Lloyd's Register launcheds LR Unmanned Marine Systems Code
Lloyd's Register (LR) has today launched the LR Unmanned Marine Systems Code, a goal-based code that takes a structured approach to the assessment of unmanned marine systems (UMS) against a set of safety and operational performance requirements.
With current and expected developments in autonomous and remote systems LR envisages that, within the near future, UMS will enter into widespread use through many sectors of the maritime industry. LR has been active in understanding how it can support the industry to demonstrate safe design and quality manufacture of critical aspects for unmanned systems.
The LR Unmanned Marine Systems Code provides an assurance process in order to certify the safe design, build and maintenance of UMS against an established framework that minimises the effort required by an owner or operator to achieve certification and which is acceptable to Flag States, local regulators and other parties. Whilst initially targeted at small non-convention sized UMS, including naval systems, it is scalable and is capable of application to larger, more complex vessels as technology and regulation develops.
The Code has been written to support innovation by establishing requirements for which compliance can be demonstrated using a tailored combination of standards, or where standards do not exist, the application of risk-based assessment techniques. LR then applies verification methods according to the solution selected. The benefits of using the goal-based structure is that it defines an ultimate safety objective whilst allowing for the consideration of alternative designs and solutions that meet the safety objective; thereby supporting innovation in an area that is developing rapidly.
The Code has been developed against a hazard analysis of UMS design and operation and benchmarked against existing commercial and naval regulatory requirements, including SOLAS and the Naval Ship Code, using LR's depth of experience in these sectors and in the development of goal-based standards. It has been validated against several existing UMS designs.