshot from InDro Controller, showing the path of an autonomous mission; the second image shows realtime data flowing through its customizable dashboard

Robot Teleoperation
Teleoperations with Robots

LONG DURATION, REPEATABLE MISSIONS

It’s already clear Sentinel has the brains. But it also has the brawn to match. Whether the task is inspection, surveillance or other forms of data acquisition, Sentinel has been designed from the ground up to consistently deliver. Featuring a 1500-watt dual drive system and tracks for locomotion, it’s ready for any terrain – from industrial environments through to farm fields and even snow and ice.

With a 120kg load capacity and 30° climbing angle, Sentinel can power its way over pretty much anything. We’ve even designed and manufactured custom metal guards to prevent stones from getting their way between the drive gears and the treads – a common issue with tracked vehicles.

That strength is supplemented by a comprehensive array of sensors for obstacle detection, Simultaneous Localisation and Mapping (SLAM), high-resolution photos and video – and more.

 

ZOOM, ZOOM, ZOOM

For starters, there’s a 30x optical Point-Tilt-Zoom camera that can be manually operated via the InDro Controller UI. Every time the pilot stops and captures data, all of that information – robot position, camera angle, zoom settings etc. are stored as a Point of Interest. All of those POIs from that initial manual mission are saved, meaning the next time Sentinel is deployed the operator can simply recall the mission and launch Sentinel for an autonomous run.

In fact, we recently did a demo of Sentinel for a government official. We had previously captured photos of five different objects on a path at Area X.O and had saved that mission. During the demo, the robot deployed and autonomously stopped at all five locations, replicating the original shots. This is the kind of feature that’s exceedingly helpful for spotting anomalies, change detection, etc. Of course, the built-in AI can also identify people, cars, trucks, etc. (In fact, we could set Sentinel to trigger an alert if a human is spotted somewhere they’re not supposed to be, a useful feature for both safety and security applications.)

For the operator, whether they’re manually piloting or simply monitoring an autonomous mission, four pinhole cameras provide a 360° view of surroundings for situational awareness. Two ZED 3D depth cameras (one at the front, one at the rear) are on the constant lookout for obstacles. As an additional layer of safety, engineers added two 2D safety-rated LiDAR sensors specifically for detecting people or other objects that might unexpectedly move into Sentinel’s path. If that happens, the robot will automatically stop, then seek an alternate path around the person or object. (It can also be set to simply go to a dead stop.)

Sentinel is also outfitted with two powerful Robosense 3D LiDAR units, enabling it to operate in GPS-denied environments, capture precision scans – and basically understand even a completely unfamiliar environment. Robosense has become our LiDAR of choice, for the reasons outlined in this recent post.

Below: InDro recently built and shipped this fleet for swarm robotics research; all are equipped with Robosense LiDAR units

Robosense LiDAR Swarm

WIRELESS SELF-CHARGING

 

Using Sentinel for remote ops? Many of our clients will be. And there’s not much point in deploying a robot at a remote location if someone has to go and plug it in to charge or run diagnostics.

Sentinel returns autonomously to its home base, where a wireless charger awaits. The robot understands where it needs to position itself for optimal charging, snugging up close to (but not touching) the induction charging system. Many remotely operated robots rely on making a mechanical connection with charging equipment, which introduces wear-and-tear and additional points of failure.

“Mechanical charging systems fail a lot, and we wanted to avoid that,” explains InDro VP Peter King.

InDro Controller also carries out diagnostics remotely, reporting back on parameters such as latency, battery strength, sensor connection and other indicators of overall robot health. The operator can literally be hundreds (or even thousands) of kilometres from the robot and see its condition with a quick glance at the UI.

“Sentinel can be customised for any client directly by us,” says Engineering Lead Arron Griffiths. “But having Commander on board allows clients to easily modify their robots with different sensors for different applications. This is particularly appealing to those in the R&D community.”

Below: On the shoulders of giants – the original Sentinel V 1.0. InDro has incorporated new AI compute power, sensors and other learnings to take a massive leap forward

Sentinel Inspection Robot

INDRO’S TAKE

 

The new Sentinel is more powerful, and more suitable to broader use-cases, than our first version of this robot. Don’t get us wrong; the original Sentinel was (and still is) a great machine. But this version is equipped with more powerful EDGE processing, and AI with greater capabilities. It’s also laden with additional and newer sensors, RTK positioning, and a more powerful base platform.

“The new Sentinel is a perfect fusion of industry-leading hardware and software – including InDro Commander, and the new InDro Controller and InDro Autonomy stacks,” says Indro Robotics Founder and CEO Philip Reece. “Our engineering team has put a lot of thought into making this robot capable of highly complex missions – yet easy to use and modify. Sentinel will be a perfect fit for multiple verticals and use-cases, and we look forward to our first deployments.”

Want to learn more about Sentinel – or even arrange to take it for a remote test drive? You can contact Head of R&D Sales Luke Corbeth here.