CN112804696B

CN112804696B - Multimode cell activation management method and device, computer equipment and storage medium

Info

Publication number: CN112804696B
Application number: CN202011621793.0A
Authority: CN
Inventors: 覃炳达
Original assignee: Comba Network Systems Co Ltd
Current assignee: Comba Network Systems Co Ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2022-07-08
Anticipated expiration: 2040-12-31
Also published as: CN112804696A

Abstract

The invention relates to a multimode cell activation management method, a multimode cell activation management device, computer equipment and a storage medium, wherein the method comprises the following steps: acquiring corresponding carrier configuration from operation maintenance configuration units of all systems, and storing and dividing the carrier configuration into an advance configuration and an actual configuration; when a process unit is accessed through a unified access port, extracting the corresponding lead configuration and distributing the lead configuration to the process unit; judging whether the cell carrier meets an activation condition or a deactivation condition according to the condition state of cell carrier activation or deactivation and the carrier configuration condition; and if so, generating an activation command or a deactivation command and sending the activation command or the deactivation command to the process unit so that the process unit activates or deactivates the cell carrier by combining the actual quantity configuration and the activation command or the deactivation command. The invention realizes the unified management and control of the cell carrier activation of the coexistence of the multi-mode cells, reduces the complexity of the system and is convenient for the operation and maintenance of the system.

Description

Multimode cell activation management method and device, computer equipment and storage medium

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a method and an apparatus for managing activation of a multimode cell, a computer device, and a storage medium.

Background

With the evolution of 5G technology and the current situation of 4G as the mainstream, products with 4G and 5G multimode coexisting tend to become the mainstream of the market in a short time. However, the existing mainstream cell activation management method or system is directed to the management of a single-mode cell (i.e. a cell with only one system), and the process is complex and disordered, and the specific reasons are as follows:

firstly, the activation and deactivation of the cell carriers of the existing 4G, 5G or other systems are independently controlled by respective systems, that is, a set of cell activation management systems which are not associated with each other needs to be respectively arranged in the activation and deactivation systems of the cell carriers of the 4G, 5G or other systems, but when the 4G, 5G or other systems coexist, the multimode fronthaul system must interact with the cell activation management systems of the 4G, 5G or other systems, so that the design of the multimode fronthaul system becomes very complicated.

Secondly, when a multi-mode network is established in the prior art, the configurations of cell carriers of 4G, 5G or other systems are respectively allocated by respective systems and are not coupled with each other, but this also causes that a multi-mode forwarding system needs to be connected with the configuration management of 4G, 5G or other systems at the same time, which results in complex and redundant design of the system.

Moreover, the precondition for activating the cell carrier is to satisfy the requirement that the access and configuration of some process modules are completed, however, the access of the existing process modules, especially the access of the forwarding system, is managed by the respective systems, which also results in the difficulty of coordinating the activation processes of the systems.

Therefore, how to solve the problem of cell carrier activation procedure processing under the condition of multi-mode cell coexistence is a hot spot and a difficult problem.

Disclosure of Invention

The present invention is directed to solve at least one of the above-mentioned defects (deficiency) in the prior art, and provides a method, an apparatus, a computer device and a storage medium for managing activation of a multimode cell, so as to implement unified management and control of cell carrier activation for coexistence of multimode cells, reduce complexity of a system, and facilitate operation and maintenance of the system.

In one aspect, a multimode cell activation management method is provided, including:

acquiring corresponding carrier configuration from an operation maintenance configuration unit of each system, dividing the carrier configuration into a lead configuration and an actual configuration, and storing the lead configuration and the actual configuration;

when a process unit is accessed through a unified access port, extracting the corresponding lead configuration from the stored carrier configuration and distributing the lead configuration to the process unit;

judging whether the cell carrier meets an activation condition or a deactivation condition according to the condition state of cell carrier activation or deactivation and the carrier configuration condition;

and if so, generating an activation command or a deactivation command and sending the activation command or the deactivation command to the process unit so that the process unit activates or deactivates the cell carrier in combination with the actual quantity configuration and the activation command or the deactivation command.

The carrier configuration is divided into the lead configuration and the actual configuration by acquiring the corresponding carrier configuration from the operation maintenance configuration unit of each system, and the lead configuration and the actual configuration are stored, so that the decoupling of the carrier configuration and the operation maintenance configuration unit is realized; when a process unit is accessed through a unified access port, corresponding lead configuration is extracted from the stored carrier configuration and distributed to the process unit, so that the problem of low efficiency caused by uniformly issuing all carrier configurations at the same time is solved, the issuing efficiency of the carrier configuration is improved, the activating process is simplified, and the activating efficiency is improved; by providing a uniform access end to access the process units, uniform management and control of access of the process units are realized, and the activation processes of the process units of all systems are conveniently coordinated; whether the cell carrier meets the activation condition or the deactivation condition is judged according to the condition state of cell carrier activation or deactivation and the carrier configuration condition, so that a corresponding activation command or deactivation command is generated to a process unit when the condition state of cell carrier activation or deactivation and the activation command meets the activation condition or the deactivation condition, unified management and control of activation processes of different systems are realized, and the activation processes are simplified.

Further, the activation condition comprises a first activation condition and a second activation condition, and the deactivation condition comprises a first deactivation condition and a second deactivation condition;

the judging whether the cell carrier meets the activation condition or the deactivation condition according to the condition state of cell carrier activation or deactivation and the carrier configuration condition comprises:

judging whether the cell carrier meets the first activation condition or the first deactivation condition according to the state related to the cell carrier;

if yes, executing an activation action or a deactivation action;

judging whether the cell carrier meets the second activation condition or the second deactivation condition according to an action execution result;

and if so, generating an activation command or a deactivation command and sending the activation command or the deactivation command to the process unit so that the process unit activates or deactivates the cell carrier by combining the actual quantity configuration and the activation command or the deactivation command.

Whether the cell carrier meets a first activation condition or a first deactivation condition is judged according to the condition state of cell carrier activation or deactivation, and an activation action or a deactivation action is executed only when the condition state of cell carrier activation or deactivation is met, so that the condition that the activation action or the deactivation action is executed when the condition state of cell carrier activation or deactivation is not met is avoided; and when the action execution result meets the second condition, the activation condition or the deactivation condition is generated, so that the activation process is simplified and the activation efficiency is improved.

Further, the condition states of the activation or deactivation of the cell carrier include a current state of the cell carrier, a switch state of the cell carrier, and an access state of the process unit related to the cell carrier;

the determining whether the cell carrier satisfies the first activation condition or the first deactivation condition according to the state related to the cell carrier includes:

and judging whether the cell carrier meets the first activation condition or the first deactivation condition according to the current state of the cell carrier, the switch state of the cell carrier and the access state of the process unit related to the cell carrier.

Judging whether the cell carrier meets a first activation condition or a first deactivation condition according to the current state of the cell carrier, the switching state of the cell carrier and the access state of the process unit related to the cell carrier, thereby realizing the unified management and control of all the states, executing an activation action or a deactivation action when the states are met, and avoiding the situation that an operation user needs to send an activation instruction again until the activation condition or the deactivation condition is met due to the fact that the condition related to the cell carrier does not meet the activation condition or the deactivation condition and the failed information is reported when the operation user sends the activation instruction.

Further, the execution activation activity is distributed to the process unit as extracting the corresponding actual quantity configuration from the stored carrier configuration.

The actual quantity configuration is issued to the process unit only when the condition state of the activation or deactivation of the cell carrier meets the activation condition, so that the problem of low efficiency caused by uniformly issuing all carrier configurations at the same time is solved.

Further, the executing of the deactivation activity is used for obtaining an actual state and an actual carrier configuration condition of the current cell carrier, and comparing the actual state and the actual carrier configuration condition of the cell carrier with a preset state and a preset carrier configuration condition.

Further, the method further comprises: after the process unit is accessed, receiving the attribute of the process unit reported by the process unit;

the extracting the corresponding advance configuration from the stored carrier configurations and distributing the corresponding advance configuration to the process unit comprises:

and extracting the corresponding lead configuration from the stored carrier configuration according to the attribute reported by the process unit and distributing the lead configuration to the process unit.

And extracting the corresponding lead configuration from the stored carrier configuration according to the attribute reported by the process unit and distributing the lead configuration to the process unit, thereby improving the accuracy of carrier configuration distribution and further improving the activation efficiency.

Further, after sending the activation command or the deactivation command to the process unit, the method further includes:

detecting whether the cell carrier has abnormal conditions or not at regular time according to a preset period;

if yes, executing the corresponding activation action or the deactivation action according to the abnormal condition and/or generating the corresponding activation command or the deactivation command.

Whether the cell carrier has abnormal conditions is regularly detected according to a preset period, so that corresponding activation actions or deactivation actions are executed and/or corresponding activation commands or deactivation commands are generated according to the abnormal conditions when the abnormal conditions exist, and the success rate of cell carrier activation or deactivation is further improved.

Further, the timing detecting whether the cell carrier has an abnormal condition includes:

detecting the activation condition or the deactivation condition at regular time according to a preset period, and judging whether the cell carrier meeting the activation condition or the deactivation condition is activated or deactivated;

if not, executing the corresponding activation action or the deactivation action and/or generating the corresponding activation command or the deactivation command according to the abnormal condition.

Whether the cell carrier meeting the activation condition or the deactivation condition is activated or deactivated is detected according to a preset period, and the success rate of cell carrier activation or deactivation is further improved.

Further, the timing detecting whether the cell carrier has an abnormal condition further includes:

skipping or partially skipping the timing detection of a current cycle when there is the activation command or the deactivation command outstanding in the process unit.

When there are outstanding activate or deactivate commands in a process unit, collisions with outstanding activate or deactivate commands can be avoided by skipping or partially skipping timing detection of the current cycle.

Further, still include:

and when the process unit is abnormally accessed, the carrier configuration issuing is abnormal, or the activation action or the deactivation action is abnormal, generating corresponding alarm information and adopting corresponding preset alarm processing.

When the process unit is accessed abnormally, the carrier configuration issues abnormally or the activation action or the deactivation action executes abnormally, corresponding alarm information is generated and corresponding preset alarm processing is adopted, so that the activation efficiency and the activation success rate can be improved.

Further, the method further comprises: and updating the state of the process unit in real time.

The robustness of the activated service is improved by updating the state of the process unit in real time.

Further, the process unit comprises a multimode forwarding system;

the method further comprises the following steps:

and after the multi-mode forwarding system is accessed, receiving the activation condition of the current cell carrier of the multi-mode forwarding system reported by the multi-mode forwarding system.

By receiving the activation condition of the current cell carrier of the multimode fronthaul system reported by the multimode fronthaul system, the influence of the cell carrier re-activation on the service under the condition of re-access caused by abnormal access of the multimode fronthaul system can be avoided, and the robustness of the activated service is improved.

In one aspect, an apparatus for multimode cell activation management is provided, including:

the access management module is used for providing a uniform access end for the process unit so as to enable the process unit to be accessed through the uniform access end;

a configuration management module, configured to obtain corresponding carrier configurations from each operation maintenance configuration unit, divide the carrier configurations into an advance configuration and an actual configuration, store the advance configuration and the actual configuration, and extract corresponding advance configurations from the stored carrier configurations to distribute to the process units when the process units pass through the unified access end;

and the activation and deactivation management module is used for judging whether the cell carrier meets an activation condition or a deactivation condition according to the condition state of cell carrier activation or deactivation and the carrier configuration condition, and generating an activation command or a deactivation command and sending the activation command or the deactivation command to the process unit when the activation condition or the deactivation condition is met so that the process unit activates or deactivates the cell carrier by combining the actual quantity configuration and the activation command or the deactivation command.

The configuration management module acquires corresponding carrier configuration from the operation maintenance configuration unit of each system, so that unified control on the carrier configuration of different systems is realized, decoupling of the carrier configuration and the operation maintenance configuration unit is realized, and the efficiency of issuing the carrier configuration is improved; the carrier configuration is divided into the lead configuration and the actual configuration, and the lead configuration and the actual configuration are stored, so that when a process unit is accessed through a unified access port, the corresponding lead configuration can be extracted from the stored carrier configuration and distributed to the process unit, the problem of low efficiency caused by that all carrier configurations are uniformly issued at the same time is solved, the activation process is simplified, and the activation efficiency is improved; the access management module provides a uniform access end to access the process units, so that uniform management and control of access of the process units are realized, and the activation process of the process units of each system is conveniently coordinated; the activation and deactivation management module judges whether the cell carrier meets the activation condition or the deactivation condition according to the condition state of cell carrier activation or deactivation and the carrier configuration condition, so that a corresponding activation command or deactivation command is generated to the process unit when the condition state is met, unified management and control of activation processes of different systems are realized, and the activation process is simplified.

the device also comprises a state management module which is used for uniformly managing and controlling all states related to the cell carrier and providing a message notification interface for the activation and deactivation management module;

the state management module judges whether the cell carrier meets the first activation condition or the first deactivation condition according to the state related to the cell carrier, and if so, the state management module informs the activation and deactivation management module to execute an activation action or a deactivation action through the message notification interface;

and the activation and deactivation management module judges whether the cell carrier meets the second activation condition or the second deactivation condition according to an execution result, and if so, generates an activation command or a deactivation command and sends the activation command or the deactivation command to the process unit so that the process unit activates or deactivates the cell carrier by combining the actual quantity configuration and the activation command or the deactivation command.

Whether the cell carrier meets the first activation condition or the first deactivation condition is judged by the state management module according to the condition state of cell carrier activation or deactivation, so that unified management and control of the condition states of cell carrier activation or deactivation of each system are realized, and the activation process is simplified; when the condition state of the activation or the deactivation of the cell carrier is not satisfied, the activation or the deactivation is also executed; and when the activation and deactivation management module judges that the action execution result meets the second condition, the activation condition or the deactivation condition is generated, so that the activation process is simplified and the activation efficiency is improved.

In one aspect, a computer device is provided, which includes a memory and a processor, the memory stores a computer program, and the processor implements the multimode cell activation management method as described above when executing the computer program.

In another aspect, a computer readable storage medium is provided, on which a computer program is stored, which computer program, when being executed by a processor, is adapted to carry out the multimode cell activation management method as set forth above.

Compared with the prior art, the invention has the following beneficial effects:

(1) by acquiring the corresponding carrier configuration from the operation maintenance configuration unit of each system, the unified control of the carrier configurations of different systems is realized, the decoupling of the carrier configurations and the operation maintenance configuration unit is realized, and the efficiency of issuing the carrier configurations is improved.

(2) By dividing the carrier configuration into the advance configuration and the actual configuration and storing the advance configuration and the actual configuration, when a process unit accesses through a unified access port, the corresponding advance configuration can be extracted from the stored carrier configuration and distributed to the process unit, so that the problem of low efficiency caused by uniformly issuing all carrier configurations at the same time is avoided, the activation process is simplified, and the activation efficiency is improved.

(3) By providing a uniform access end to access the process units, uniform management and control of access of the process units are realized, and the activation process of the process units of each system is conveniently coordinated.

(4) Whether the cell carrier meets the activation condition or the deactivation condition is judged according to the condition state of cell carrier activation or deactivation and the carrier configuration condition, so that a corresponding activation command or deactivation command is generated to a process unit when the condition state of cell carrier activation or deactivation is met, unified management and control of activation processes of different systems and unified management and control of the condition state of cell carrier activation or deactivation are realized, and the activation processes are simplified.

(5) By providing an active detection mechanism to actively detect whether the cell carrier is abnormal, it can be ensured that the activation action or the deactivation action, the activation command or the deactivation command can automatically reach the expected effect finally.

Drawings

Fig. 1 is a flowchart illustrating a multimode cell management method according to an embodiment.

Fig. 2 is a flowchart illustrating a multimode cell management method according to an embodiment.

Fig. 3 is a flowchart illustrating a multimode cell management method according to an embodiment.

Fig. 4 is a schematic structural diagram of a multimode cell management apparatus according to an embodiment.

Fig. 5 is a schematic application environment diagram of a multimode cell management apparatus according to an embodiment.

Detailed Description

The drawings are only for purposes of illustration and are not to be construed as limiting the invention. For a better understanding of the following embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The embodiment of the application provides a multimode cell activation management method, a multimode cell activation management device, a computer device and a storage medium, and aims to solve the problems that in the prior art, a multimode system needs to be accessed to activation process management systems of different systems, and the activation process management of the different systems cannot be uniformly managed and controlled, so that the system is complex and redundant.

The technical solution of the present invention is further described below with reference to the accompanying drawings and examples.

In an embodiment, a multimode cell activation management method is provided, for example, a 4G and 5G coexisting communication system is taken as an example, as shown in fig. 1, a flowchart of the multimode cell activation management method is illustrated, and the method includes:

acquiring corresponding carrier configuration from an operation maintenance configuration unit of each system, dividing the carrier configuration into an advance configuration and an actual configuration, and storing the advance configuration and the actual configuration;

Specifically, the process units include, but are not limited to, a process module related to activation and deactivation of cell carriers in a 4G communication system, such as a cmac, an L1/L2/L3 (physical layer/data link layer/network layer), a cmac, a cu (centralized unit), a du (distributed unit), a multimode fronthaul system, and the like, and are responsible for functions of network hierarchy and related services, where the multimode fronthaul system includes a plurality of 4G cell carriers and 5G cell carriers; after the operation maintenance configuration unit is started, corresponding carrier configuration is obtained from the operation maintenance configuration unit of each system, the carrier configuration is divided into two types of lead configuration and actual quantity configuration, the lead configuration and the actual quantity configuration are stored, and decoupling of the carrier configuration and the operation maintenance configuration unit is achieved; specifically, the advance configuration may include, but is not limited to, some hardware routing channel configurations, such as a correspondence between uplink and downlink channels of internal hardware of the multimode forwarding system and a cell carrier, such as some sctp channel configurations of a core network, and some internal parameter configurations related to activation or deactivation of the cell carrier, and the like; the actual quantity is configured to relate to specific parameters required when activating or deactivating the cell carrier, and may include, but is not limited to, reference power, offset, fractional specialty threshold, antenna number, RACH, PUCCH, etc.

In the prior art, when receiving an activation or deactivation instruction issued by an operating user, an operation maintenance configuration unit directly sends all carrier configurations related to cell carrier activation or deactivation to a process unit after changing the carrier configurations, such as a forward-transmission system, uniformly releasing all carrier configurations at the same time can lead to efficiency pass, and can also lead to the problems that the carrier configurations cannot be updated in time and the carrier configuration modification efficiency is low when abnormal conditions occur, in order to solve the problem of low carrier configuration efficiency, in the embodiment, when a process unit is accessed through a uniform access terminal, corresponding discovery configuration quantity is extracted from pre-stored carrier configurations and is sent to the process unit, namely, whether the operating user issues the activation or deactivation instruction or not, the corresponding advance configuration quantity is previously released as long as the related process unit is accessed, thereby improving the efficiency of issuing the carrier configuration; in this embodiment, a unified access end is provided for process units of different systems to access, so as to form a unified management and control on the process unit access, specifically, the communication mode of the process unit access includes, but is not limited to, TCP/UDP/SCTP and the like.

Specifically, the precondition for activating or deactivating the cell carrier is that access and carrier configuration of a process unit related to the cell carrier are completed, whether the cell carrier meets the activation condition or the deactivation condition is judged according to the condition state of activation or deactivation of the cell carrier and the carrier configuration condition, if yes, an activation command or a deactivation command is generated and sent to the process unit, so that the process unit activates or deactivates the cell carrier according to the actual amount configuration of the process unit result and the carrier activation command or the deactivation command; if not, reporting the message which does not meet the activation condition or the deactivation condition or not processing the message; whether the cell carrier meets the activation condition or the deactivation condition is judged according to the condition state of the cell carrier activation or deactivation and the carrier configuration condition, so that a corresponding activation command or deactivation command is generated to a process unit when the condition state of the cell carrier activation or deactivation and the activation command meet the activation condition or the deactivation condition, unified management and control of activation processes of different systems are achieved, and the activation processes are simplified.

In one embodiment, as shown in fig. 2, the activation condition includes a first activation condition and a second activation condition, and the deactivation condition includes a first deactivation condition and a second deactivation condition;

the judging whether the cell carrier meets the activation condition or the deactivation condition according to the condition state of the cell carrier activation or deactivation and the carrier configuration condition comprises the following steps:

if yes, executing an activation action or a deactivation action;

Specifically, the condition states of activation or deactivation of the cell carrier include a current state of the cell carrier, an on-off state of the cell carrier, and an access state of the process unit related to the cell carrier, where the current state of the cell carrier includes an activated state and a deactivated state, the on-off state of the cell carrier includes an on-off state and an on-off state, and the access state of the process includes an accessed state and an unaccessed state, where the on-off state of the cell carrier is controlled by an operating user, and the operating user turns on a carrier switch of the cell carrier, that is, the carrier switch is equivalent to issuing an activation instruction, and turns off the carrier switch, that is, the carrier switch is equivalent to issuing a deactivation instruction; judging whether the cell carrier meets a first activation condition or a first deactivation condition according to the condition state of cell carrier activation or deactivation, and executing a corresponding activation action or deactivation action when the condition state meets the first activation condition or the first deactivation condition, wherein if the current state of the cell carrier is a deactivation state, the on-off state of the cell carrier is an on-off state, and the relevant process units are all in an accessed state, the cell carrier is judged to meet the first activation condition, and the activation action is executed; if the current state of the cell carrier is an activated state, the switching state of the cell carrier is a switching closed state and the related process units are all in an accessed state, judging that the cell carrier meets a first deactivation condition, and executing a deactivation action; after the activation action or the deactivation action is executed, whether the cell carrier meets a second activation condition or a second deactivation condition is judged according to an execution result of the activation action or the deactivation action, if so, an activation command or a deactivation command is generated and sent to the process unit, specifically, the activation action is used for extracting corresponding actual quantity configuration from the stored carrier configuration and distributing the actual quantity configuration to the process unit, the deactivation action is used for acquiring the actual state and the actual carrier configuration condition of the current cell carrier, and the actual state and the actual carrier configuration condition of the cell carrier are compared with the preset state and the preset carrier configuration condition; when the actual quantity configuration is successfully distributed to the process unit, namely the response of the process unit is received, the activation action is successfully executed, the cell carrier meets a second activation condition, and an activation command is generated and sent to the process unit; and when the preset state and the preset carrier configuration condition of the cell carrier conform to the current actual state and the actual carrier configuration condition, the execution of the deactivation action is successful, the cell carrier meets a second deactivation condition, and a deactivation command is generated and sent to the process unit.

Specifically, when an operation user issues an activation or deactivation instruction, that is, when a carrier switch is turned on or off, an activation condition or a deactivation condition may not be met, for example, a related process unit is not accessed, the embodiment adopts an active activation or deactivation strategy, that is, whether a cell carrier meets the activation condition or the deactivation condition is determined at regular time according to a condition state of cell carrier activation or deactivation and a carrier configuration condition, and when the activation condition or the deactivation condition is met, an activation command or a deactivation command is automatically generated and sent to the process unit, so that the process unit activates or deactivates the cell carrier in combination with an actual quantity configuration and the activation command or the deactivation command; that is, the cell carrier is automatically activated or deactivated until the activation condition or the deactivation condition is satisfied.

Whether the cell carrier meets a first activation condition or a first deactivation condition is judged according to the current state of the cell carrier, the switching state of the cell carrier and the access state of the process unit related to the cell carrier, so that unified management and control of all the states are realized, when the cell carrier meets the first activation condition or the first deactivation condition, an activation action or a deactivation action is executed, and the condition that when an operation user issues an activation instruction, the operation user needs to issue the activation instruction again until the activation condition or the deactivation condition is met due to the fact that the condition related to the cell carrier does not meet the activation condition or the deactivation condition and then failed information is reported is avoided.

In one embodiment, the method further comprises: after the process unit is accessed, receiving the attribute of the process unit reported by the process unit; the extracting the corresponding advance configuration from the stored carrier configurations and distributing the corresponding advance configuration to the process unit comprises:

Specifically, the attributes of the process unit include, but are not limited to, supported formats, such as 4G or 5G or 4G and 5G, supported number of antennas, number of channels, maximum power, and the like.

In one embodiment, as shown in fig. 3, after the sending the activation command or the deactivation command to the process unit, the method further includes:

In one embodiment, the timing detection whether the cell carrier has an abnormal condition includes:

Specifically, because the cell carrier activation action, deactivation action, activation command, or deactivation command is abnormal due to abnormal conditions, the present embodiment detects the activation condition or the deactivation condition at regular time according to a preset period to find the cell carrier meeting the activation condition or the deactivation condition, determines whether the cell carrier meeting the activation condition or the deactivation condition is activated or deactivated, and if not, executes the corresponding activation action or the deactivation action and/or generates the corresponding activation command or the deactivation command according to the abnormal conditions, thereby ensuring that the expected effect can be automatically achieved finally.

In one embodiment, the timing detecting whether the cell carrier has an abnormal condition further includes:

Specifically, the process unit stores the received activation command or deactivation command in a work queue, and skips the timing detection of the current round when finding that the work queue in the process unit has an incomplete activation command or deactivation command; or when finding that the work queue in the process unit has an incomplete activation command or a deactivation command, skipping to detect the cell carrier corresponding to the incomplete activation command or the deactivation command in the work queue, and detecting other cell carriers in the process unit.

In one embodiment, the method further comprises:

and when the process unit is abnormally accessed, the carrier configuration issuing is abnormal or the activation action or the deactivation action is abnormal, generating corresponding alarm information and adopting corresponding preset alarm processing.

Specifically, the alarm information includes an access abnormal alarm, a configuration abnormal alarm, an activation abnormal alarm and a deactivation abnormal alarm, and a preset alarm process is set by an operation user, wherein the preset alarm process includes but is not limited to system restart, reporting of an operation maintenance configuration unit, deactivation of a cell carrier and the like; and when the corresponding preset alarm processing is adopted to solve the alarm in the alarm information, the alarm information is clear.

In one embodiment, the method further comprises: and updating the state of the process unit in real time.

Specifically, the "network element name + IP number" is used as a unique identifier of each process unit, different process units can be distinguished by the unique identifier, and when a process unit is abnormal or offline, the state of the corresponding process unit is updated.

In one embodiment, the process unit comprises a multimodal fronthaul system;

the method further comprises the following steps:

In another embodiment, based on the same inventive concept, a multimode cell management apparatus is provided, as shown in the figure, which is a schematic structural diagram of the multimode cell management apparatus, as shown in fig. 4 and 5, the apparatus includes:

the access management module is used for providing a uniform access end for the process unit so as to enable the process unit to access through the uniform access end;

and the activation and deactivation management module is used for judging whether the cell carrier meets the activation condition or the deactivation condition according to the condition state of cell carrier activation or deactivation and the carrier configuration condition, and when the activation condition or the deactivation condition is met, generating an activation command or a deactivation command and sending the activation command or the deactivation command to the process unit so that the process unit activates or deactivates the cell carrier by combining the actual quantity configuration and the activation command or the deactivation command.

Specifically, the process units include, but are not limited to, a process module related to activation and deactivation of cell carriers in a 4G communication system, such as a cmac, an L1/L2/L3 (physical layer/data link layer/network layer), a cmac, a cu (centralized unit), a du (distributed unit), a multimode fronthaul system, and the like, and are responsible for functions of network hierarchy and related services, where the multimode fronthaul system includes a plurality of 4G cell carriers and 5G cell carriers; after the configuration management module is started, the configuration management module acquires corresponding carrier configuration from the operation maintenance configuration units of all systems, divides the carrier configuration into two types of lead configuration and actual quantity configuration, stores the lead configuration and the actual quantity configuration, and realizes the decoupling of the carrier configuration and the operation maintenance configuration units; specifically, the advance configuration may include, but is not limited to, some hardware routing channel configurations, such as a correspondence between uplink and downlink channels of internal hardware of the multimode forwarding system and a cell carrier, such as some sctp channel configurations of a core network, and some internal parameter configurations related to activation or deactivation of the cell carrier, and the like; the actual quantity is configured to relate to specific parameters required when activating or deactivating the cell carrier, and may include, but is not limited to, reference power, offset, fractional specialty threshold, antenna number, RACH, PUCCH, etc. In the prior art, when a carrier configuration issuing is to receive an activation or deactivation instruction issued by an operation user, an operation maintenance configuration unit directly sends all carrier configurations related to cell carrier activation or deactivation to a process unit after changing the carrier configurations, such as a forward system, uniformly issuing all carrier configurations at the same time can lead to efficiency pass, and can also lead to the problem that the carrier configurations cannot be updated in time and carrier configuration modification efficiency is low when abnormal conditions occur, in order to solve the problem of low carrier configuration efficiency, in this embodiment, when a process unit is accessed through a uniform access terminal provided by an access management module, the configuration management module extracts corresponding discovery configuration quantity from pre-stored carrier configurations and issues the discovery configuration quantity to the process unit, that is, no matter whether the operation user issues the activation or deactivation instruction, the corresponding advance configuration quantity is issued in advance as long as the related process unit is accessed, thereby improving the efficiency of issuing the carrier configuration; in this embodiment, the access management module provides a uniform access end for process units of different systems to access, so as to form uniform management and control on access of the process units, specifically, the communication mode of access of the process units includes, but is not limited to, TCP/UDP/SCTP and the like.

Specifically, the precondition for activating or deactivating the cell carrier is that access and carrier configuration of a process unit related to the cell carrier are completed, the activation or deactivation management module judges whether the cell carrier satisfies the activation condition or the deactivation condition according to the condition state of activation or deactivation of the cell carrier and the carrier configuration condition, if so, an activation command or a deactivation command is generated and sent to the process unit, so that the process unit activates or deactivates the cell carrier according to the actual amount configuration of the process unit result and the carrier activation command or the deactivation command; if not, reporting the message which does not meet the activation condition or the deactivation condition or not processing the message; whether the cell carrier meets the activation condition or the deactivation condition is judged according to the condition state of cell carrier activation or deactivation and the carrier configuration condition, so that a corresponding activation command or deactivation command is generated to a process unit when the condition state of cell carrier activation or deactivation and the activation command meets the activation condition or the deactivation condition, unified management and control of activation processes of different systems are realized, and the activation processes are simplified.

The configuration management module acquires corresponding carrier configuration from the operation maintenance configuration unit of each system, so that unified control on the carrier configuration of different systems is realized, decoupling of the carrier configuration and the operation maintenance configuration unit is realized, and the efficiency of issuing the carrier configuration is improved; the carrier configuration is divided into the lead configuration and the actual configuration, and the lead configuration and the actual configuration are stored, so that when a process unit is accessed through a unified access port, the corresponding lead configuration can be extracted from the stored carrier configuration and distributed to the process unit, the problem of low efficiency caused by that all carrier configurations are uniformly issued at the same time is solved, the activation process is simplified, and the activation efficiency is improved; the access management module provides a uniform access end access process unit, so that uniform control of access of each process unit is realized, and the activation process of the process units of each system is conveniently coordinated; the activation and deactivation management module judges whether the cell carrier meets the activation condition or the deactivation condition according to the condition state of cell carrier activation or deactivation and the carrier configuration condition, so that a corresponding activation command or deactivation command is generated to the process unit when the condition state is met, unified management and control of activation processes of different systems are realized, and the activation process is simplified.

In one embodiment, the activation condition comprises a first activation condition and a second activation condition, and the deactivation condition comprises a first deactivation condition and a second deactivation condition;

Specifically, the state management module is configured to perform unified management and control on condition states of activation or deactivation of all cell carriers, where the condition states of activation or deactivation of the cell carriers include a current state of the cell carrier, an on-off state of the cell carrier, and an access state of the process unit related to the cell carrier, the current state of the cell carrier includes an activation state and a deactivation state, the on-off state of the cell carrier includes an on-off state and an on-off state, and the access state of the process includes an accessed state and an unaccessed state, where the on-off state of the cell carrier is controlled by an operating user, and the operating user opens a carrier switch of the cell carrier, that is, the carrier switch is equivalent to issuing an activation instruction, and closes the carrier switch, that is, the carrier switch is equivalent to issuing a deactivation instruction; the state management module forms an activation or deactivation enabling check interface according to the condition state of cell carrier activation or deactivation, and the activation or deactivation enabling check interface is provided for the activation or deactivation management module to comprehensively judge whether the activation or deactivation management operation can be carried out; specifically, the activation and deactivation management module checks whether a condition state of cell carrier activation or deactivation satisfies a first activation or deactivation condition through an activation or deactivation enabling check interface, specifically, the state management module determines whether the condition state of cell carrier activation or deactivation satisfies the first activation condition or the first deactivation condition according to the condition state of cell carrier activation or deactivation, when the first activation condition or the first deactivation condition is satisfied, the state management module sends a message through a message notification interface to notify that the condition state of current cell carrier activation or deactivation satisfies the first activation condition or the second activation condition, the activation and deactivation management module receives the message to execute a corresponding activation action or deactivation action, if the current state of the cell carrier is a deactivation state, the switch state of the cell carrier is a switch on state, and related process units are all in an accessed state, the cell carrier satisfies the first activation condition, the state management module informs the activation and deactivation management module to execute the activation action; if the current state of the cell carrier is an activated state, the switching state of the cell carrier is a switching-on state and the related process units are all in an accessed state, the cell carrier is judged to meet a first deactivation condition, and the state management module informs the activation and deactivation management module to execute a deactivation action; after the activation and deactivation management module executes the activation action or the deactivation action, whether the cell carrier meets a second activation condition or a second deactivation condition is judged according to an execution result of the activation action or the deactivation action, if so, an activation command or a deactivation command is generated and sent to the process unit, specifically, the activation action is used as the configuration management module to extract corresponding actual quantity configuration from the stored carrier configuration and distribute the actual quantity configuration to the process unit, the deactivation action is used to obtain the actual state and the actual carrier configuration condition of the current cell carrier, and the actual state and the actual carrier configuration condition of the cell carrier are compared with a preset state and a preset carrier configuration condition; when the actual quantity configuration is successfully distributed to the process unit, namely the response of the process unit is received, the activation action is successfully executed, the cell carrier meets a second activation condition, and an activation command is generated and sent to the process unit; and when the preset state and the preset carrier configuration condition of the cell carrier conform to the current actual state and the actual carrier configuration condition, the deactivation action is successfully executed, the cell carrier meets a second deactivation condition, and a deactivation command is generated and sent to the process unit.

Specifically, when an operation user issues an activation or deactivation instruction, that is, when a carrier switch is turned on or off, an activation condition or a deactivation condition may not be met, for example, a related process unit is not accessed, the embodiment adopts an active activation or deactivation policy, that is, an activation and deactivation management module periodically determines whether a cell carrier meets the activation condition or the deactivation condition according to a condition state of cell carrier activation or deactivation and a carrier configuration condition, and when the activation condition or the deactivation condition is met, automatically generates an activation command or a deactivation command to the process unit, so that the process unit activates or deactivates the cell carrier in combination with an actual amount configuration and the activation command or the deactivation command; that is, the cell carrier is automatically activated or deactivated until the activation condition or the deactivation condition is satisfied.

In one embodiment, the access management module is further configured to receive an attribute of the access management module, which is reported by the process unit;

the configuration management module extracts the corresponding advance configuration from the stored carrier configuration and distributes the advance configuration to the process unit, and the configuration management module comprises the following steps:

and the configuration management module extracts the corresponding lead configuration from the stored carrier configuration according to the attribute of the process unit and distributes the lead configuration to the process unit.

The access management unit receives the self attribute reported by the process unit, so that the subsequent configuration management module can conveniently distribute the corresponding carrier configuration for the process unit, and can conveniently check whether the distributed carrier configuration is consistent with the self attribute.

In an embodiment, the apparatus further includes a detection management module, configured to detect whether there is an abnormal condition in the cell carrier at regular time according to a preset period after the activation and deactivation management module sends the activation command or the deactivation command to the process unit, and if there is an abnormal condition, notify the activation and deactivation management module to perform the corresponding activation action or the deactivation action and/or generate the corresponding activation command or the deactivation command according to the abnormal condition.

the detection management module detects the activation condition or the deactivation condition at regular time according to a preset period, and judges whether the cell carrier meeting the activation condition or the deactivation condition is activated or deactivated;

if not, informing the activation and deactivation management module to execute the corresponding activation action or deactivation action according to the abnormal condition and/or generating the corresponding activation command or deactivation command.

Specifically, since the cell carrier activation action, deactivation action, activation command, or deactivation command is abnormal due to some abnormal conditions, the detection management module of this embodiment finds the cell carrier that meets the activation condition or the deactivation condition according to the preset period, detects the activation condition or the deactivation condition at regular time, determines whether the cell carrier that meets the activation condition or the deactivation condition is activated or deactivated, and if not, executes the corresponding activation action or the deactivation action and/or generates the corresponding activation command or the deactivation command according to the abnormal conditions, thereby ensuring that the expected effect can be automatically achieved finally.

In one embodiment, the detection management module is further configured to skip or partially skip the timing detection of a current cycle when there is the activation command or the deactivation command outstanding in the process unit.

Specifically, the process unit stores the received activation command or deactivation command in a work queue, and in the detection process, when the detection management module finds that the work queue in the process unit has an incomplete activation command or deactivation command, the current round of timing detection is skipped; or when the detection management module finds that the work queue in the process unit has an incomplete activation command or a deactivation command, skipping detecting the cell carrier corresponding to the incomplete activation command or the deactivation command in the work queue, and detecting other cell carriers in the process unit.

In an embodiment, the apparatus further includes an alarm management module, configured to generate corresponding alarm information and perform corresponding preset alarm processing when the process unit is abnormally accessed, the carrier configuration is abnormally issued, or the activation action or the deactivation action is abnormally performed.

Specifically, the alarm information includes an access abnormal alarm, a configuration abnormal alarm, an activation abnormal alarm and a deactivation abnormal alarm, and a preset alarm process is set by an operation user, wherein the preset alarm process includes but is not limited to system restart, reporting of an operation maintenance configuration unit, deactivation of a cell carrier and the like; and when the alarm management module adopts corresponding preset alarm processing to solve the alarm in the alarm information, the alarm management module clears the alarm information.

In one embodiment, the state management module is further configured to update the state of the process unit in real time. Specifically, the "network element name + IP number" is used as a unique identifier of each process unit, different process units can be distinguished by the unique identifier, and when a process unit is abnormal or offline, the state of the corresponding process unit is updated.

The robustness of the activation service is improved by updating the state of the process unit in real time.

In one embodiment, the process unit comprises a multimodal fronthaul system;

and the state management module is also used for receiving the activation condition of the current cell carrier wave reported by the multimode forwarding system after the multimode forwarding system is accessed.

In yet another embodiment, based on the same inventive concept, there is provided a computer device comprising a memory and a processor, the memory storing a computer program, and the processor implementing the multimode cell activation management method as described above when executing the computer program. Based on the same reason, unified management and control can be performed on the activation flows of all systems, the activation flows are simplified, and activation efficiency is improved.

In yet another embodiment, based on the same inventive concept, a computer readable storage medium is provided, on which a computer program is stored, which, when being executed by a processor, implements the multimode cell activation management method as described above. Based on the same reason, unified management and control can be realized on the activation flows of all systems, the activation flows are simplified, and the activation efficiency is improved.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the technical solutions of the present invention, and are not intended to limit the specific embodiments of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention claims should be included in the protection scope of the present invention claims.

Claims

1. A multimode cell activation management method, comprising:

2. The multimode cell activation management method of claim 1, wherein the activation condition comprises a first activation condition and a second activation condition, and the deactivation condition comprises a first deactivation condition and a second deactivation condition;

judging whether the cell carrier meets the first activation condition or the first deactivation condition according to the condition state of the activation or deactivation of the cell carrier;

if yes, executing an activation action or a deactivation action;

3. The multimode cell activation management method according to claim 2, wherein the condition states of cell carrier activation or deactivation include a current state of the cell carrier, an on-off state of the cell carrier, and an access state of the process unit related to the cell carrier;

4. The multimode cell activation management method according to claim 2, wherein the execution activation is distributed to the process unit as extracting the corresponding actual quantity configuration from the stored carrier configurations.

5. The multimode cell activation management method according to claim 2, wherein the performing deactivation activity is used to obtain an actual state and an actual carrier configuration of the current cell carrier, and compare the actual state and the actual carrier configuration with a predetermined state and a predetermined carrier configuration.

6. The multimode cell activation management method of claim 1, further comprising: after the process unit is accessed, receiving the attribute of the process unit reported by the process unit;

7. The multimode cell activation management method of claim 2, further comprising, after sending the activation command or the deactivation command to the process unit:

if yes, executing the corresponding activation action or the deactivation action and/or generating the corresponding activation command or the deactivation command according to the abnormal condition.

8. The multimode cell activation management method according to claim 7, wherein said periodically detecting whether the cell carrier has an abnormal condition comprises:

9. The multimode cell activation management method of claim 7, wherein said timing the detection of the cell carrier for the abnormal condition further comprises:

10. The multimode cell activation management method of claim 2, further comprising:

11. The multimode cell activation management method of any one of claims 1-10, further comprising: and updating the state of the process unit in real time.

12. The multimode cell activation management method of claim 11, wherein the process unit comprises a multimode fronthaul system;

the method further comprises the following steps:

13. A multimode cell activation management apparatus, comprising:

14. The multimode cell activation management device of claim 13, wherein the activation condition comprises a first activation condition and a second activation condition, and the deactivation condition comprises a first deactivation condition and a second deactivation condition;

15. A computer arrangement comprising a memory and a processor, the memory storing a computer program, wherein the processor, when executing the computer program, implements the multimode cell activation management method according to any of claims 1-12.

16. A computer-readable storage medium on which a computer program is stored which, when executed by a processor, implements the multimode cell activation management method of any of claims 1 to 12.