Application Areas
MARINE
High-performance motion platforms designed for maritime use deliver advanced stabilization, dynamic simulation, and reliable integration ensuring repeatability and precision in harsh sea conditions.
Marine Grade Simulation & Stabilization Solutions
SANLAB motion platforms offer reliable performance for maritime applications such as onboard stabilization, radar alignment testing, and mission-specific simulations ensuring precision and repeatability even in rough sea conditions.
HEAVY PAYLOAD STABILIZERS
Payload Range: 150 kg to 300 kg
Provides robust roll and pitch stabilization for heavy marine payloads, enabling precise and reliable operation of sensors, cameras, and mission-critical equipment in harsh sea conditions.
SATELLITE STABILIZER
Payload Range: 20 kg to 100 kg
Ensures continuous and accurate roll and pitch stabilization for satellite communication systems at sea, maintaining reliable signal tracking and uninterrupted data transmission during vessel motion.
STABILIZED FURNITURE
Roll & Pitch Stabilization: ±15°
Demonstrates advanced marine stabilization capability by maintaining a perfectly level surface on moving vessels, showcasing precise motion control technology in dynamic maritime environments.
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Real-World Marine Applications
Heavy Payload Stabilizer
SS150 Stabilizer
SS150 Stabilizer simulate dynamic forces to evaluate component stability and system behavior under realistic operational loads.
By replicating motion, tilt, and vibration, these systems ensure reliable testing of sensors and critical hardware—supporting development and verification in marine, aerospace, and defense environments.
Satellite Stabilizer
SS20 Stabilizer
This stabilized platform is designed for satellite communication systems in motion-heavy environments, ensuring precise signal alignment under continuous roll and pitch motion.
It minimizes signal drift and maintains accurate positioning, enabling consistent, real-time connectivity for maritime, land-based, and remote operations—critical for uninterrupted satellite data transmission.