SEABER Integrates Interferometric 3D Side-Scan Sonar into Its MARVEL Micro-AUV

SEABER MARVEL 3DSS
(Image credit: SEABER)
The integration of a next-generation interferometric 3D side-scan sonar (3DSS) into SEABER's MARVEL micro-AUV represents the first time worldwide that such a payload has been successfully miniaturized for a micro-AUV platform.

Based on patented CAATI technology, the 3DSS simultaneously delivers high-resolution 2D imagery, true 3D seabed reconstruction, and centimetric-scale bathymetry from a single, compact system. In operational testing, a single MARVEL-3DSS mapped a 300 × 150-meter beach approach zone in under 30 minutes—up to ten times faster than legacy solutions— with minimal acoustic signature and no requirement for specialist personnel. This breakthrough significantly enhances amphibious beach reconnaissance capabilities for naval forces, special operations units, and mine countermeasure teams operating in contested littoral environments.

The Limits of Existing Reconnaissance Methods

In modern littoral warfare, precise knowledge of the seabed is essential before any amphibious landing. Channels, sandbars, obstacles, mines, and sediment structure all directly affect landing craft routes, timing, and survivability—yet existing reconnaissance methods each carry significant operational constraints.

Combat divers offer high precision but are slow, cover limited areas, and face serious exposure risks in contested environments. Towed sonar systems provide better coverage but remain highly detectable from the surface and perform poorly in shallow waters. Small autonomous underwater systems improve discretion but rely on basic 2D sonar payloads and require frequent surfacing for GPS recalibration, preventing them from generating the high-resolution three-dimensional seabed models that modern operations demand.

A New Operational Paradigm: The MARVEL-3DSS

The SEABER MARVEL micro-AUV measures just 12 centimeters in diameter, runs on fully electric propulsion, and can be deployed by a single operator from a rigid-hull inflatable boat with no hydrographic expertise required.

It carries a PingDSP next-generation interferometric 3D side-scan sonar—the first time worldwide such a payload has been miniaturized for a micro-AUV. Based on patented CAATI (Computed Angle-of-Arrival Transient Imaging) processing, the 3DSS simultaneously delivers high-resolution 2D side-scan imagery, true 3D seabed reconstruction, and centimetric-scale bathymetry in a single run.

Interferometric 3D Side-Scan Sonar
(Image credit: SEABER)

In operational testing, a single MARVEL-3DSS mapped a 300 × 150-meter beach approach zone in approximately 30 minutes, following just three survey lines spaced 40 meters apart. The system operates efficiently in water depths from 0 to 40 meters, maintaining near-bottom stability without image quality degradation. Upon recovery, commanders receive a complete 3D model of the approach zone ready for direct integration into mission planning tools.

The MARVEL-3DSS ensures near-total acoustic and visual discretion throughout the mission, critical for covert pre-assault reconnaissance in contested environments.

Engineering Challenges and Development Process

Integrating this sonar into a 12-centimeter vehicle required a complete redesign of the MARVEL’s payload architecture: mechanical miniaturization, a dedicated data-flow management board, dual Ethernet interfaces, and significantly expanded onboard storage.

Maintaining full software interoperability with PingDSP’s processing suite despite the transition to an embedded architecture was among the most complex challenges of the program, requiring multiple joint test and validation cycles conducted by SEABER and PingDSP/Norbit throughout 2024 and 2025.

Current Limitations and the Road Ahead

In deeper waters (between 40 and 250 meters), the onboard DVL can lose bottom contact, resulting in accumulated inertial drift and reduced geo-referencing accuracy. Operators currently mitigate this through intermittent USBL acoustic position corrections from a surface platform, but it reduces mission stealth and requires an additional surface asset.

The large datasets generated by 3DSS systems also impose higher storage requirements and longer post-processing times.

Future developments will focus on low-drift inertial navigation algorithms, embedded processing for anomaly detection, and adaptive acoustic techniques for complex surf-zone environments.

The MARVEL-3DSS represents a decisive shift in amphibious reconnaissance capabilities. By combining discreet deployment, rapid wide-area coverage, and high-resolution three-dimensional seabed mapping in a single man-portable platform, it addresses the full operational constraints of modern littoral warfare.

As these technologies mature, micro-AUVs equipped with 3DSS sonar are expected to become standard assets for amphibious forces, special operations units, and mine countermeasure teams worldwide.

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