Professor James Fishwick from the NCCA took part in a UK Marine Autonomy summit during Singapore Maritime Week.
The rapid progress of technological advancements in the maritime sector is poised to usher in the widespread adoption and use of autonomous vessels, whether they operate under remote control or are entirely self-governing.
This transformative shift underscores the critical need for comprehensive regulatory frameworks that prioritise safety at sea, environmental considerations and the secure transportation of goods and cargo. As such, the International Maritime Organization (IMO) is actively considering regulations and guidelines for Maritime Autonomous Surface Ships (MASS). A “non-mandatory goal-based” MASS Code is due to take effect next year, which will form the basis for a mandatory code expected in 2028.
In mid-April, Professor James Fishwick – as Director of the National Centre for Coastal Autonomy (NCCA) – joined a UK Marine Autonomy Summit as an invited speaker during Singapore Maritime Week. Hosted by the National Physical Laboratory and the UK Government’s Department for Science, Innovation, and Technology (DSIT), the summit was attended by distinguished speakers including His Majesty’s Trade Commissioner for Asia Pacific, Martin Kent, and the British High Commissioner to Singapore, H.E. Kara Owen CMG.
Professor Fishwick shared an update on an international project in which the NCCA is participating, aimed at establishing robust standards for the Remote Operation Centres (ROCs) responsible for controlling autonomous vessels. The Marine Assured Autonomy Testbed (MAAT) project, led by the National Physical Laboratory and Lloyd’s Register, seeks to revolutionise the operational landscape of autonomous vessels by ensuring device-agnostic control and the ability to manage multiple vessels simultaneously and across international jurisdictions.
Professor Fishwick explains:
“What sets our project apart is its international collaboration. Partnering with Canada and Latvia, we are pioneering a unique framework that allows us to test and operate autonomous vessels across different countries simultaneously. This not only enhances efficiency but also promotes international cooperation in the advancement of marine autonomy technologies.
Moreover, we are looking at the seamless handoff of vessel control between different control centres, facilitating 24-hour operations and supporting long-range autonomy. Using advanced hardware and software infrastructure we are paving the way for safe, efficient, and globally connected maritime operations in the future.”
As regulations surrounding marine autonomy continue to evolve, Remote Operations Centres (ROCs) will become an integral part of the regulatory framework, ensuring safe and efficient operations worldwide.
As part of the MAAT project, funding is currently being sought for its short-term and long-term programmes, with an expectation that the long-term programme will run until at least 2028.