The 94 GHz millimeter-wave radar has been deployed in the construction of FOD commercial projects on the runways of Beijing Daxing International Airport and Chengdu Tianfu International Airport, and the trial operation of several other airports, setting records for the amount of FOD radars and continuous operating time . Massive data accumulation and machine learning in real scenarios have promoted the continuous improvement and optimization of radar detection performance.
After multiple rounds of iteration, new automated and non-interrupted FOD detection technology has been developed for airports,with high-definition photoelectric image acquisition technology, multi-dimensional signal detection and false alarm elimination algorithms, it reduces airport operating costs and ensures the take-off and landing safety of aircraft.
Leading: leading application of millimeter-wave radars at benchmark airports
Safety: 94GHz operating frequency, no conflict with the frequency bands of airport communication, navigation and autopilot systems
Innovation: equipped with a unique rain algorithm which greatly improves detection capability under severe weather
Reliability: passed more than 20 million continuous operation tests
Simple: easy installation without damaging runway shoulders
User-friendly: a comfortable and friendly user interface which can be customized according to customer needs.
Advanced Technology Powerful Functions
Due to the optical integration of advanced radar and detection systems, and intelligent information processing algorithms, the false alarm rate is controlled to a very low level while guaranteeing the small object detection capability. This detector has a snow removal mode to reduce the probability of damage, and an function to reduce false alarms caused by seasonal flying insects. It is fully adaptive to condition changes without the need for manual intervention, and maintains outstanding performance in bad weathe
Automated Control Mature System
Starting from the underlying software and hardware development, the core technology is independently controllable. The mature management system and automatic mass production and testing process can ensure rapid delivery and reliable quality, and meet customization needs.
| Maximum detection distance | ≥70m |
| Minimum detection distance | 1.5cm |
| Positioning accuracy | ≤1m |
| Detection period | ≤30s |
| Probability of detection | ≥99% |
| False alarm time | ≥8h |
| Detection azimuth angle | 0-180 |
| Weight | ≤15kg |
| power requirements | 24VDC/Airport's constant current power supply |
| Power consumption | ≤100W |
| Interfaces | Photoelectric composite cable |
The 94 GHz millimeter-wave radar has been deployed in the construction of FOD commercial projects on the runways of Beijing Daxing International Airport and Chengdu Tianfu International Airport, and the trial operation of several other airports, setting records for the amount of FOD radars and continuous operating time . Massive data accumulation and machine learning in real scenarios have promoted the continuous improvement and optimization of radar detection performance.
After multiple rounds of iteration, new automated and non-interrupted FOD detection technology has been developed for airports,with high-definition photoelectric image acquisition technology, multi-dimensional signal detection and false alarm elimination algorithms, it reduces airport operating costs and ensures the take-off and landing safety of aircraft.
Leading: leading application of millimeter-wave radars at benchmark airports
Safety: 94GHz operating frequency, no conflict with the frequency bands of airport communication, navigation and autopilot systems
Innovation: equipped with a unique rain algorithm which greatly improves detection capability under severe weather
Reliability: passed more than 20 million continuous operation tests
Simple: easy installation without damaging runway shoulders
User-friendly: a comfortable and friendly user interface which can be customized according to customer needs.
Advanced Technology Powerful Functions
Due to the optical integration of advanced radar and detection systems, and intelligent information processing algorithms, the false alarm rate is controlled to a very low level while guaranteeing the small object detection capability. This detector has a snow removal mode to reduce the probability of damage, and an function to reduce false alarms caused by seasonal flying insects. It is fully adaptive to condition changes without the need for manual intervention, and maintains outstanding performance in bad weathe
Automated Control Mature System
Starting from the underlying software and hardware development, the core technology is independently controllable. The mature management system and automatic mass production and testing process can ensure rapid delivery and reliable quality, and meet customization needs.
| Maximum detection distance | ≥70m |
| Minimum detection distance | 1.5cm |
| Positioning accuracy | ≤1m |
| Detection period | ≤30s |
| Probability of detection | ≥99% |
| False alarm time | ≥8h |
| Detection azimuth angle | 0-180 |
| Weight | ≤15kg |
| power requirements | 24VDC/Airport's constant current power supply |
| Power consumption | ≤100W |
| Interfaces | Photoelectric composite cable |
