Edge computing-based network voice switch automatic routing method and system

By employing edge computing in the VoIP system, routing decisions are decentralized to the VoIP switch, solving the problems of high load and latency caused by the central server, enabling dynamic routing decisions, reducing call costs, and improving system reliability and scalability.

CN122372679APending Publication Date: 2026-07-10陈立新

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
陈立新
Filing Date
2026-03-19
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing VoIP systems rely on central servers for routing decisions, leading to problems such as high load, latency, single point of failure risk, inability to dynamically adjust, and high call costs, thus failing to fully utilize the advantages of edge computing.

Method used

By adopting an edge computing model, routing decision-making functions are delegated to network voice switches. Decentralized routing decisions and data synchronization are achieved through the coordination of local data storage areas, point-to-point communication channels, and a central database.

Benefits of technology

Reduce communication latency, improve system reliability and scalability, reduce reliance on a central database, and dynamically adjust routing paths to optimize cost and quality.

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Abstract

This invention provides an automatic routing method and system for VoIP switches based on edge computing. By decentralizing routing decision-making to individual VoIP switches, a decentralized decision-making mechanism is achieved. The system consists of multiple VoIP switches and a central database. Each VoIP switch establishes a local data storage area and a local routing table, and exchanges data directly with other switches through point-to-point communication channels. When receiving a voice communication command, the switch first attempts to make a decision using its local routing table; only when local data is insufficient or expired does it request updates from neighboring switches or the central database. The system implements a data layering module, a route learning module, and a fault detection module, and can dynamically adjust the synchronization frequency according to network conditions. This design reduces reliance on the central database, lowers communication latency, improves system reliability and adaptability, and provides a more efficient routing solution for VoIP networks.
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