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Key to the system’s performance is its integration of advanced positioning sensors, which enable precision navigation even in areas with poor visibility or difficult underwater conditions. This positioning capability is essential for ensuring the ROV maintains a stable course along the hull, minimizing drift and improving data accuracy. The integration of ROV GPS, USBL, and dead reckoning technology allows for continued tracking when external GPS signals are lost, ensuring consistent operation in confined or murky waters.
Deep Trekker’s ROVs provide real-time data to operators, reducing the need for lengthy post-inspection analysis. The Qii.AI software integrates with the ROV to automatically analyze the data while the inspection is ongoing. The software’s ability to flag issues in real-time streamlines the inspection process, helping operators make informed decisions quickly. The project also supports the creation of a comprehensive inspection dashboard, which allows users to access, store, and share 3D models, sonar data, and annotated imagery with ease.
With a project value of $8,108,000, and a $3,405,306 contribution from Canada’s Ocean Supercluster, the AI ROV Ship Modeling and Detection Project stands to revolutionize the maritime industry’s approach to hull inspections. It not only enhances the safety and operational reliability of ships but also supports environmental stewardship by identifying issues before they escalate.
Beyond technological advancements, the project is expected to improve safety standards, support and promote environmental responsibility, and enhance economic outcomes in Canada's maritime industry by driving job creation and reinforcing Canada’s status as a leader in AI-driven ocean technologies.
The technology reduces inspection times, lowers costs, and improves the accuracy of inspections compared to traditional diver-led methods, which are labor-intensive and subject to human error.
This project brings together a range of industry leaders, and together, these partners aim to set new standards for the future of ship inspections, not only in Canada but globally.
“Projects like this demonstrate how the Ocean Cluster is working with partners to advance competitiveness in the ocean industry through the use of innovative and responsible technologies in AI,” says the Honourable François-Philippe Champagne, Minister of Innovation, Science and Industry. “AI is one of the greatest technological transformations of our age, and through advances like this, Canada is leading the way.”
Deep Trekker is a leading provider of portable, rugged Remotely Operated Vehicles (ROVs) designed for underwater applications ranging from ship hull inspections to aquaculture management and infrastructure maintenance. Trusted by professionals across industries worldwide, these ROVs offer advanced capabilities including sonar integration, real-time data processing, and easy-to-use control systems.
For more information, visit deeptrekker.com.
Canada’s Ocean Supercluster accelerates the development and commercialization of homegrown ocean solutions. It brings together members, partners, and networks to promote innovation in energy transition, food security, transport, and climate change. Since its inception, the OSC has approved over 100 projects, projected to deliver over 220 ocean products, processes, and services. Ambition 2035 aims to increase Canada’s ocean economy fivefold by 2035.
For more information, visit oceansupercluster.ca.
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