Intelligent Ship System
(Advanced Pilot Assistance System, APAS)
Intelligent Ship System(Advanced Pilot Assistance System,
APAS),Through independently developed surface autonomous driving controllers, scene sensing sensors, comprehensive display and interaction systems, combined with perception recognition, autonomous positioning, planning and decision-making, and autonomous control algorithms, a series of advanced auxiliary driving functions such as advanced perception, autonomous navigation, autonomous obstacle avoidance, and autonomous berthing and berthing can be achieved for ships, as well as fully autonomous operation functions for unmanned vessels.
application area
pleasure-boat
Sightseeing Ship
Leisure boat
passenger ship
Work boat
workboat
Fishing Boat
Product advantages
01
high integration
Can deploy applications directly
02
high reliability
It has been widely used in thousands of ships
03
High Universality
Can adapt to common types of ship types and power systems
04
high performance-price ratio
Core software and hardware full stack self-developed, deep collaborative optimization
Standard Scheme
High precision laser radar
Marine camera
Autonomous driving control system
dynamical system
Visual interactive terminal
Boatassisted driving system
Integrating multiple sources of data such as cameras and radars can provide accurate and clear environmental information 24/7, without fear of rain and fog.
boatAdvanced driver assistance systems
Targeting small and medium-sized boats such as leisure boats, fishing boats, yachts, etc., we provide higher-level assisted driving functions, bringing a more easy, relaxed, and safe sailing experience.
Unmanned boatAutonomous Navigation System
The autonomous navigation system of unmanned boats supports multiple modes such as remote control, fully autonomous navigation, and collaborative formation. Among them, the fully autonomous navigation mode includes autonomous navigation, autonomous obstacle avoidance, automatic return, and dynamic positioning. This system can be applied to patrol river channels, inspect water environments, and monitor other fields.
Multiple ships maintain predetermined formation and spacing through information sharing and command coordination, achieving coordinated navigation and formation changes.
Formation collaboration
By using radar, cameras and other devices to obtain the position and speed of the target ship, intelligent calculation follows the route and speed, and precise tracking is achieved through autonomous control modules.
Autonomous Follow
Automatically track routes, avoid obstacles, and return with just one click, without the need for traditional physical anchors to maintain fixed points.
Fully autonomous navigation
Comprehensively analyze the surrounding environmental information of ships and real-time grasp the navigation situation of other ships, providing comprehensive and accurate situation analysis.
situational awareness
Remote monitoring and remote control of ships through a convenient shore based system. The shore based system can receive real-time status information from the onboard system and send remote control instructions to the vessel according to demand, taking over the control of the vessel.
Remote control
Intelligent Ship System
Applicable toElectric, high/low speedDifferent types of power systems,Lakes/Inland RiversWaiting for different scene types