Extra Large Unmanned Underwater Vehicles (XLUUVs)
Taking XLUUV Performance to the Next Level with Advanced Fiber Optic Sensing Capabilities. Dive into the future of Extra Large Unmanned Underwater Vehicles (XLUUVs) with OPTICS11. We have engineered an exceptional solution, the Optical Thin Array Detection System (OTADES), that revolutionizes the capabilities of XLUUVs. OTADES transcends the limitations of traditional sensors, offering a compact, lightweight, and highly sensitive sensing solution that is perfectly tailored to meet the unique demands of XLUUVs.
Enhanced Performance
Our OTADES system is highly sensitive to the slightest deformation, detecting even the minutest strain induced by acoustic waves. This breakthrough sensitivity is crucial for XLUUVs, enabling accurate detection and tracking of subtle acoustic events.
Energy Efficiency
The OTADES system requires no power increase for additional hydrophones, making it an energy-efficient solution. Given the extended missions of XLUUVs, this energy efficiency is critical for sustained operations.
Versatility and Scalability
With its ability to host up to hundreds of built-to-spec hydrophones, the OTADES system offers a scalable and versatile solution that can be customized to suit various mission requirements of XLUUVs.
Revolutionizing Underwater Sensing
Our OTADES system is a pioneering approach to underwater acoustic sensing. By leveraging innovative optical fiber technology, the system offers high sensitivity, minimal weight, compact size, and low power usage, transforming the capabilities of XLUUVs.
Advanced Optic-Fiber Sensors
The OTADES system features optic-fiber sensors that provide key advantages over traditional electric sensors. These benefits include extended range, durability, EMI & EMC immunity, compactness, and simplicity, all crucial for enduring the harsh marine environment and delivering reliable performance.
Comprehensive Sensing
The optic-fiber sensors of the OTADES system are capable of measuring acoustic, temperature, and pressure signals. This offers a comprehensive sensing solution, providing a detailed understanding of the underwater environment in which XLUUVs operate.