CN-122002354-A - Communication control device and control method thereof

Abstract

The invention belongs to the technical field of mobile communication control, in particular to a communication control device and a control method thereof, wherein the communication control device comprises a main control module, a communication interface module, a cooperative control module, an optical fiber broadband adaptation control module, a multi-service adaptation control module, a terminal access control module, a resource scheduling module and an operation and maintenance monitoring module which are connected with the main control module in a bidirectional manner, wherein the communication interface module is used for realizing the communication connection between the device and a new generation mobile communication core network, an access network, an optical fiber broadband network and a terminal, and the networking and access control of the new generation mobile communication core network, the access network, the deep fusion of optical fiber broadband operation service, the mobile voice and the data communication are realized through the cooperation of the main control module, the cooperative control of the optical fiber broadband operation service, the new generation mobile communication core network and the access network, the adaptation of various telecommunication services of mobile voice and mobile data communication are realized, and the service stability, the resource utilization rate and the operation and maintenance efficiency are improved.

Inventors

• QIU WENLONG

Assignees

• 深圳市财联恒泰科技有限公司

Dates

Publication Date

20260508

Application Date

20260209

Claims (8)

1. 1. The communication control device is characterized by comprising a main control module, a communication interface module, a cooperative control module, an optical fiber broadband adaptation control module, a multi-service adaptation control module, a terminal access control module, a resource scheduling module and an operation and maintenance monitoring module which are respectively connected with the main control module in a bidirectional manner, wherein the communication interface module is electrically connected with the main control module and is used for realizing communication connection between the device and a new generation mobile communication core network, an access network, an optical fiber broadband network and a terminal; the main control module is used for analyzing the requirements from the optical fiber broadband operation service and the mobile telecommunication service and coordinating the modules to cooperatively work; The cooperative control module is used for adapting the networking requirements of the core network and the access network and realizing the linkage networking control of the core network and the access network; the optical fiber broadband adaptation control module is used for interfacing optical fiber broadband operation service and realizing the bandwidth cooperative allocation of the optical fiber broadband and the mobile communication network; the multi-service adaptation control module is used for carrying out priority division and differentiated adaptation control on different telecommunication service types; The terminal access control module is used for realizing the access control of the terminal and dynamically adjusting the access parameters; The resource scheduling module is used for integrating and dynamically distributing resources of the core network, the access network and the optical fiber broadband; The operation and maintenance monitoring module is used for monitoring the states of each module, the network and the service in real time and carrying out fault positioning and early warning.
2. 2. The communication control device according to claim 1, wherein the terminal access control module comprises an access identity recognition unit and an access policy self-adapting unit, the access identity recognition unit is used for carrying out identity verification on the terminal, and the access policy self-adapting unit is used for dynamically adjusting access parameters according to network load, bandwidth state and terminal service requirements.
3. 3. The communication control device according to claim 1, wherein the resource scheduling module comprises a load prediction unit for predicting future resource demands based on historical data and real-time demands and adjusting the resource allocation policy in advance.
4. 4. The communication control device according to claim 1, wherein the operation and maintenance monitoring module comprises a fault grading unit for grading the fault according to the influence range and severity of the fault and triggering a corresponding early warning mechanism.
5. 5. A control method of a communication control apparatus according to any one of claims 1 to 4, comprising the steps of: (1) Initializing a device, establishing connection with each network and loading initial parameters; (2) When a terminal initiates an access request, carrying out identity verification on the terminal, and dynamically adjusting access parameters according to network states and service requirements after the verification is passed, so as to complete access; (3) According to the terminal access information and the real-time data, the current service is prioritized, and multi-network resources are dynamically allocated based on the service adaptation instruction and the resource state, so that the resource collaborative scheduling is realized; (4) Real-time monitoring device, network and business state, grading, positioning and early warning when detecting faults, and executing or triggering fault treatment; (5) Dynamically adjusting control parameters according to feedback data to realize closed-loop optimization; (6) And providing an operation and maintenance interface for operation and maintenance personnel to perform state checking, parameter adjustment and manual treatment.
6. 6. The control method according to claim 5, wherein the step (2) of authenticating the terminal includes verifying whether the hardware identification of the terminal is legal and verifying whether the terminal opens the requested telecommunications service authority.
7. 7. The control method according to claim 5, wherein dynamically allocating the multi-network resources in the step (3) includes guaranteeing resource requirements according to service priority order and dynamically adjusting resource allocation ratio based on real-time load.
8. 8. The control method according to claim 5, wherein the fault location in the step (4) includes collecting parameters and logs when the fault occurs, combining network topology and link distribution, and determining the location and cause of the fault by a location algorithm.

Description

Communication control device and control method thereof Technical Field The invention belongs to the technical field of mobile communication control, and particularly relates to a communication control device and a control method thereof. Background With the rapid development of new generation mobile communication technology, mobile telecommunication services have formed a converged networking architecture of a core network, an access network and an optical fiber broadband, which covers diversified service scenes such as optical fiber broadband operation, mobile voice, mobile data communication and the like. At present, the existing communication control technology has the following core pain points, and the current service upgrading requirement is difficult to meet: 1. The cooperative control capability is insufficient, namely, the control modules of a new generation mobile communication core network, an access network and an optical fiber broadband network are mutually independent, the networking scheduling of the core network, the terminal access control of the access network and the bandwidth allocation of the optical fiber broadband cannot realize linkage, so that the cooperative efficiency of multiple networks is low, for example, delay and blocking occur when mobile data communication and the optical fiber broadband are switched, and the service experience is affected; 2. In the optical fiber broadband operation service, bandwidth resource allocation adopts a fixed threshold mode, and cannot be dynamically adjusted according to the real-time requirements of different telecommunication services such as mobile voice, mobile data and the like, so that resources are wasted (such as idle bandwidth in idle time) or resources are insufficient (such as data communication bandwidth congestion in peak time); 3. The existing control device has weak suitability for the networking of a new generation mobile communication core network and an access network, the access strategy can not be dynamically adjusted according to network topology (such as macro base station, micro base station networking) and service types (voice and data) when a terminal is accessed, and the access identity recognition is separated from the authority management and control, so that potential safety hazards exist; 4. the operation and maintenance management efficiency is low, the control parameters of the optical fiber broadband operation and the mobile telecommunication service are distributed in different modules, a unified control interface and a monitoring mechanism are lacked, and the operation and maintenance personnel can not quickly locate the problems of core network networking faults, access network access anomalies, optical fiber broadband bandwidth anomalies and the like, so that the operation and maintenance cost is increased, and the service stability is affected. Disclosure of Invention The invention provides a communication control device and a control method thereof, which aim to solve the problems of insufficient multi-network coordination, inflexible resource scheduling, weak access control adaptability and low operation and maintenance efficiency in the existing communication control. In order to realize the functions, the technical scheme adopted by the invention is that the communication control device comprises a main control module, a cooperative control module, an optical fiber broadband adaptive control module, a multi-service adaptive control module, a terminal access control module, a resource scheduling module and an operation and maintenance monitoring module, wherein the cooperative control module, the optical fiber broadband adaptive control module, the multi-service adaptive control module, the terminal access control module, the resource scheduling module and the operation and maintenance monitoring module are connected with the main control module in a bidirectional manner; The main control module is used for receiving feedback signals of all modules, analyzing real-time requirements of optical fiber broadband operation service and mobile telecommunication service, outputting uniform control instructions and coordinating all modules to work cooperatively; The cooperative control module is used for adapting networking requirements of a new generation mobile communication core network and an access network, acquiring core network networking topology and access network access load, outputting networking adjustment instructions, realizing linkage networking control of the core network and the access network, and feeding back networking states to the main control module; the optical fiber broadband adaptation control module is used for interfacing with optical fiber broadband operation services, acquiring parameters such as the occupation amount, transmission rate, fault state and the like of the optical fiber broadband bandwidth, receiving a control instruction of the main control module, adjusting a bandwidt