| Customization: | Available |
|---|---|
| Frequency Range: | Other |
| Application: | Deserts, Oceans, Airport etc. |
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This product uses a cooling-type mid-wave focal plane array (FPA) back-scan technology, equipped with a continuous zoom visible light camera. It is combined with a high-precision two-axis servo-controlled turntable to achieve 360° omnidirectional search and detection of airspace. Using intelligent weak and small target detection and tracking algorithms, it automatically detects suspicious targets. Once a target is selected for attention, the system switches from search mode to tracking mode, automatically tracking and detecting the target. A laser rangefinder is used to measure the distance to the target, and based on the positioning and orientation information, azimuth, and pitch angle, the system calculates the real-time coordinates of the target. These coordinates are then transmitted to the command and control platform. On the platform, the search area's 360° panoramic image, target tracking image, as well as the target's location and trajectory information, can be displayed, enabling panoramic monitoring, early warning, and real-time situation display of the monitored area.
360° Panoramic Surveillance, No Blind Spots, Fast Response
The system's 360° panoramic field of view and continuous search and surveillance functions ensure 24/7, blind-spot-free monitoring. With a maximum scan speed of 360° per second, it ensures rapid real-time responses to emerging targets and threats. Unlike traditional cameras with limited fields of view, this system can simultaneously capture omnidirectional images. Its 360° long-range, wide-area monitoring avoids the limitations of traditional cameras, which might fail to issue timely alerts or responses to intruding targets due to their restricted field of view.
Automatic Intrusion Detection and Tracking
The system continuously monitors the images of threat targets and marks their movement trajectories. When threat targets appear from multiple directions, it displays panoramic, local, and tracking images, along with radar coordinate maps, and issues alerts based on the threat level of the target, effectively notifying the operator.
All-weather, All-time Automatic Monitoring and Alerts
The system is equipped with high-sensitivity infrared detectors and visible light detectors (laser detectors can also be added). It can monitor small, distant targets in total darkness, fog, and harsh weather conditions. To minimize operator fatigue, the image display can be customized to focus on key areas with zoomed-in views. Automatic intrusion detection alerts and sounds can be set, and the system can automatically track multiple threat targets. Alerts for specific areas within the detection zone can also be configured based on predefined conditions.
Simple and User-friendly Human-Machine Interaction
The system provides a simple and efficient user interface design for operators with varying levels of technical expertise. With minimal training, users can access all system functions. The monitoring area can be set to automatic alarm mode, so once a threat target is detected, the system will automatically trigger an alarm and lock onto and track the target.
Strong Anti-interference Capability in Complex Environments
The system uses artificial intelligence-based target recognition and autonomous environmental learning technologies to automatically identify environmental interference and eliminate false alarms and misreporting, significantly improving the system's anti-interference capabilities in complex environments. Various false alarms and interference targets are automatically filtered out after system analysis.
Post-incident Evidence Collection and Reproduction
Data and information can be replayed in video format or customized to reconstruct previous monitoring scenarios. Alarm data for targets can be reset and imported for further analysis.
| Mode | WAMS- | WAMS- | WAMS- |
| Opeating Waveband Range | Mid-wave IR | Mid-wave IR | Longwave infraed |
| Laser(optional) | EO | EO/Laser(optional) | |
| Cooled/Uncooled | Cooled | Cooled | Uncooled |
| Resolution | 640×512 | IR 640x512 | IR 640x512 |
| EO 1920×1080 | EO 1920×1080 | ||
| Pixel pitch | 15um | 15um | 12m |
| EO:3.75um | EO:3.75um | ||
| Foca Length | 40~360mm | IR:40-360mm | IR:40-200mm |
| EO:20-750mm | EO:20-500mm | ||
| Laser Ranging | 200m-10km | 200m-10km | |
| Laser Rangng Accuracy | ±2m | ±2m | |
| Azimuth Range | Nx360° | Nx360° | N×360° |
| Elevation Range | -10°-+60° | -10°-+60° | -10°-+60° |
| Scanning Frequency | 360°/s:120°/s | 360°/s;120°/s. | 180°/s;120°/s |
| 60°/s,3 shifts selectable | 60°/s,3 shifts selectable | 3 shifts selectabe | |
| HFOV | 360° | 360° | 360° |
| VFOV | 9°/3°/1.5° Adjstable | 9°/3°/1.5° Adjustable | 12.3°/6.2°/3.1°Adjustable |
| Target search accuracy | 0.2° | 0.2° | 0.2° |
| MaxAngularVelocity | Aimuth:360°/s | Azimuth 360°/s | Azmuth 360°/s |
| Bevation 60°/s | Bevation 60°/s | Bevation 60°/s | |
| Target Meæurement Accuracy | 0.1° | 0.1° | 0.1° |
| Tracking Accuracy | ±1 pixel | ±1 pixel | ±1 pixel |
| AutomaticTacking Stabilty | No loss when shlalded for 3 seconds | ||
| Human | 5km | 6km | 2km |
| Vehicle | 10km | 15km | 4km |
| Vessel | 20km | 25km | 10km |
| Aircraft | 30km | 40km | 15km |
| Opearating Temperature | -40ºC-60ºC | -40ºC-60ºC | -40ºC-60ºC |
| Stoage Temperature | -45ºC-70ºC | -45ºC-70ºC | -45ºC-70ºC |
| Protecton Level | IP66 | IP66 | IP66 |
Xi'an Zhongke Lead IR-Tech Co., Ltd established in 2015, is a Research type enteprise based on intelligent electro-optical equipment and infrared thermal imaging technology, incubated by Xi'an Institute of Optics and Precision Mechanics of China Academy of Sciences.
Lead IR-Tech has three core centers: Photoelectric equipment integration, precision optical processing, and specialized lens calibration. They are equipped with over 400 advanced devices, including CNC polishing machines, photoelectric, coordinate measuring machines, interferometers, and photoelectric system testing systems. This enables LEAD IR-TECH to achieve the full process of design, processing, integration, and testing of photoelectric products.
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