Innovative Sensor Solutions

Combining theoretical analysis, experiments, and practical testing for autonomous ship navigation technology.

Innovative Solutions for Autonomous Navigation

At Wanji Technology, we integrate theoretical analysis, experimental verification, and practical testing to advance sensor applications in autonomous ship situation awareness and enhance navigation performance.

A large blue and white ship with orange accents is positioned on calm waters. The ship has a complex array of antennas and equipment on its upper deck. A small red buoy is floating nearby with a flag attached.

Our Research Approach

Sensor Performance Testing

We conduct comprehensive literature reviews and experiments to identify technical bottlenecks and development trends, ensuring our solutions meet the navigation requirements of modern autonomous vessels.

Sensor Technology Solutions

We provide comprehensive research and testing for sensor applications in autonomous ship navigation systems.

Research and Analysis

Conducting literature reviews and analyzing technical bottlenecks in sensor applications for autonomous ships.

An aerial view of a sleek, modern ship navigating through deep blue-green ocean waters. The ship's deck features various equipment, vehicles, and structures arranged symmetrically.

Experimental Verification

Testing various sensors in simulated marine navigation scenarios to ensure performance and adaptability.

Our team determines optimal sensor combinations based on navigation requirements and environmental conditions.

Practical Testing

Explore our innovative sensor applications for autonomous ship awareness.

A large, modern military ship is docked by the waterfront, displaying advanced radar and communication equipment on its deck. Several flags are visible atop the vessel, while the surroundings include urban buildings and a mostly clear sky.

A large blue cargo ship is prominently positioned in the middle of a calm sea under a vast, somewhat cloudy sky. The ship has several antennas and cranes on deck, with the name 'XINRUI' visible on its hull.

A ship's wheel is centered in the image, made of wood and metal. The background features a green dashboard with multiple windows letting in natural light. Various equipment and controls, including levers and a flashlight, are visible. A box labeled 'SHIHANG' is situated behind the wheel.

A large cargo ship is sailing on a calm body of water. In the background, there are wind turbines on a stretch of land, indicating a focus on renewable energy. The sky is partly cloudy, and there is a forested area visible along the coast.

A nautical control panel featuring a compass and a navigation screen is seen through a ship's window with a view of the open sea and horizon under a clear sky.

This study will adopt a research design that combines theoretical analysis, experimental verification, and practical testing. First, conduct a comprehensive literature review, search academic databases such as IEEE Xplore and ScienceDirect, sort out the research status, technical bottlenecks, and development trends of sensor applications and AI technologies in the field of autonomous ship situation awareness, and clarify the research direction. Second, carry out sensor selection and combination experiments. In the laboratory environment, simulate different marine navigation scenarios, test the performance of various sensors, analyze their performance in terms of data collection accuracy and environmental adaptability.

A green and white ship is sailing through calm, dark blue waters. The vessel appears to be equipped with various industrial machinery on its deck, indicating it might be a workboat or a dredger.