QYSEA U-QPS Fifish Ai Rov Rediscover The Sea By Underwater Drones User Guide

QYSEA U-QPS Fifish Ai Rov Rediscover The Sea By Underwater Drones

Specifications

• Model: QYSEA U-QPS 2.0
• Package Version: Full Package Version
• Integrated Systems: U-INS & USBL
• Navigation Enhancement: Real-time updates for precision, stability, and flexibility

Full Package Version
(Integrated U-INS & USBL Systems)
Integrating USBL and U-INS systems enhances the FIFISH AI ROV’s navigation, ensuring continuous accuracy. Real-time updates refine position estimates, enhancing precision, stability, and flexibility for diverse underwater operations.

U-INS Version
(Underwater Inertial Navigation

U-INS utilizes its built-in sensors to achieve precise navigation and station locking in underwater environments. With a sea surface GNSS locator, FIFISH AI ROVs seamlessly acquire precise positioning data for efficient inspections and explorations.

USBL Version
(Ultra-short Baseline Positioning System)
QYSEA’s USBL system enables accurate real-time subsea positioning of the FIFISH, equipped with dual GNSS antennas for shipborne dynamic positioning. This setup ensures accurate positioning and seamless operation on vessels and boats.

Package Comparison

Underwater Quick Positioning System
U-QPS 2.0, developed by QYSEA, is a precise, efficient, and intuitive underwater positioning system for the FIFISH AI Underwater Robot. Integrating deep learning neural network models and precise positioning functions, U-QPS 2.0 enables a groundbreaking operational experience of underwater navigation and cruising for compact ROVs.

U-INS (Underwater Inertial Navigation System)
U-INS, the Underwater Inertial Navigation System, leverages QYSEA’s AI algorithm for enhanced functionality. The system employs sensor fusion techniques, integrating multiple sensors to achieve station locking, terrain scanning, path tracking, and navigation planning.

Dual GPS Dynamic Positioning Mode
U-QPS 2.0 integrates dual GPS shipborne dynamic position-ing with the FIFISH AI Underwater Robot, overcoming navigational accuracy challenges posed by floating offshore work vessels to deliver stable and precise underwater navigation.

Subsea 3D Path Planning
Leverage underwater 3D path planning, autonomously setting and recording the operational trajectory of the FIFISH AI Underwater Robots to for high- precision underwa-ter automatic cruising.

Intelligent One-Click Return
U-QPS 2.0 supports an intelligent one-click return to its base position. With a single tap of the screen, the mission can be halted, and the system will navigate the ROV to its home point automatically.

Customizable Map Integrations
U-QPS 2.0 introduces a customizable map mode, embedding popular maps such as Google Maps, and additional user-de-fined map imports. Tailored for diverse industries and professions, this feature enhances the operator efficiency and precision.

Motion Trajectory Tracking
The system allows for the customization of the length of the ROV’s motion trajectory line, enabling operators to view and effectively understand the historical path movements of their ROV.

POI (Point of Interest) Markings
Customize specific POIs, gathering data on points of interest. This annotated information can be displayed on the interface and exported. The positioning system enables efficient underwater inspections through multi-point search capabilities.

Real-time Information Display
The U-QPS 2.0 interface displays real-time ROV data, including depth, height, orientation, and distance, streamlining operator monitoring tasks. The system also facilitates a synchronized first-person view and map interface for dual- screen operation.

User Friendly Interface
U-QPS 2.0’s interface is user-friendly, allowing easy navigation and seamless execution of functions, including path planning, one-click return, and setting POI markers in the FIFISH APP, enabling straightforward and intuitive operation.

Industry Applications

U-QPS 2.0 offers a wide range of beneficial marine applications, enabling precise and dynamic navigation and positioning in challeng-ing underwater environments. The key essential marine applications include:

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Shenzhen QYSEA Tech Co., LTD

• Email: partner@qysea.com
• Phone: +86-755-2266-2313

FAQ

• Q: What are the key features of the U-QPS 2.0 package?
  • A: The U-QPS 2.0 package includes customizable map integrations, home point motion trajectory tracking, and industry applications for precise underwater navigation.
• Q: How does the U-INS system enhance navigation?
  • A: The U-INS system uses built-in sensors and AI algorithms for station locking, terrain scanning, path tracking, and navigation planning underwater.

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