近距无线通信组网拓扑技术OA

In response to the new operational requirements of precision-guided weapons,this study focuses on wireless electrical design as the core technological direction and implements product modular design to address the challenges of flexible networking,resilience against destruction,and dynamic topology.The research adopts an Ad Hoc networking architecture,generalized coding,and passive multiple access techniques to achieve fast,flexible,and stable information exchange.By employing a hybrid routing design,the study divides the metal chamber network into subnets and applies proactive and reactive routing within the subnets,while introducing the concept of landmarks to mitigate the impact of multi-system communication.The specific approach involves predefining the timing and priority of all events,establishing a simplified event type library,and enabling node-to-node backup storage.Ad-ditionally,the use of boundary broadcasting protocols facilitates the rapid arrival of destination nodes at gateway nodes.The research findings confirm that the proposed solution meets the requirements of modular design for weapon functionality.Through wireless networking and routing protocol design,the capabilities of flexible networking,resili-ence against destruction,dynamic topology,and multi-system communication are successfully achieved.