NWH9000S UAV Hyperspectral Imager

Product Overview

The NWH9000S UAV Hyperspectral Imager is built around proprietary hyperspectral imaging technology and integrates leading-edge UAV flight platforms and autonomous drone stations. By overcoming key technical challenges—including flight control, video transmission, safety monitoring, automated data processing, intelligent alerts, and remote upgrades—the system significantly lowers the operational barrier for users. For the first time globally, it enables fully unattended, automated hyperspectral remote sensing operations. A single flight can collect up to 300 spectral bands of hyperspectral imagery along with high-resolution visible-light photographs, enabling rich and comprehensive environmental monitoring in one mission.

Core System Advantages

Unattended Operation
The system supports fully autonomous operation, enabling real-time data feedback to the ground station. Users can remotely monitor the equipment’s operational status, task progress, and live data streams. During missions, the system status can be monitored at any time, with the option for manual override to ensure task reliability and safety.

Remote Monitoring & Management
Equipped with built-in deep learning algorithms, the system allows users to import custom models based on their specific application needs. It supports independent training and upgrades, enabling continuous expansion of use cases and enhancement of monitoring accuracy.

Embedded Intelligent Algorithms
The system utilizes real-time data acquisition from the hyperspectral sensor and performs preliminary data processing and inversion onboard. The inversion results are uploaded in real time to the cloud platform, providing immediate support for decision-making.

Real-Time Inversion Capability
With pre-installed algorithms for applications such as water quality assessment and vegetation indices, the system is capable of supporting a wide range of use scenarios—including agriculture, forestry, water monitoring, and urban management—maximizing its value as a comprehensive low-altitude remote sensing solution.

Multi-Scenario Adaptability
The system supports integration with third-party laboratories or online monitoring stations. It can automatically calibrate UAV-based remote sensing results using high-precision reference data, correcting system errors and improving overall data accuracy.

Technical Specifications