LEADIR Intelligent Image Algorithm Processing Board - Customized for Optoelectronic Equipment
In the operating scenarios of various optoelectronic equipment, core links including target detection, tracking and guidance, and image stabilization and anti-shake impose stringent requirements on the computing power, response speed and environmental adaptability of visual processing.
LEADIR's exclusive solution for optoelectronic equipment vision systems builds an end-to-end visual processing core module with a high computing power, low power consumption and ultra-miniaturized hardware architecture, integrated with highly adaptable lightweight AI visual algorithms. It one-stop solves the technical pain points of optoelectronic equipment visual perception and data processing, providing stable, efficient and customized visual technical support for airborne/missile-borne/ship-borne/portable optoelectronic equipment.
Exclusively built for various optoelectronic equipment, it is a high-reliability visual processing core module that realizes multi-band image acquisition, real-time processing, accurate solution and data interaction. It one-stop meets the core technical needs of target detection and recognition, continuous tracking, image stabilization and anti-shake, and precise guidance, perfectly adapted to various harsh operating environments of optoelectronic equipment.
Five Core Technical Advantages
High Computing Power for Accurate Detection, Ultra-Small Target Recognition
Equipped with a dedicated vision NPU + high-frequency low-power main chip, supporting visible light/infrared/SWIR multi-band image input with a target recognition rate ≥90%. It can accurately capture ultra-small long-distance targets of ≥10×10 pixels, intelligently distinguish targets from background interference, and support simultaneous multi-target recognition and feature extraction, adapting to precise detection needs in complex airspace, sea and wild fields.
Low Latency & High Responsiveness, Seamless Guidance-Tracking Linkage
With a tracking frame rate ≥60fps and tracking accuracy ≤1 pixel, it supports 3s anti-occlusion continuous tracking, realizing real-time linkage of target locking, tracking and aiming, and guidance without missed detection or lag, perfectly matching the fast response requirements of high-speed moving optoelectronic equipment.
Ultra-Wide Temperature & High Reliability, Withstanding Extreme Environments
Stably operates in a temperature range of -40℃~+65℃ with a typical overall power consumption ≤6W, adapting to the limited power supply budget of optoelectronic equipment. It has the characteristics of resistance to strong vibration, strong electromagnetic interference and impact, meeting high-level environmental testing standards and supporting long-term uninterrupted operation.
Ultra-Miniaturization & Full Interfaces, Efficient Equipment Integration
Customizable hardware design of ≤7cm×7cm×1.7cm, perfectly fitting the compact cavity space of various optoelectronic equipment. It fully covers CameraLink/MIPI/LVDS high-speed image input, Gigabit Ethernet data output and high-reliability serial port, directly connecting to the detector, PTZ and guidance control module of optoelectronic equipment without additional adapters, greatly simplifying the integration process.
High-Precision Image Stabilization, Ensuring Clear Guiding Vision
Integrates electronic image stabilization algorithm and PTZ posture feedforward compensation technology to achieve sub-pixel level image stabilization accuracy, effectively eliminating image blurring caused by high-speed movement and equipment carrier jitter, and continuously ensuring visual clarity in the process of target tracking and guidance.
Precise Scenario Adaptation
Airborne Optoelectronic Pods
Multi-band image fusion + long-distance precise detection, realizing air/ground target recognition and data backhaul, providing high-reliability visual support for aerial reconnaissance and target indication.
Missile-borne Precision Guidance Seeker
Ultra-high-speed target tracking + anti-interference intelligent recognition, accurately locking fixed/mobile targets and outputting real-time parameters, significantly improving hit accuracy for terminal precision guidance.
Portable Reconnaissance Optoelectronic Equipment
Miniaturization + low-power design, suitable for single soldier/small UAV carrying, realizing rapid wild/complex environment reconnaissance and encrypted data backhaul.
Ship-borne Optoelectronic Pods
Strong anti-marine environment interference + long-distance target detection, adapting to electromagnetic, salt spray and vibration harsh environments, providing stable visual guarantee for maritime vigilance.
Three Core Values for Optoelectronic Equipment R&D
Reduce R&D Costs
Saves huge investment in independent R&D of high-level visual processing modules, reduces hardware and algorithm adaptation costs, and avoids core technology R&D risks.
Improve R&D Efficiency
Highly adaptable hardware design compatible with mainstream optoelectronic equipment interfaces and protocols, with plug-and-play integration mode shortening product R&D and landing cycles.
Enhance Product Performance
Strengthens the operational capability of optoelectronic equipment in complex environments with high-precision detection and low-latency response, forming core technical competitiveness.
Exclusive Customized Services
- Scenario-specific algorithm customization (anti-interference recognition, high-precision image stabilization, guidance solution);
- Custom hardware development (interfaces, volume, power consumption based on equipment cavity space);
- Full-process technical guidance for product integration and joint debugging;
- Full-life-cycle technical support from R&D, testing to mass production, with supporting high-level testing and certification services.
Consult Now to obtain customized vision system solutions and accurate quotations, and unlock new possibilities for optoelectronic equipment visual processing!
