Mesh self-organizing network technology...

MESH Self-Organizing Network Wireless Microwave Equipment Long-Distance Usage Precautions...

As global digital infrastructure accelerates—from smart cities to industrial IoT, from public safety networks to large-scale energy systems—industries are demanding communication networks that are stable, high-bandwidth, low-latency, and scalable. However, in many environments such as mountains, mining areas, ports, open fields, emergency sites, and cross-region deployments, traditional fiber installation is costly, slow, or even impractical.

As smart cities, intelligent buildings, and modern property management continue to evolve, the demand for elevator monitoring, emergency intercom, advertising display updates, and elevator operation data backhaul is growing rapidly. However, traditional wired deployment often faces challenges such as long construction periods, high cost, difficult installation, and complex maintenance.

Compared with traditional communication networks, wireless self-organizing networks have several distinctive features, such as being decentralized, self-organizing, multi-hop routing, dynamic network topology, temporariness, and limited wireless transmission bandwidth, etc.

In an era of rapidly evolving wireless communications, the demand for long-distance, high-definition, stable, and low-latency data transmission continues to rise. From industrial monitoring and security video backhaul to UAV systems and cross-regional network connectivity, enterprises are increasingly relying on high-speed wireless links to support real-time and highly reliable operations. Among available frequency bands, 5GHz High Data Rate devices—featuring larger bandwidth, better interference resistance, and suitability for high-density environments—have become a core choice for next-generation wireless communication.

The evolution of the radio link for autonomous vehicles has been variable. Specifications such as 5.9 GHz Digital Short Range Communications (DSRC) began as a toll collection system for vehicle-to-infrastructure (V2I) and have shifted to other infrastructure applications, such as providing information on speed limits, ...

In the electromagnetic wave spectrum, various types of electromagnetic waves are arranged in order of increasing wavelength. The longest wavelength is radio waves, followed by infrared rays, then visible light, then ultraviolet rays, X-rays, and gamma rays...