| Operating Frequency |
24GHz |
| Directional scanning range |
±45° |
| Pitch coverage range |
15° |
| Maximum number of detectable targets |
100 |
| Operating distance |
For personnel: ≥ 1km (maximum distance of 1.3km), for vehicles and ships: ≥ 2km (maximum distance of 2.4km) |
| minimum range |
≤5m |
| Target speed range |
0.5m/s~35m/s(1.8km/h~126km/h) |
| resolution ratio |
Distance ≤ 5m; Azimuth angle ≤ 3.7 °; Speed ≤ 0.08m/s |
High definition visible light
| Operating distance |
Under the conditions of visibility not less than 10km, air humidity not exceeding 60%, and normal temperature visibility, the detection distance for medium-sized vehicles (4.6m × 2.4m) shall not be less than 5000m, and the recognition distance shall not be less than 2000m; Detection of standing personnel (1.8m × 0.5m) shall not be less than 1500m, and identification shall not be less than 1200m |
| sensor |
Back illuminated starlight grade CMOS |
| resolution ratio |
1920×1080 |
| illuminance |
Color 0.01Lux, Black and White 0.001Lux |
| focal length |
4.7mm~141mm, 30x optical zoom, 16x digital zoom |
| Video Coding |
H.265/H.264/MJPEG, Support multiple streams |
| image processing |
Support white balance, electronic shutter, backlight compensation, strong light suppression, digital noise reduction, electronic image stabilization, wide dynamic range, etc |
Infrared thermal imaging
| Operating distance |
Under the conditions of visibility not less than 10km, air humidity not exceeding 60%, and normal temperature visibility, the detection distance for medium-sized vehicles (4.6m × 2.4m) shall not be less than 3600m, and the recognition distance shall not be less than 1200m; Detect standing personnel (1.8m × 0.5m) at a distance of not less than 1000m and identify them at a distance of not less than 600m |
| detector |
Uncooled VOx infrared focal plane array |
| Array size |
640×512 |
| spectral range |
8μm~14μm |
| NETD |
40mK(@25ºC F1.0) |
| focal length |
50mm, fixed focus, optional non thermal or electric focusing |
| field |
8.8°×7.0° |
| Video Coding |
H.265/H.264/MJPEG, Support multiple streams |
| image enhancement |
SDE digital image enhancement technology, supporting 255 level thermal imaging image enhancement adjustment |
| Pseudo color polarity |
16 types of pseudo color images, with two polarities of hot black/hot white |
| Image adjustment |
AGC automatic gain control, brightness and contrast adjustment |
| Electronic magnification |
12..0 ×~8.0 × continuous zoom (step size 0.1), supporting global eagle eye display |
LED lighting
| Laser type |
New infrared GHT-III high-definition floodlight source with no speckle particles |
| illumination angle |
3°~65° |
| Irradiation distance |
300 meters (under clear weather) |
Sound and light warning
Internally integrated high pitched speaker+flashing light, supports custom alarm sound, supports replacement of green laser glare
Optoelectronic gimbal
| Speed |
Horizontal: 0.01 °/s to 180 °/s; Pitch: 0.01 °/s to 120 °/s, supporting adaptive focus and rotation speed |
| Rotation angle |
Horizontal: 360 ° continuous rotation; Pitch: -90 ° to+90 ° |
| Structural materials |
Quasi spherical design, integrated 5-window multi-channel, precision cast high-strength aluminum alloy material |
| Surface spraying |
PTA three proof coating, corrosion-resistant |
| windshield wiper |
5. Support intelligent automatic wipers |
| defrost |
Visible light window defrosting |
| Package Size |
≤20kg |
| Package Gross Weight |
312mm×200mm×660mm |
System working diagram
The intelligent unmanned sentry system revolutionizes target detection by harnessing the power of phased array radar, seamlessly integrating this data with an advanced optoelectronic system for enhanced processing. By substituting human vision with cutting-edge phased array radar, infrared thermal imaging, and laser camera technology, and human cognition with sophisticated intelligent algorithms and deep learning, this system boasts a remarkable array of features. It offers unparalleled application versatility, flexible deployment, steadfast stability, and unwavering reliability. Operable without human intervention, it presents an elevated level of intelligence and robust environmental adaptability. By leveraging satellite communication, fiber optic communication, and self-organizing network communication technologies, this system facilitates seamless communication and robust networking. It is exceptionally suited for safeguarding critical infrastructures including border defenses, financial hubs, correctional facilities, oil reserves, and sensitive nuclear, biological, and chemical sites.
This advanced system masterfully integrates composite detection modules such as phased array radar, infrared cameras, and laser cameras, effectively exploiting the strengths of phased array radar and thermal imaging to conduct comprehensive large-scale searches, monitor multiple targets, and function relentlessly in all weather conditions. The laser camera's clarity and intuitive operation provide precise tracking and accurate recognition, paving the way for a revolutionary intelligent prevention system. Designed for border defense and the protection of critical areas, this system excels through efficient coordination, multi-source information fusion, innovative artificial intelligence algorithms, and GIS-based situation display and control technologies.
Harnessing the cutting-edge power of phased array radar technology combined with sophisticated optoelectronic monitoring capabilities,
This globally trusted monitoring system brilliantly integrates phased array radar with intelligent optoelectronic devices. It offers comprehensive area surveillance, expertly locates and tracks moving targets, vigilantly monitors target trajectories, and provides unparalleled defense coverage without blind spots around the globe.
Every component within this sophisticated system upholds the highest quality standards, remaining unaffected by even the harshest weather conditions. It operates tirelessly to track and detect targets 24/7, ensuring complete control over the area in any circumstances.
Seamless Device Linkage and Control Upon Detection
Within this advanced system, radar and electro-optical linkages triumph over the limitations of standalone devices, enabling the efficient detection and discovery of unauthorized targets, followed by immediate action. Simultaneously, communication equipment facilitates real-time transmission of monitoring data to the command center, ensuring a swift and synchronized response between reconnaissance and counteraction.
Innovative Modular Design for Effortless Installation and Maintenance
This system's modular, miniaturized design caters to each functional device, allowing for equipment selection based on actual needs. Its lightweight construction demands minimal installation efforts and simplifies maintenance, making it exceptionally user-friendly.
In the realm of advanced applications, multiple intelligent unmanned sentinels can seamlessly integrate into a comprehensive network through diverse communication technologies. This enables the real-time transmission of monitoring images to a sophisticated higher-level command center. Concurrently, the command center holds the remarkable capability to dispatch precise control commands to each intelligent sentinel, tailoring actions to specific needs. This orchestrated communication fosters a cohesive and unified management system for all intelligent unmanned sentinels, elevating operational efficiency and responsiveness.
The connectivity between these intelligent unmanned sentinels and the advanced command centers can be facilitated through an array of cutting-edge communication methods. These include satellite, fiber optic, self-organizing network microwave, among others. By assessing the actual situational demands, a synergistic combination of these methods can be strategically employed:
In regions that are in proximity to the command center and where conditions favor the deployment of fiber optic cables, fiber optic communication is an optimal choice, offering unparalleled speed and reliability;
For remote locations where fiber optic cable installation is impractical or prohibitively expensive, network microwave communication emerges as a viable alternative, ensuring consistent connectivity;
For isolated and far-flung sites, satellite communication stands as a robust solution to overcome communication challenges, bridging the gap to maintain seamless connectivity.
Illustrative Schematic Diagram of the System's Communication Mode
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