The benefits of “remote metrology” are: No survey personnel waiting on standby, POB reduced, no visa issues, no personnel mobilization issues, and less offshore headcount leading to a safer working environment. Prior to the first fully “remote metrology”, an initial trial supported by offshore survey personnel from Zupt was completed where the ROV team executed test metrologies without incident. Detailed risk evaluation was completed outlining all of the potential issues that will be encountered by making the metrology a “remote metrology”. Several risk mitigation steps were taken to ensure the system was configured for remote work. Upon the successful completion of the test work, a sequence of five “remote metrologies” have been completed in the last seven months.
24 hours prior to the scheduled metrology, a communications check is completed between onshore and the equipment mounted on the ROV offshore. During the metrology, video, voice and serial communications are maintained between onshore and offshore. All data is collected and initiated from onshore. All C-PINS data acquisition is controlled by the Zupt personnel onshore. Real time QC is achieved either in the onshore control center, or the QC data can be emailed in real time to a client’s site. No QC presence is required offshore. Real time data transfer between offshore and the onshore control center has proven to be reliable. The communications bandwidth required is a single 256 kb/s channel.
The time for data collection for the first “remote metrology” was 8 hours and subsequent metrologies have been approximately 6 hours for complete metrology data acquisition. In all cases, the required accuracy was met in similar times to manned metrology surveys. All final reports have been delivered within 24 hours of data acquisition.
As the industry demands more efficient and cost-effective solutions, survey contractors tools need to adapt to the changing marketplace. Zupt has proven that our “remote metrology” solution solves scheduling issues, manning issues and HSE risk and exposure problems while maintaining conventional metrology accuracy and timing.