We are excited to share the latest developments in Task 4.1, which focuses on defining the platform’s functional scope and the digital twin’s scope/model. Our team has been diligently analyzing various sources of information, including existing software components, shipyard models, work breakdown structure models, planning models, and material and equipment inventory. This thorough analysis is crucial in achieving the general goals of Task 4.1:
- Generating a Specified IT Platform: We are developing an IT platform that will serve as the backbone for the project’s implementation, ensuring a robust and scalable foundation.
- Providing Key Applications and Relevant Data Sources: The platform will include a suite of essential applications and access to critical data sources, facilitating comprehensive project management and decision-making.
- Forming an Open System for Environmental Impact Assessment: Our aim is to create an open system that allows for accurate assessment of the environmental impact throughout the ship’s lifetime. This assessment will focus on emissions during production, maintenance, and recycling phases.
Current Progress in Task Groups
Our ongoing efforts have resulted in significant milestones across various task groups:
- Data Service [AES]: The first draft has been circulated.
- Data Analytics Service [THL]: Draft specification has been released.
- Data Acquisition Service [FLR]: First draft circulated.
- Shipyard Model Definition [AES]: Initial model subset uploaded.
- Ship Model Definition [FLR]: Initial model outline uploaded.
- 3D Geometry Data Model [SRE]: Initial draft uploaded.
These drafts and initial models are pivotal in shaping the final platform services and data structures. Our goal is to ensure that the platform enables easy and efficient integration by external parties, fostering collaboration and innovation.
Looking Ahead
As we continue to build on these foundations, we remain committed to transparency and collaboration. The final output of Task 4.1 will be a comprehensive description of platform services and data structures, meticulously analyzed to support seamless integration and to drive forward the project’s environmental and operational objectives.
Co-funded by the European Union. This project has received funding from the European Union’s Horizon Europe research and innovation program under grant agreement no. 101138730.