Drone swarm warfare is a new combat concept that utilizes large numbers of drones for coordinated operations to improve operational efficiency and survivability. It possesses several significant characteristics. Drone swarm warfare involves a group of partially autonomous drones, assisted by unmanned control systems, enabling real-time inter-drone data communication, multi-drone formations, and coordinated operations. Under operator guidance, these drones can perform a range of combat missions, including infiltration and reconnaissance, decoy jamming, and cluster attacks. Unmanned swarm combat systems can bridge the gap between tactics and strategy, rapidly deploying them to target areas through diverse delivery methods to carry out diverse missions, including coordinated attacks with other platforms at sea, in the air, on ground targets, and for ISR, enabling strategic deterrence, confrontation, and operations in hotspots.

Unmanned swarm wireless ad hoc network communication and command system

The most basic operational requirement for drones performing tasks in an unmanned swarm combat system is to be able to maintain a certain formation for formation flight. In terms of drone swarm combat technology, a time-varying switching topology is generally adopted. When performing different tasks, drones can be connected using different communication topologies, and the connection can be cut off after the mission is completed.

Multiple topology links

Solution Advantages

 Principle of seamless switching

Supports hierarchical grouping and roaming networking to expand system communication capabilities.

* Each link supports

There is no central network, so it can be flexibly deployed as needed. It does not have the support of infrastructure such as computer rooms and transmission networks, so it can be set up arbitrarily and can be expanded through multi-hop relay networks to further expand the coverage.

* Multi-link data diversity fault tolerance

The frequency hopping function effectively improves anti-interference and anti-tracking capabilities; the introduction of digital filtering function effectively suppresses long-range interference. At the same time, the use of ARQ transmission mechanism reduces the data transmission loss rate and improves data transmission reliability.

*Strong anti-multipath capability
Using COFDM technology, it offers strong multipath resistance. Transparent data transmission supports a wide range of service data without the need for differential transparent transmission. Broadband transmission supports multimedia services such as clear voice, broadband data, and high-definition video.。