In disaster relief, when terrestrial base stations are damaged and satellite signals are delayed or interrupted, the "last mile" of emergency communication may directly the efficiency of life-saving.
MYUAV's tethered drone system, with its threefold design of ultra-long endurance, anti-jamming data link, and networking, has become the key technology to solve this problem. Its core innovation lies in transforming the "unreliable link" into a "strong and resilient node".
1. Ultra-long endurance: Continuous power in extreme environments
MEW's tethered drones have proven their 24-hour endurance in actual tests, building "sky-based base stations that never land" in the field of communication relays, providing 24-hour stable communication support and becoming the lifeline of emergency command and lia. Supports 380V industrial power or diesel generator power supply;
Drone spare battery seamless switching: Automatically switch to the drone spare battery when the main power interrupted, ensuring the system continues to operate;
2. Anti-interference data link: tethered cable carries "electric ight" dual channels
Unlike ordinary UAV base stations that rely on transmission, the tethered cable of MYUAV's drones integrates both power lines and optical fibers, achieving "zero wireless interference" at the physical layer. This offers two major advantages:
1. Zero signal packet loss: The optical fiber directly transmits base station data, avoiding signal interruptions caused by wireless channel congestion in the disaster;
2. Anti-electromagnetic interference: It maintains communication quality in scenarios with strong electromagnetic pulses (such as lightning strikes and near high-voltage lines). Practical tests that the system has a low bit error rate in communication in mountainous areas and densely populated urban areas, far superior to traditional microwave relays.
3. Rapid Networking: Construct a coverage circle in 10 minutes
The "golden time" of disaster relief depends on ultra-fast response MYUAV's communication UAV, through modular pre-assembly and intelligent positioning algorithm, achieves "networking immediately after takeoff":
Rapid Deployment: From transportation tooff, it only takes 10-15 minutes, while traditional emergency communication vehicles need more than 1 hour for survey and deployment;
Wide-area Coverage: a flight altitude of 150-300 meters, the communication radius can reach several kilometers;
Self-networking Expansion: Multiple aircraft can automatically form a while coordinating, avoiding system collapse caused by single point failure.
MYUAV's triple design directly addresses the three major pain points of emergency communication: battery life, channel stability, and rapid response, and its irreplace as a "three-dimensional base station" in the low-altitude economy will further highlight.