Remotely Operated Vehicles (ROV) are tethered, unmanned, submersible devices used for a wide range of activities, including underwater General Visual Inspection (GVI) of offshore structures, such as hydrocarbon production platforms, drilling rigs, windfarms, bridges, and turbines. Uses range from intervention, maintenance, repair, retrieval of lost assets, Explosive Ordinance Disposal (EOD), and surveys for scientific or decommissioning purposes for a range of sectors, including the military.
OSC owns and operates highly versatile and manoeuvrable SeaBotix LBV300-5 Observation Class ROVs (OCROVs), able to be deployed world-wide. Owing to this model’s small yet powerful nature, the SeaBotix ROV plays both primary and supporting roles for initial pre-diver deployment assessment, as well as dive-supporting activities. The specification sheet can be downloaded here.
OSC’s SeaBotix LBV300-5 ROV systems comprise:
Unlike our competitors, OSC’s ROV systems are maintained to the highest standard and all components are fully functional before deployment to the field. All components are supplied in robust flight travel cases, rendering the ROV simple to transport and rapid to deploy/recover, thus minimising down-time. Mobilisation costs of OSC’s ROVs are low compared to larger ROV units, as the equipment can be carried by hand to the operation site. OSC’s ROV survey team are fully insured, trained, and highly experienced full time employees (not contractors), with the ability to mobilise at short notice.
OSC can provide a wide array of ROV services for a variety of sectors, including, inter alia:
OSC additionally offers post-project services, which can include image (data) analysis, data interpretation, and reporting depending on client requirements. OSC’s scientists have published a range of ROV peer-reviewed papers on analysis of varied topics including marine mammals, enhancing ROVs for scientific use, progressive colonisation of new production platforms before and placement, and assessment of older platforms for derogation purposes.
For more information regarding ROV services offered by OSC, please contact firstname.lastname@example.org.
McLean, D., Gates, A., Benfield, M., Bond, T., Booth, D., Bunce, M., Fowler, A., Harvey, E., Macreadie, P., Rouse, S., Parsons, M., Partridge, J., Pattiaratchi, C., Thomson , P., Todd, V.L.G., and Jones, D. (2020): Enhancing the scientific value of industry remotely operated vehicles (ROVs) in our oceans. Frontiers in Marine Science 7, 220.
Todd, V.L.G., Lavallin, E.W., and Macreadie, P.I. (2018): Quantitative analysis of fish and invertebrate assemblage dynamics in association with a North Sea oil and gas installation complex. Marine Environmental Research 142, 69-79.
Todd, V.L.G., Lazar, L., Williamson, L.D., Peters, I., Cox, S.E., Todd, I.B., Macreadie, P.I., and McLean, D.L. (2020a): Underwater visual records of marine megafauna around offshore anthropogenic structures. Frontiers in Marine Science 7, 230.
Todd, V.L.G., Williamson, L.D., Cox, S.E., Todd, I.B., and Macreadie, P.I. (2020b): Characterising the first wave of fish and invertebrate colonisation on a new offshore petroleum platform. ICES Journal of Marine Science 77, 1127-1136.