The 14
th edition of the Singapore Maritime Institute (SMI) Forum successfully concluded yesterday with over 200 industry leaders, researchers and government representatives, gathering to discuss the future of maritime in the face of digital and green transitions. Held under the theme “Navigating the Digital and Green Transition for Maritime”, this year’s SMI Forum spotlighted the role of research, innovation, and industry collaboration in shaping a more sustainable and technologically advanced maritime sector.
Focus Areas for a Sustainable Maritime Future
2 The Forum focused on two pivotal areas driving the transformation of the maritime industry: leveraging advanced digital technologies and artificial intelligence to boost operational efficiency and industry competitiveness and adopting sustainable fuel options to accelerate the sector’s transition to a greener future.
3 Interactive panel discussions and research presentations at the SMI Forum featured renowned thought leaders, industry experts, and academia in maritime research. Participants gained insights into the latest trends, challenges, and opportunities in driving the dual transition towards maritime digitalisation and sustainability.
4 The event featured a keynote presentation by SMI’s 2024 Distinguished Visitor, Professor Adam Sobey, on “Data-Centric Engineering: New Technologies to Support Efficient Global Shipping”. A leading expert in data-centric engineering, Professor Sobey is the Programme Director at The Alan Turing Institute and Professor of Data-Centric Engineering in the Maritime Engineering group at the University of Southampton.
SMI Funds New Research to Advance Safety in Future Fuel Handling and Subsea Anomaly Detection
5 In addition to the knowledge-sharing sessions, SMI announced the funding award for two projects led by the Agency for Science, Technology and Research (A*STAR). One project, titled “Dispersion Analysis and Simulations for Handling (DASH) of Future Fuels,” is led and hosted by A*STAR Institute of High Performance Computing (A*STAR IHPC). This joint initiative includes other A*STAR research institutes and public research partners such as CNRS@CREATE, the Technology Centre for Offshore and Marine, Singapore (TCOMS), and the Tropical Marine Science Institute (TMSI) at the National University of Singapore (NUS). The project focuses on developing a multi-fidelity planning tool to predict the dispersion of ammonia and methanol in the event of accidental leakages during bunkering operations. Essentially, the tool will integrate dispersion analysis, consequence simulations, and real-time environmental data to create a safety and risk management system that provides insights into the behaviour of these next-generation fuels. The developed tool will be used to develop effective preventive measures, emergency response strategies, and mitigation plans for such scenarios.
6 “A*STAR IHPC is dedicated to developing next-generation tools to improve the design and safety of multi-fuel bunkering operations. Through close collaboration with our partners, we aim to equip industry stakeholders with advanced simulation tools that assess potential leak scenarios and enhance safety planning, operations, and emergency response. This enables more informed, strategic decision-making that supports the maritime sector’s journey toward safer, more sustainable fuel solutions,” said Dr Su Yi, Executive Director of A*STAR IHPC.
First row (L to R): Dr Chen Xinwei, Deputy Executive Director of SMI; Dr Lou Jing, Deputy Executive Director, A*STAR IHPC
Second row (L to R): Dr Vijayaraghavan Srivatsan, Principal Research Fellow, TMSI; Dr Chow Jeng Hei, Senior Scientist, TCOMS; Prof Dominique Baillargeat, Director, CNRS@CREATE; Mr Kenneth Lim, Assistant Chief Executive (Industry and Transformation), MPA; Mr Teo Eng Dih, Chief Executive, MPA; Dr Su Yi, Executive Director, A*STAR IHPC; Dr Nguyen Vinh Tan, Senior Principal Scientist, A*STAR IHPC; Dr Kang Chang Wei, Director, Fluid Dynamics Department, A*STAR IHPC
7 SMI also awarded funding for the project “Subsea Cable Sensing for Anomaly Detection and Tide Sensing”, led by A*STAR Institute for Infocomm Research (A*STAR I²R). This collaborative project, involving the Maritime and Port Authority of Singapore, Singtel, and TMSI NUS, aims to develop distributed acoustic sensing (DAS) technology for subsea fibre optic cables. DAS enables real-time detection and localisation of disturbances, with potential to measure tide levels along subsea cables within Singapore waters. By analysing backscattered light in optical fibres to continuously detect and track changes, DAS enhances the resilience of subsea infrastructure and environmental monitoring, enabling greater security, environmental protection, and effective long term planning.
8 “A*STAR I²R is committed to advancing distributed acoustic sensing (DAS) technology in the maritime industry through close collaboration with our partners. Building on our expertise in DAS applications—from protecting critical underground infrastructure to detecting perimeter intrusions —we are now adapting these capabilities to transform Singapore’s subsea cables into a real-time sensor network. This project will enable proactive monitoring and maintenance of underwater assets, strengthening maritime safety and infrastructure resilience. Our advanced, low-noise DAS system will also detect subtle changes in strain and temperature, even at ultra-low frequencies for tide sensing, offering new insights for oceanographic models that can enhance shipping schedules and improve operational efficiency,” said Dr Sun Sumei, Executive Director of A*STAR I2R.
9 Said Dr Chen Xinwei, Deputy Executive Director of SMI, “Decarbonisation and sustainability are critical challenges facing the maritime industry. SMI is pleased to support the DASH project with funding, highlighting our commitment to advancing the safe handling of alternative fuels – an essential step in achieving the sector’s decarbonisation objectives.”
10 Dr Chen added, “SMI also believes in the importance of investing in subsea cable sensing for anomaly detection and tide monitoring as it enhances our ability to safeguard maritime infrastructure and environmental stability. The proposed technology by A*STAR I²R promises to strengthen subsea cable infrastructure resilience, improve water surveillance in Singapore, and advance tide monitoring capabilities. We do look forward to impactful outcomes from this research.”
Collaborate to Innovate
11 The 14th SMI Forum concluded with a strong call for collaboration and innovation among all maritime stakeholders to address the challenges and harness the opportunities of the digital and green transition. By uniting the expertise of industry, research institutions, and government, the sector can drive innovation and advance sustainable solutions to ensure its long-term resilience and competitiveness. To continue the dialogues and build on the connections established at the SMI Forum, attendees are encouraged to join the inaugural Singapore Maritime Research Conference, scheduled for 26 and 27 March during Singapore Maritime Week 2025.
This media article is release by Singapore Maritime Institute (SMI).