Capturing beautiful images from dizzying heights and out-of-reach locations is becoming the norm thanks to aerial drones.
But for those more at home under the waves, there has been no comparable offering.
A New Wave of Autonomous Machines
Until now, underwater drones were expensive, manual and targeted at a very specialized audience. iBubble, powered by the 7.5 watt NVIDIA Jetson TX2 supercomputer on a module, serves everyone from diving enthusiasts and oceanographers to underwater maintenance crews, boat owners and defense departments.
Notilo Plus’s 15-person team shares a love of capturing their adventures beneath the water’s surface, so they know just how complicated underwater filming can be.
They’ve designed iBubble to allow divers to spend more time exploring and less time behind the lens. Thanks to a combination of data-heavy training and processing power, the underwater drone can make its own decisions and track a diver’s path better than a human with a remote control could.
Divers can opt to have their surroundings filmed or have themselves captured while exploring from a range of different positions. They can also communicate with the drone via a remote device that allows them to call the iBubble to them and change the filming focus.
All Aboard with Jetson
Technologies that enable most connected devices to thrive, such as Wi-Fi, GPS and Bluetooth, don’t function under water. Most companies have tried to make up for this with expensive acoustic technology.
But iBubble relies on cost-effective sensors coupled with powerful machine learning algorithms. It merges acoustic data with computer vision to create a fast, reliable tracking system capable of handling the most difficult environments.
The Jetson TX2 makes it possible. With advances in mobile machine learning technology, such as SqueezeNet, the embedded AI computer can perform convolutional neural network-powered detection in real time. It uses long short-term memory networks to predict acoustic signals and drastically reduce delays in signal processing.
The remainder of the Jetson TX2’s GPU memory is used for HD streaming. The module’s built-in CPU clusters algorithms for visual tracking and carrying out more traditional signal processing of reflected sonar waves. Traditional signal processing is of paramount importance because it not only enables iBubble to detect and avoid obstacles (such as reef structures) but also to find and inspect areas needing repair on vessels.
“When it comes to building edge solutions, you have to go with NVIDIA,” said Nicolas Gambini, CEO of Notilo Plus. “The benefits in terms of computing power combined with the ease of getting started thanks to the built-in resources are incomparable.”
A Boon for the Shipping Industry
Not only a device for recreational divers, the iBubble can benefit the shipping industry.
For large freighters needing regular hull inspections, a traditional wire-connected drone isn’t a feasible option. But iBubble can roam the entire length and breadth of a vessel and capture every inch in high-quality video.
When potential trouble is spotted, an optional wire can be connected to feed live footage to the surface. This helps crews above make decisions about the state of the hull faster and more effectively.
The detection and classification systems used are trained on data available on Notilo Plus’ cloud platform. As the number of iBubble users increases, the more underwater data will be collected. Over time, the company plans to build specialized underwater AI datasets and train its deep neural networks specifically on them — increasing the accuracy of iBubble further.
The post What Lies Beneath: Underwater Drone Unlocks Secrets of the Deep appeared first on The Official NVIDIA Blog.