Filling the technology and regulatory gaps that represent a barrier to the adoption of Robotics and Autonomous Systems (RAS) in activities related to ship inspection.
The ROBINS project aims at filling the technology and regulatory gaps that today still represent a barrier to the adoption of Robotics and Autonomous Systems (RAS) in activities related to inspection of ships, understanding end user’s actual needs and expectations and analyzing how existing or near-future technology can meet them.
ROBINS aims to improve the ability of RAS in sensing and probing, in navigation and positioning in confined spaces, as well as the capability to access and move safely within hazardous spaces. The overall budget for this collaborative project is €3.56M with a maximum European Grant of €2.74M.
ROBINS also aims to provide new software tools for image and data processing, e.g. for production of 3D models and virtual/augmented reality environments, to provide the surveyor with the same level of information as obtained by direct human observation.
A framework for the assessment of equivalence between the outcomes of RAS-assisted inspections and traditional procedures will also be provided by defining test procedures, criteria and metrics for the evaluation of RAS performance. Test campaigns will be performed both on-board and in a specific testing facility, where repeatable tests and measurements can be carried out.
The development of robust technical solutions and a regulatory framework for RAS-assisted ship inspection is expected to streamline wide-scale adoption of RAS technology in marine industry. The impact on safety, as far as hazardous environments are involved, can be easily understood and has already been witnessed in similar industrial domains (energy, oil and gas). The economic impact is expected to be beneficial for robotics industry (new supply chains and new potential markets), ICT industry (new services and products for data processing specific to marine industry), ship asset owners and operators (reduction of costs due to simplified preparation of items, reduced survey duration, improved quality and variety of inspection services) and certification bodies (new certification schemes for equipment, operators and procedures).
- WP1 Requirements, procedures and evaluation criteria (GLAF)
- WP2 Design, implementation and management of the Testing Facility (UNIGE)
- WP3 Development of aerial platform for irregular confined spaces (FLY)
- WP4 Development of autonomous flight capabilities for inspection of cargo holds (UIB)
- WP5 Development of crawler platform for NDT measurements (GEIR)
- WP6 Software and data processing tools (OCC)
- WP7 Test campaigns, field trials and demonstrations (UNIGE)
- WP8 Assessment of the Testing Facility (RINA)
- WP9 Assessment of RAS platforms and software tools (LR)
- WP10 Dissemination, Exploitation and Intellectual Property Rights (IPR) (LR)
- WP11 Management (RINA)
- Rina Services Spa, Italy
- Lloyd's Register EMEA, United Kingdom
- Flyability, Switzerland
- GE Inspection Robotics AG, Switzerland
- Open Cascade, France
- Universitat de les Illes Balears, Spain
- Universita Degli Studi di Genova, Italy
- Fayard AS, Denmark
- Ships Surveys And Service Srl, Italy
- Glafcos Marine EPE, Greece