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

Periodic Reporting for period 2 - MARINA (Maritime LAseR for collisIon avoidance in high speed shippiNg and vessel traffic mAnagement)

Berichtszeitraum: 2022-04-01 bis 2023-11-30

The global shipping industry plays a crucial role, handling about 90% of world trade (Safety and Shipping Review 2021). Relevant analysis from Lloyd’s List Intelligence and DNV, titled ‘Maritime Safety 2012-2021: A Decade of Progress,’ highlights a marked decrease in maritime accidents, losses, and detentions over the past ten years. This improvement is attributed to advancements in technology, enhanced ship designs, implementation of regulatory measures, and sophisticated risk management systems. Despite these advancements, navigational accidents continue to occur frequently.

Addressing this, the MARINA project emerged to meet the growing demand for solutions that enhance efficiency, security, and safety in the maritime industry, while also minimizing environmental impacts. MARINA aims to facilitate strategic decision-making in preparation for autonomous shipping. Our innovative approach offers a system that detects, identifies, categorizes, and monitors various objects such as floating shipping containers, ice floes, debris, marine life, plastic waste, and other navigational hazards or vessels. Furthermore, the MARINA project's outcomes have significant applications in the realm of security and port surveillance. By providing detailed and accurate monitoring capabilities, the system greatly enhances the security framework of port operations, aiding in the detection and management of potential security threats. This makes MARINA an invaluable tool for port authorities and security personnel, bolstering overall maritime security. This system empowers ship operators, offshore platforms, and port authorities to make timely, informed decisions, crucial for maintaining safety and security in challenging navigational or environmentally sensitive situations. This positions MARINA as a key player in bridging the current gap in maritime transport, contributing significantly to the industry’s evolution.
During MARINA's WP1, the consortium evolved from workshops on collision avoidance and autonomous sailing to enhancing the Ladar Sensor Suite. Initiating with expert-led sessions that refined system specifications and produced the D1.1 report, the focus shifted to hardware and software upgrades. The development of LADAR Mk3 featured improved multi-sensor capabilities and integration of various sensors like visual, infrared, and lidar. Software enhancements included firmware redesign, algorithm optimization for environmental adaptability, and machine learning for improved object detection. Extensive testing yielded three calibrated LADAR Mk3 systems, refined operator interfaces, and successful vessel trials, marking significant progress in maritime safety technology.

In Work Package 2 of the MARINA project, a digital training program for the Ladar system was developed, targeting ship and port operators and fleet managers. The program featured interactive, self-paced learning content on a web-based platform, enhanced with AR/VR for immersive experiences. Continuous updates based on user feedback and technology improvements led to a sophisticated e-learning ecosystem, offering comprehensive modules, automatic certification, and both remote and on-board training options, ultimately increasing proficiency and safety in maritime operations.

In WP3, the team worked on technical, organizational, and piloting aspects of the Ladar Sensor Suite, focusing on installation, testing, and validation. Despite the departure of GLY and task redistribution, the team made no compromises in achieving objectives. They successfully installed, tested, and continuously refined the system based on end-user feedback and rigorous trials in various conditions. The project underwent extensive real-world piloting, leading to the validated, efficient, and user-friendly system at a high readiness level, marking a significant advancement from development to maritime application.

In WP4, the Consortium focused on market analysis, pricing, value-chain management, and regulatory compliance for the Ladar Sensor Suite. They conducted dynamic market monitoring to strategize entry into shipping and yachting, emphasizing technology's unique aspects and adopting value-based pricing. Continuous revisions were made to cost structures, strategies, and business models in response to market changes and competitive threats. Partnerships were expanded, product roadmaps refined, and compliance with maritime regulations ensured. The team secured funding and strategized for product launch and development, positioning the Ladar Sensor Suite for successful commercialization and growth.

In MARINA's WP5, the focus was on engaging stakeholders and disseminating results to enhance the Ladar Sensor Suite's market full scale launch. A comprehensive database was created for aligning engagement with stakeholders like industry partners and policy makers. Continuous dissemination through websites, social media, and industry events increased visibility and interaction. Testing and demonstrations attracted partners and investors. Strategic communication and partnerships further expanded the project's reach. These efforts significantly contributed to achieving commercial and strategic objectives, setting a solid foundation for successful market introduction and future growth.

In the MARINA project's Work Package 6, the team focused on coordinating administrative, legal, and financial aspects, promoting gender equality, mitigating risks amidst global shortages and geopolitical shifts, and managing intellectual property, including securing patents for the Ladar Sensor Suite. They adapted the business and commercialization plan to market and technology changes, finalizing product specifications, redefining selling points, conducting competitive analysis, and exploring new markets. The team established pricing and lead strategies, guiding stakeholders through conversion and retention. These comprehensive efforts laid a robust foundation for the Ladar Sensor Suite's market entry and growth, ensuring readiness for commercialization.
The Marina project significantly advanced maritime navigation safety by developing and upgrading the Ladar Sensor Suite, with innovative hardware setup of a muti-channel laser fan beam, boosting detection capabilities. Despite global electronics shortages, the project optimized hardware for weight, cost, power, and introduced advanced imaging technologies. Software upgrades in firmware architecture and machine learning and big data frameworks, enhanced object detection and situational awareness. The user interface was improved for maritime operations, and a virtual training academy with AR/VR was created for immersive learning.

These technological integrations elevated the system's Technology Readiness Level. The project promises considerable socio-economic advantages by reducing maritime accidents, which decreases associated costs and enhances safety and environmental protection. It sets a new benchmark in the industry, likely spurring further innovation and contributing to global maritime safety standards. The Marina project represents a significant stride in improving maritime safety, efficiency, and sustainability through technology.
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