Maritime LAseR for collisIon avoidance in high speed shippiNg and vessel traffic mAnagement

Maritime LAseR for collisIon avoidance in high speed shippiNg and vessel traffic mAnagement

Shipping is a key driver of the EU economy, but dense traffic lanes, tighter schedules, high cost of trained staff and increasingly difficult weather patterns have put serious pressures on sustainability and environmental safety of commercial shipping. Contact and collision incidences are now the most frequent and overall the costliest type of accidents in the maritime transport sector. Accidents force 1 out of 10 ships to an unplanned dry dock stay every year, costing on average €400,000 per incident, and have detrimental impact on the environment due to the release of pollutants into the water. Semi and fully submerged objects cause concern for shipping because they go undetected by state-of-the-art sensors, presenting an acute need for improved observation capability of the ocean surface layer. Aware of this clear market need to increase the global maritime transport industry’s safety, to decrease its environmental impact through collisions and to prepare for a future of autonomous shipping, the present consortium has developed an innovative solution using a unique and novel LADAR system. Our new sensor combines state-of-the-art real-time processing with an advanced object detection and classification algorithm based on machine learning techniques, to detect and classify objects in the ocean surface layer in a range of up to 2nm ahead of the ship. LADAR’s ability for obstacle detection will allow ship operators to operate their vessels efficiently and safely, reducing the risk of collision with other ships, driftwood, mammals or submerged containers. MARINA is a strong and complimentary consortium, where all partners have collaborated together extensively in preceding R&D&I projects. The aim of the project is to advance the system to TRL8, then to qualify the product in real-life operations to reach TRL9 and finally to support the commercial viability. Commercialization is expected to lead to an accumulated revenue of €786m 5 years post-project.