The next generation of maritime operations will be data-driven, connected, and autonomous. SeaGig is being built for that world — developing the intelligence, security, and systems that make it possible.
"Maritime operations are entering an era of radical intelligence. We are building the expertise, tools, and knowledge to serve a world where vessels think, decide, and operate with minimal human intervention — safely, securely, and sustainably."
Achieving full maritime autonomy requires capability across every layer of the system. SeaGig's work spans all seven — from raw sensor data to regulatory compliance.
Sensor fusion, LiDAR, RADAR, AIS integration, and environmental awareness systems that give a vessel its eyes.
AI/ML-driven voyage planning, real-time collision avoidance (COLREGS-compliant), and route optimisation.
Dynamic positioning systems, thruster management, autopilot integration, and actuation control.
Satcom architecture, V2X vessel communication, shore control links, and low-latency data uplinks.
OT/IT security convergence, intrusion detection, network hardening, and cyber resilience frameworks.
Maritime data pipelines, vessel performance analytics, digital twins, and predictive maintenance intelligence.
FLAG state alignment, IMO autonomous shipping guidelines, CII reporting, and regulatory change monitoring.
SeaGig is developing deep capability across the domains that will define maritime operations in the coming decade.
At the core of everything we do. We are developing frameworks for vessel performance analytics, fleet intelligence dashboards, CII/DCS reporting, and predictive operational modelling.
High-precision vessel station-keeping and DP systems expertise. We are building capability in DP1/DP2/DP3 class support, FMEA studies, thruster optimisation, and reference system integration.
As vessel systems converge OT and IT, the attack surface grows. We are developing maritime-specific cyber frameworks — vessel network audits, ECDIS/AIS hardening, and crew awareness programmes.
We are actively engaged in the research and development of autonomous surface vessel (ASV) and USV architectures — navigation algorithms, shore control interfaces, and autonomy decision frameworks.
Building vessel IoT ecosystems — remote condition monitoring, onboard sensor networks, edge computing deployments, and shore-to-ship data bridge architectures for real-time operational intelligence.
We create maritime simulation and visualisation concepts — digital twins, 3D operational views, training tools, and decision-support interfaces that help complex systems become clearer and more actionable.
Dynamic Positioning represents one of the most technically demanding disciplines in maritime operations. DP-equipped vessels — from offshore supply ships to floating production units — maintain precise station without anchors using integrated thruster, sensor, and control systems.
SeaGig is building expertise in DP system architecture, redundancy analysis, and the integration of modern data and autonomous control layers into DP-equipped fleets.
Our technical interest areas in vessel IoT — the domains we are actively developing and exploring for deployment on commercial and specialised maritime platforms.
Continuous monitoring of hull stress, structural fatigue, machinery health, and bilge levels using distributed IoT sensor networks with shore-accessible dashboards.
Real-time emissions monitoring for CII and MRV compliance, ballast water quality sensors, and automated regulatory reporting data pipelines.
Developing custom sensor payload integration into DP control loops — supplementary positioning references, environmental sensors, and real-time data overlay for DP operators.
Telemetry architecture for unmanned surface and underwater vehicles — sensor payload management, mission data logging, and real-time status transmission over satcom and RF links.
Low-latency edge computing deployments onboard vessels, enabling local data processing and selective uplinking of high-value operational data to shore-based analytics platforms.
Machine learning models trained on vessel machinery sensor data to predict maintenance events before failure — reducing unplanned downtime and improving voyage planning confidence.
SeaGig's intellectual output — a published textbook and on-demand training course that form the knowledge backbone of our work.
A first-principles exploration of marine informatics — covering data systems, vessel connectivity, navigation intelligence, and the digital transformation of maritime operations. Written for both practitioners and decision-makers.
A structured 5-week professional development programme covering the full spectrum of marine informatics. Learn at your own pace with access to course materials, assessments, and instructor support.
White papers, industry analysis, regulatory updates, and insights on autonomous shipping — our knowledge base for the maritime informatics community.
An analysis of how the merging of operational technology and IT networks aboard modern vessels creates new vulnerability surfaces — and what the industry must do to respond.
How DP technology is evolving from a manual-assist system to a fully autonomous station-keeping platform — the technical milestones, challenges, and regulatory implications.
A practical breakdown of CII ratings, data collection obligations, and the fleet management strategies that will determine compliance in the IMO's 2030 carbon intensity framework.
We are looking for forward-thinking shipping companies, ports, maritime organisations, and technology partners to collaborate on early-stage projects. Together we build what the industry needs next.