INDUSTRY NEWS SBG Systems Sensors Real-Time Heave Gets
Even Better Heave is a motion measurement very specific to marine applications. It refers to the up-and-down motion of a vessel due to wave action, measured as linear displacement along the local vertical axis, assuming a mean value of zero at the vessel’s center of gravity.
Evaluation Process We conducted multiple evaluations, including comparisons of bathymetric datasets derived from repeated passes over the same seafloor area. These evaluations were facilitated by our customer and partner, Norbit.
Bathymetric evaluations: • By comparing several survey lines over the same area, we established an upper bound on heave performance. This method accounts for the entire acquisition chain’s errors, including those from the INS position and angular measurements, multibeam sonar, and other sources.
• Post-Processing verification: • We also tested our new delayed heave algorithm using Qinertia post-processed GNSS data. The results showed that the new algorithm performs comparably to RTK.
Results The following screenshots provide a side-by-side comparison of the old and new algorithm versions.
Vessel motion: Heavy, Surge and Sway
Recent Developments Our current real-time and delayed heave algorithms are already industry-leading and have the best specifications. However, we have made significant improvements to further improve their accuracy. The latest advancements, introduced in firmware version 5.1, use the distance from the Center of Rotation (COR) to the IMU (Inertial Measurement Unit), resulting in the following benefits for both real-time and delayed heave algorithms:
Enhanced performance: • Real-time heave accuracy improved from 5 cm to 4 cm.
• Delayed heave accuracy improved from 2.5 cm to 2 cm.
• Flexible IMU installation: • The IMU can now be installed anywhere on the ship, as long as the distance to the COR is provided. This is a significant improvement over previous versions, which required the IMU to be located near the vessel’s COR—a challenge for larger vessels. Improved operation in challenging Sea states:
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• Full performance is maintained even in more demanding sea conditions.
Qualification of New Algorithms Qualifying heave performance is inherently challenging, especially when aiming for high accuracy. Here’s how we addressed this:
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www.dockyard-mag.com | August 2024
Old realtime heave. Mean 4cm, std 4cm
New realtime heave. Mean 3cm, std 2cm
Note that while the color scales differ, the provided statistics clearly show improvement. It’s worth mentioning that despite visual artifacts in the old heave algorithm, which were due to unusual sea states and large vessel setup, the values remained within specifications.
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