As Fugro’s survey vessels transit to project sites through NOAA-identified areas of interest, remote command and control technologies are used to acquire high-resolution mapping data with minimal crew onboard.
A first test of the approach took place last autumn in the Blake Plateau region off the coasts of Georgia and Florida, resulting in 28 000 km2 of new EEZ mapping data delivered to NOAA in February. With only about 40% of the US EEZ mapped and significantly less of the area characterised, the new Blake Plateau mapping data will contribute to the goals and objectives outlined in a November 2019 Presidential Memorandum on Ocean Mapping of the United States Exclusive Economic Zone and Shoreline and Nearshore of Alaska, which calls for bold action to map, explore, and characterise the ocean. Additionally, Fugro will contribute mapping data collected while transiting to and from the Blake Plateau project site as part of its ongoing crowdsourced bathymetry programme related to Seabed 2030.
“We are excited to partner with NOAA on such an important and ground-breaking project,” said David Millar, Government Accounts Director for Fugro in the Americas. “Over the past several years, we’ve developed and refined our remote service technology to streamline project schedules, reduce costs, continuously improve health and safety of our staff, and lower our carbon footprint. This same technology is utilised in the opportunistic mapping model. By leveraging the location and movements of suitable survey platforms, we can acquire high-accuracy, high-resolution bathymetry data with limited staff onboard. The approach is both efficient and cost-effective, and we believe it has tremendous potential in helping close bathymetry data gaps, not only in the US but all over the world.”
Read the article online at: https://www.oilfieldtechnology.com/offshore-and-subsea/11032020/fugro-and-us-noaa-developing-new-approach-to-deepwater-mapping/
You might also like
Halliburton Company has introduced the FlexRite® Selective Access multilateral completion system to address more complex and demanding well scenarios