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

Abstract

The present invention relates to a multimode cell activation management method, device, computer equipment and storage medium. The method includes: acquiring corresponding carrier configuration from operation and maintenance configuration units of various standards, storing and dividing the carrier configuration into advance quantity configuration and actual quantity configuration; when a process unit accesses through the unified access terminal, the corresponding advance configuration is extracted and distributed to the process unit; according to the condition status of cell carrier activation or deactivation and carrier configuration Determine whether the cell carrier satisfies the activation condition or the deactivation condition; if so, generate an activation command or a deactivation command and send it to the process unit, so that the process unit combines the actual quantity configuration and the activation command or The deactivation command activates or deactivates the cell carrier. The present invention realizes unified management and control of cell carrier activation in coexistence of multi-mode cells, reduces the complexity of the system and facilitates system operation and maintenance.

Description

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

technical field

The present invention relates to the field of communication technologies, and in particular, to a method, apparatus, computer equipment and storage medium for activation management of a multi-mode cell.

Background technique

With the evolution of 5G technology and the current situation of 4G as the mainstream, 4G and 5G multi-mode coexistence products are bound to become the mainstream of the market in a short time. However, the existing mainstream cell activation management methods or systems are all for the management of single-mode cells (that is, cells with only one standard), and the process is complicated and disordered. The specific reasons are as follows:

First of all, the existing 4G, 5G or other cell carrier activation and deactivation are independently controlled by their respective systems, that is, 4G, 5G or other cell carrier activation and deactivation systems need to be set up separately. The associated cell activation management system, but when 4G, 5G and other systems coexist, the multi-mode fronthaul system must interact with the 4G, 5G or other cell activation management systems, which makes the design of the multi-mode fronthaul system very important. complex.

Secondly, when building a multi-mode network in the prior art, the configuration of 4G, 5G or other cell carriers is allocated by their respective systems and is not coupled to each other. , 5G or other standard configuration management connection, resulting in complex and redundant system design.

Furthermore, the prerequisite for activating the cell carrier is to satisfy the access and configuration of some process modules. However, the access of the existing process modules, especially the fronthaul system, is managed by their own systems, which will also lead to difficulties. Coordinate the activation process of various systems.

Therefore, how to solve the problem of processing the cell carrier activation process in the case of coexistence of multi-mode cells is a current hot spot and a difficult problem.

SUMMARY OF THE INVENTION

The present invention aims to solve at least one of the above-mentioned defects (deficiencies) in the prior art, and provides a multi-mode cell activation management method, device, computer equipment and storage medium, so as to realize the unified management and control of cell carrier activation in the coexistence of multi-mode cells, and reduce the It reduces the complexity of the system and facilitates system operation and maintenance.

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

Obtain the corresponding carrier configuration from the operation and maintenance configuration unit of each standard, divide the carrier configuration into an advance configuration and an actual configuration, and store the advance configuration and the actual configuration;

When a process unit is accessed through the unified access terminal, extract the corresponding advance configuration from the stored carrier configuration and distribute it to the process unit;

Judging whether the cell carrier satisfies the activation condition or the deactivation condition according to the condition status of the cell carrier activation or deactivation and the carrier configuration;

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 in combination with the actual quantity configuration and the activation command or the deactivation command.

By obtaining the corresponding carrier configuration from the operation and maintenance configuration unit of each standard, dividing the carrier configuration into advance configuration and actual configuration, and storing the advance configuration and the actual configuration, the carrier configuration and operation are realized. Maintain the decoupling of configuration units; when a process unit is accessed through a unified access terminal, extract the corresponding advance configuration from the stored carrier configuration and distribute it to the process unit, so as to avoid unification at the same time The problem of low efficiency caused by all the carrier configurations is issued, which improves the efficiency of carrier configuration delivery, simplifies the activation process, and improves the efficiency of activation. The unified management and control of access facilitates the coordination of the activation process of the process units of various standards; by judging whether the cell carrier satisfies the activation or deactivation conditions according to the condition status of the cell carrier activation or deactivation and the carrier configuration, so as to generate the corresponding The activation command or deactivation command is given to the process unit, which realizes the unified management and control of the activation process of different standards and simplifies the activation process.

Further, 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 satisfies the activation condition or the deactivation condition according to the condition state of the cell carrier activation or deactivation and the carrier configuration includes:

Determine whether the cell carrier satisfies the first activation condition or the first deactivation condition according to the state related to the cell carrier;

If so, perform an activation action or a deactivation action;

Judging whether the cell carrier satisfies the second activation condition or the second deactivation condition according to the action execution result;

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 in combination with the actual quantity configuration and the activation command or the deactivation command.

By first judging whether the cell carrier satisfies the first activation condition or the first deactivation condition according to the condition status of the cell carrier activation or deactivation, and then executing the activation action or deactivation action when it is satisfied, thus avoiding the activation or deactivation of the cell carrier. The activation or deactivation action is also executed when the conditional state of the node is not satisfied; the activation or deactivation condition is generated only when the action execution result satisfies the second condition, which simplifies the activation process and improves the efficiency of activation.

Further, the condition status of the cell carrier activation or deactivation includes the current status of the cell carrier, the switch status of the cell carrier and the access status 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:

Determine whether the cell carrier satisfies the first activation condition or the The first deactivation condition.

Determine whether the cell carrier satisfies 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, so as to realize unified management and control of all states , when it is satisfied, the activation action or deactivation action is executed, so as to avoid that when the operating user issues the activation instruction, the failure information is reported because the conditions related to the cell carrier do not meet the activation conditions or deactivation conditions, so that the operating user needs to re-download The situation where an activation command is issued until an activation condition or a deactivation condition is satisfied.

Further, the performing the activation action is to extract the corresponding actual quantity configuration from the stored carrier configuration and distribute it to the process unit.

By delivering the actual quantity configuration to the process unit only when the conditional state of cell carrier activation or deactivation meets the activation condition, the problem of low efficiency caused by uniformly delivering all carrier configurations at the same time is avoided.

Further, the performing deactivation action is to obtain the current actual state and actual carrier configuration of the cell carrier, and compare the actual state and actual carrier configuration of the cell carrier with the preset state and the preset carrier configuration. Compared.

Further, the method further includes: after the process unit is accessed, receiving its own attribute reported by the process unit;

The extracting the corresponding advance configuration from the stored carrier configuration and distributing it to the process unit includes:

The corresponding advance configuration is extracted from the stored carrier configuration according to the own attribute reported by the process unit and distributed to the process unit.

By extracting the corresponding advance configuration from the stored carrier configuration according to the own attribute reported by the process unit and distributing it to the process unit, the accuracy of distribution of the carrier configuration is improved, and the activation efficiency is further improved.

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

Detecting whether the cell carrier is abnormal according to a preset period;

If so, execute the corresponding activation action or the deactivation action and/or generate the corresponding activation command or the deactivation command according to the abnormal condition.

By periodically detecting whether the cell carrier has an abnormal condition according to a preset period, when there is an abnormal condition, a corresponding activation action or deactivation action is performed according to the abnormal condition and/or a corresponding activation command or deactivation command is generated, so as to further improve the activation of the cell carrier. or the success rate of deactivation.

Further, the timing detection of whether the cell carrier is abnormal includes:

Detect the activation condition or the deactivation condition regularly according to a preset period, and determine whether the cell carrier that satisfies the activation condition or the deactivation condition has been activated or deactivated;

If not, execute the corresponding activation action or the deactivation action and/or generate the corresponding activation command or the deactivation command according to the abnormal condition.

By detecting whether the cell carrier satisfying the activation condition or the deactivation condition has been activated or deactivated according to a preset period, the success rate of cell carrier activation or deactivation is further improved.

Further, the timing detection of whether the cell carrier is abnormal further includes:

When there is an unfinished activation command or deactivation command in the process unit, the timing detection of the current cycle is skipped or partially skipped.

When there is an unfinished activation command or deactivation command in the process unit, the timing detection of skipping or partially skipping the current cycle can avoid conflict with the unfinished activation command or deactivation command.

Further, it also includes:

When the process unit access is abnormal, the carrier configuration is abnormally delivered, or the activation action or deactivation action is abnormally executed, corresponding alarm information is generated and corresponding preset alarm processing is adopted.

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

Further, the method further includes: updating the status of the process unit in real time.

By updating the state of the process unit in real time, the robustness of the activation service is improved.

Further, the process unit includes a multi-mode front transmission system;

The method also includes:

After the multi-mode fronthaul system is accessed, the current activation status of the cell carrier reported by the multi-mode fronthaul system is received.

By receiving the activation status of its own current cell carrier reported by the multimode fronthaul system, it can avoid reactivating the cell carrier and affecting the service when the multimode fronthaul system access is abnormal and causing re-access, thereby improving the robustness of the activated service.

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

an access management module, configured to provide a unified access terminal for the process unit, so that the process unit can be accessed through the unified access terminal;

The configuration management module is configured to obtain the corresponding carrier configuration from each operation and maintenance configuration unit, divide the carrier configuration into an advance configuration and an actual configuration, and store the advance configuration and the actual configuration for use when When the process unit passes through the unified access terminal, extract the corresponding advance configuration from the stored carrier configuration and distribute it to the process unit;

The activation and deactivation management module is used to judge whether the cell carrier satisfies the activation condition or the deactivation condition according to the condition status of the cell carrier activation or deactivation and the carrier configuration, and when the activation condition or the deactivation condition is satisfied, an activation command is generated or deactivation command and send it 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 configuration management module obtains the corresponding carrier configuration from the operation and maintenance configuration units of various standards, realizes the unified management and control of the carrier configuration of different standards, realizes the decoupling of the carrier configuration and the operation and maintenance configuration unit, and improves the delivery of the carrier configuration. efficiency; divide the carrier configuration into advance configuration and actual amount configuration and store the advance configuration and the actual amount configuration, so that when a process unit is accessed through the unified access terminal, it can be retrieved from the stored The corresponding advance configuration is extracted from the carrier configuration and distributed to the process unit, so as to avoid the problem of low efficiency caused by uniformly issuing all carrier configurations at the same time, simplify the activation process, and improve the activation efficiency at the same time; The access management module provides a unified access terminal to access the process unit, so as to realize the unified management and control of the access of each process unit, which is convenient for coordinating the activation process of the process units of various standards; through the activation and deactivation management module, the activation or deactivation is activated or deactivated according to the cell carrier. The activation condition status and carrier configuration determine whether the cell carrier satisfies the activation or deactivation conditions, so as to generate the corresponding activation command or deactivation command to the process unit when it is satisfied, which realizes the unified management and control of the activation process of different standards and simplifies the activation process.

Further, 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 apparatus further includes a state management module, which is used for unified management and control of all states related to the cell carrier, and provides a message notification interface for the activation and deactivation management module;

The judging whether the cell carrier satisfies the activation condition or the deactivation condition according to the condition state of the cell carrier activation or deactivation and the carrier configuration includes:

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

The activation and deactivation management module judges whether the cell carrier satisfies the second activation condition or the second deactivation condition according to the execution result, and if so, generates an activation command or a deactivation command and sends it 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 deactivation command.

The state management module first judges whether the cell carrier satisfies the first activation condition or the first deactivation condition according to the condition status of the cell carrier activation or deactivation, and realizes the unified management and control of the cell carrier activation or deactivation condition status of each standard. The activation process is simplified; the activation and deactivation module is notified through the message notification interface to perform the activation or deactivation action when it is satisfied, so as to avoid performing the activation action or deactivation when the conditions for cell carrier activation or deactivation are not satisfied. The case of activating an action; when the activation and deactivation management module determines that the execution result of the action satisfies the second condition, the activation condition or the deactivation condition is generated, thereby simplifying the activation process and improving the efficiency of activation.

In one aspect, a computer device is provided, including a memory and a processor, the memory stores a computer program, and the processor implements the above-described method for managing multimode cell activation when the computer program is executed.

In another aspect, a computer-readable storage medium is provided, on which a computer program is stored, and when the computer program is executed by a processor, implements the above-described multimode cell activation management method.

Compared with the prior art, the beneficial effects of the present invention are:

(1) By obtaining the corresponding carrier configuration from the operation and maintenance configuration units of various standards, the unified management and control of the carrier configuration of different standards and the decoupling of the carrier configuration and the operation and maintenance configuration unit are realized, and the delivery of the carrier configuration is improved. s efficiency.

(2) By dividing the carrier configuration into an advance configuration and an actual configuration and storing the advance configuration and the actual configuration, when a process unit is accessed through a unified access terminal, the stored The corresponding advance configuration is extracted from the carrier configuration and distributed to the process unit, so as to avoid the problem of low efficiency caused by uniformly issuing all carrier configurations at the same time, simplify the activation process, and improve the activation efficiency.

(3) By providing a unified access terminal to access the process unit, the unified management and control of the access of each process unit is realized, and it is convenient to coordinate the activation process of the process unit of each standard.

(4) By judging whether the cell carrier satisfies the activation condition or the deactivation condition according to the condition status of the cell carrier activation or deactivation and the carrier configuration, so as to generate the corresponding activation command or deactivation command to the process unit when it is satisfied. The unified management and control of the activation process of different standards and the unified management and control of the condition status of cell carrier activation or deactivation simplifies the activation process.

(5) By proposing an active detection mechanism to actively detect whether the cell carrier is abnormal, it can ensure that the activation action or deactivation action, the activation command or the deactivation command can finally automatically achieve the desired effect.

Description of drawings

FIG. 1 is a schematic flowchart of a multi-mode cell management method according to an embodiment.

FIG. 2 is a schematic flowchart of a multi-mode cell management method according to an embodiment.

FIG. 3 is a schematic flowchart of a multi-mode cell management method according to an embodiment.

FIG. 4 is a schematic structural diagram of a multi-mode cell management apparatus according to an embodiment.

FIG. 5 is a schematic diagram of an application environment of a multi-mode cell management apparatus according to an embodiment.

Detailed ways

The accompanying drawings of the present invention are only used for exemplary illustration, and should not be construed as limiting the present invention. In order to better illustrate the following embodiments, some parts of the drawings may be omitted, enlarged or reduced, which do not represent the size of the actual product; for those skilled in the art, some well-known structures and their descriptions in the drawings may be omitted. understandable.

Embodiments of the present application provide a method, device, computer equipment, and storage medium for activation management of a multi-mode cell, aiming to solve the problem that the multi-mode system in the prior art needs to be connected to activation process management systems of different modes, and cannot perform activation procedures of different modes. Management performs unified management and control, which makes the system involve complex and redundant issues.

The technical solutions of the present invention will be further described below with reference to the accompanying drawings and embodiments.

In one embodiment, a multi-mode cell activation management method is provided. Taking a communication system where 4G and 5G coexist as an example, FIG. 1 is a schematic flowchart of a multi-mode cell activation management method, and the method includes:

Obtain the corresponding carrier configuration from the operation and maintenance configuration unit of each standard, divide the carrier configuration into an advance configuration and an actual configuration, and store the advance configuration and the actual configuration;

When a process unit is accessed through the unified access terminal, extract the corresponding advance configuration from the stored carrier configuration and distribute it to the process unit;

Judging whether the cell carrier satisfies the activation condition or the deactivation condition according to the condition status of the cell carrier activation or deactivation and the carrier configuration;

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 in combination with the actual quantity configuration and the activation command or the deactivation command.

Specifically, the process units include but are not limited to cmac, L1/L2/L3 (physical layer/data link layer/network layer) in the 4G communication system, cmac, cu (centralized unit, centralized unit) in the 5G communication system, Process modules related to cell carrier activation and deactivation, such as du (distributed unit distribution unit), multi-mode fronthaul system, etc., are responsible for the functions of the network layer and related services. Among them, there are several 4G cell carriers and 5G cell carriers in the multi-mode fronthaul system; After startup, the corresponding carrier configuration is obtained from the operation and maintenance configuration unit of each standard, the carrier configuration is divided into two types: advance configuration and actual configuration, and the advanced configuration and actual configuration are stored to realize the carrier configuration. Decoupling from the operation and maintenance configuration unit; specifically, the advance configuration may include but is not limited to some hardware routing channel configurations, such as the correspondence between the uplink and downlink channels of the internal hardware of the multi-mode fronthaul system and the cell carrier, such as with the core network. Some sctp channel configurations, such as some internal parameter configurations involved in cell carrier activation or deactivation, etc; Some professional thresholds, antenna numbers, RACH, PUCCH, etc.

In the prior art, the carrier configuration issue is that when an activation or deactivation instruction issued by an operating user is received, the operation and maintenance configuration unit directly sends all carrier configuration changes related to cell carrier activation or deactivation to the process unit. , such as the fronthaul system, the uniform decentralization of all carrier configurations at the same time will lead to efficiency everywhere, and may also cause the carrier configuration to not be updated in time in the event of an abnormal situation, which will also lead to the problem of low efficiency of carrier configuration modification. In order to solve the problem of carrier configuration The problem of low efficiency is that in this embodiment, when a process unit is accessed through the unified access terminal, the corresponding withdrawal configuration is extracted from the pre-stored carrier configuration and sent to the process unit, that is, regardless of whether the operating user has issued it or not Activation or deactivation instruction, as long as the relevant process unit is connected, its corresponding advance configuration will be pre-delivered, thereby improving the efficiency of carrier configuration delivery; this embodiment provides a unified access terminal for different standards. The process unit access is formed by the unified management and control of the process unit access. Specifically, the communication mode of the process unit access includes but is not limited to TCP/UDP/SCTP and so on.

Specifically, the precondition for activating or deactivating the cell carrier is to satisfy the access and carrier configuration of the process unit related to the cell carrier, and to determine whether the cell carrier satisfies the conditions of the cell carrier activation or deactivation and the carrier configuration Activation condition or deactivation condition, if satisfied, generate activation command or deactivation command and send activation command or deactivation command to the process unit, so that the process unit results in actual quantity configuration and carrier activation command or deactivation command to activate or deactivate Activate the cell carrier; if not, report the message that does not meet the activation or deactivation conditions or do not process it; judge whether the cell carrier meets the activation or deactivation conditions according to the condition status of the cell carrier activation or deactivation and the carrier configuration Therefore, when the conditions are met, the corresponding activation command or deactivation command is generated to the process unit, which realizes the unified management and control of the activation process of different standards, and simplifies the activation process.

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 satisfies the activation condition or the deactivation condition according to the condition state of the cell carrier activation or deactivation and the carrier configuration includes:

Determine whether the cell carrier satisfies the first activation condition or the first deactivation condition according to the state related to the cell carrier;

If so, perform an activation action or a deactivation action;

Judging whether the cell carrier satisfies the second activation condition or the second deactivation condition according to the action execution result;

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 in combination with the actual quantity configuration and the activation command or the deactivation command.

Specifically, the condition status of the cell carrier activation or deactivation includes the current status of the cell carrier, the switch status of the cell carrier, and the access status of the process unit related to the cell carrier. The current state includes an activated state and a deactivated state, the switch state of the cell carrier includes a switch open state and a switch closed state, and the access state of the process includes an access state and a non-access state, wherein the switch state of the cell carrier is determined by the operating user. Control, the operating user turns on the carrier switch of the cell carrier, which is equivalent to issuing an activation command, and turning off the carrier switch is equivalent to issuing a deactivation command; according to the condition status of cell carrier activation or deactivation, it is judged whether the cell carrier satisfies the first activation condition or the first deactivation condition, the corresponding activation action or deactivation action is performed only when it is satisfied. For example, the current state of the cell carrier is deactivated, the switch state of the cell carrier is the switch on state, and the related process units are all completed. In the access state, it is judged that the cell carrier satisfies the first activation condition, and the activation action is performed; if the current state of the cell carrier is the activated state, the switch state of the cell carrier is the switch closed state, and the related process units are all in the connected state, it is judged that the cell The carrier satisfies the first deactivation condition, and the deactivation action is executed; after the activation action or deactivation action is executed, it is also judged whether the cell carrier satisfies the second activation condition or the second deactivation condition according to the execution result of the activation action or the deactivation action. If satisfied, an activation command or a deactivation command is generated and sent to the process unit. Specifically, the activation action is to extract the corresponding actual quantity configuration from the stored carrier configuration and distribute it to the process unit, and the deactivation action To obtain the actual state and actual carrier configuration of the current cell carrier, and compare the actual state and actual carrier configuration of the cell carrier with the preset state and preset carrier configuration; when the actual configuration is distributed to the process When the unit is successful, that is, when the response from the process unit is received, the activation action is executed successfully, the cell carrier satisfies the second activation condition, and an activation command is generated and sent to the process unit; when the preset state of the cell carrier and the preset carrier configuration are the same as When the current actual state matches the actual carrier configuration, the deactivation action is successfully executed, the cell carrier satisfies the second deactivation condition, and a deactivation command is generated and sent to the process unit.

Specifically, when the operating user issues an activation or deactivation instruction, that is, when the carrier switch is turned on or off, the activation condition or deactivation condition may not be satisfied, for example, the relevant process unit is not connected. Activation or deactivation strategy, that is, according to the condition status of cell carrier activation or deactivation and carrier configuration, to determine whether the cell carrier meets the activation or deactivation conditions. When the activation or deactivation conditions are satisfied, an activation command or The deactivation command is sent 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 deactivation command; that is, automatically activate or deactivate the cell carrier when the activation condition or the deactivation condition is satisfied.

By judging whether the cell carrier satisfies 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, so as to realize the unification of all states Management and control, when it is satisfied, the activation or deactivation action is executed, so as to avoid that when the operating user issues the activation command, the failure information is reported due to the situation related to the cell carrier that does not meet the activation or deactivation conditions, so that the operating user needs to restart. Issue an activation instruction until the activation condition or deactivation condition is satisfied.

In an embodiment, the method further includes: after the process unit is connected, receiving its own attribute reported by the process unit; and extracting the corresponding advance from the stored carrier configuration Configuration distribution to the process unit includes:

The corresponding advance configuration is extracted from the stored carrier configuration according to the own attribute reported by the process unit and distributed to the process unit.

Specifically, the process unit underreports its own attributes, including but not limited to the standards it supports, such as 4G or 5G or 4G and 5G, the number of supported antennas, the number of its own channels, and the maximum power.

By extracting the corresponding advance configuration from the stored carrier configuration according to the own attribute reported by the process unit and distributing it to the process unit, the accuracy of distribution of the carrier configuration is improved, and the activation efficiency is further improved.

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

Detecting whether the cell carrier is abnormal according to a preset period;

If so, execute the corresponding activation action or the deactivation action and/or generate the corresponding activation command or the deactivation command according to the abnormal condition.

In one embodiment, the timing detection of whether the cell carrier is abnormal includes:

Detect the activation condition or the deactivation condition regularly according to a preset period, and determine whether the cell carrier that satisfies the activation condition or the deactivation condition has been activated or deactivated;

If not, execute the corresponding activation action or the deactivation action and/or generate the corresponding activation command or the deactivation command according to the abnormal condition.

Specifically, because the cell carrier activation action or deactivation action or activation command or deactivation command is abnormal due to certain circumstances, the current activation action or deactivation action or activation command or deactivation command is abnormal. Periodically detect the activation condition or deactivation condition to find out the cell carrier that satisfies the activation condition or deactivation condition, and judge whether the cell carrier that satisfies the activation condition or deactivation condition has been activated or deactivated, if not, according to the abnormal situation The corresponding activation action or the deactivation action is executed and/or the corresponding activation command or the deactivation command is generated, so as to ensure that the expected effect can be automatically achieved in the end.

By periodically detecting whether the cell carrier has an abnormal condition according to a preset period, when there is an abnormal condition, a corresponding activation action or deactivation action is performed according to the abnormal condition and/or a corresponding activation command or deactivation command is generated, so as to further improve the activation of the cell carrier. or the success rate of deactivation.

In one embodiment, the timing detection of whether the cell carrier is abnormal further includes:

When there is an unfinished activation command or deactivation command in the process unit, the timing detection of the current cycle is skipped or partially skipped.

Specifically, the process unit stores the received activation command or deactivation command in the work queue. During the detection process, when it is found that there is still an unfinished activation command or deactivation command in the work queue in the process unit, jump to After this round of timing detection; or when it is found that the work queue in the process unit still has an unfinished activation command or deactivation command, skip the detection of the cell carrier corresponding to the unfinished activation command or deactivation command in the work queue, and detect the process. other cell carriers in the cell.

When there is an unfinished activation command or deactivation command in the process unit, the timing detection of skipping or partially skipping the current cycle can avoid conflict with the unfinished activation command or deactivation command.

In one embodiment, the method further includes:

When the process unit access is abnormal, the carrier configuration is abnormally delivered, or the activation action or deactivation action is abnormally executed, corresponding alarm information is generated and corresponding preset alarm processing is adopted.

Specifically, the alarm information includes access exception alarms, configuration exception alarms, activation exception alarms, and deactivation exception alarms. The preset alarm processing is set by the operating user, and the preset alarm processing includes but is not limited to system restart and reporting operations. Maintain the configuration unit, deactivate the cell carrier, etc. When the alarm in the alarm information is resolved by using the corresponding preset alarm processing, the alarm message is cleared.

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

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

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

By updating the state of the process unit in real time, the robustness of the activation service is improved.

In one embodiment, the process unit includes a multi-mode fronthaul system;

The method also includes:

After the multi-mode fronthaul system is accessed, the current activation status of the cell carrier reported by the multi-mode fronthaul system is received.

By receiving the activation status of its own current cell carrier reported by the multimode fronthaul system, it can avoid reactivating the cell carrier and affecting the service when the multimode fronthaul system access is abnormal and causing re-access, thereby improving the robustness of the activated service.

In yet another embodiment, based on the same inventive concept, a multi-mode cell management device is provided, as shown in the figure is a schematic structural diagram of the multi-mode cell management device, as shown in Figures 4 and 5 , the device includes:

an access management module, configured to provide a unified access terminal for the process unit, so that the process unit can be accessed through the unified access terminal;

The configuration management module is configured to obtain the corresponding carrier configuration from each operation and maintenance configuration unit, divide the carrier configuration into an advance configuration and an actual configuration, and store the advance configuration and the actual configuration for use when When the process unit passes through the unified access terminal, extract the corresponding advance configuration from the stored carrier configuration and distribute it to the process unit;

The activation and deactivation management module is used to judge whether the cell carrier satisfies the activation condition or the deactivation condition according to the condition status of the cell carrier activation or deactivation and the carrier configuration, and when the activation condition or the deactivation condition is satisfied, an activation command is generated or deactivation command and send it 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.

Specifically, the process units include but are not limited to cmac, L1/L2/L3 (physical layer/data link layer/network layer) in the 4G communication system, cmac, cu (centralized unit, centralized unit) in the 5G communication system, Process modules related to cell carrier activation and deactivation, such as du (distributed unit distribution unit), multi-mode fronthaul system, etc., are responsible for the functions of the network layer and related services. Among them, there are several 4G cell carriers and 5G cell carriers in the multi-mode fronthaul system; After startup, the configuration management module obtains the corresponding carrier configuration from the operation and maintenance configuration units of each standard, divides the carrier configuration into two types: advance configuration and actual configuration, and stores the advanced configuration and actual configuration to realize Decoupling of carrier configuration and operation and maintenance configuration unit; specifically, the advance configuration may include but not limited to some hardware routing channel configurations, such as the correspondence between the uplink and downlink channels of the internal hardware of the multi-mode fronthaul system and the cell carrier, such as with Some sctp channel configurations of the core network, such as some internal parameter configurations involved in cell carrier activation or deactivation, etc.; the actual configuration is related to the specific parameters required when activating or deactivating cell carriers, including but not limited to reference power, offset Shift amount, some professional thresholds, antenna number, RACH, PUCCH, etc. In the prior art, the carrier configuration issue is that when an activation or deactivation instruction issued by an operating user is received, the operation and maintenance configuration unit directly sends all carrier configuration changes related to cell carrier activation or deactivation to the process unit. , such as the fronthaul system, the uniform decentralization of all carrier configurations at the same time will lead to efficiency everywhere, and may also cause the carrier configuration to not be updated in time in the event of an abnormal situation, which will also lead to the problem of low efficiency of carrier configuration modification. In order to solve the problem of carrier configuration The problem of low efficiency is that in this embodiment, when a process unit accesses through the unified access terminal provided by the access management module, the configuration management module extracts the corresponding withdrawal configuration from the pre-stored carrier configuration and issues it to the process unit , that is, regardless of whether the operating user has issued an activation or deactivation instruction, as long as there is access to the relevant process unit, the corresponding advance configuration will be issued in advance, thereby improving the efficiency of the carrier configuration issuance; The access management module provides a unified access terminal to access the process units of different standards, thus forming a unified management and control of the process unit access. Specifically, the communication methods of the process unit access include but are not limited to TCP/UDP/SCTP Wait.

Specifically, the precondition for activating or deactivating the cell carrier is to satisfy the access and carrier configuration of the process unit related to the cell carrier, and the activation or deactivation management module activates or deactivates the cell carrier according to the condition status and carrier configuration of the cell carrier. The situation judges whether the cell carrier satisfies the activation condition or the deactivation condition, and if so, generates the activation command or the deactivation command and sends the activation command or the deactivation command to the process unit, so that the process unit results in the actual quantity configuration and the carrier activation command or The deactivation command activates or deactivates the cell carrier; if not, reports the message that does not meet the activation or deactivation conditions or does not process it; judges whether the cell carrier is not based on the cell carrier activation or deactivation condition status and carrier configuration The activation condition or the deactivation condition is satisfied, so that when satisfied, the corresponding activation command or deactivation command is generated to the process unit, which realizes the unified management and control of the activation process of different standards and simplifies the activation process.

The configuration management module obtains the corresponding carrier configuration from the operation and maintenance configuration units of various standards, realizes the unified management and control of the carrier configuration of different standards, realizes the decoupling of the carrier configuration and the operation and maintenance configuration unit, and improves the delivery of the carrier configuration. efficiency; divide the carrier configuration into advance configuration and actual amount configuration and store the advance configuration and the actual amount configuration, so that when a process unit is accessed through the unified access terminal, it can be retrieved from the stored The corresponding advance configuration is extracted from the carrier configuration and distributed to the process unit, so as to avoid the problem of low efficiency caused by uniformly issuing all carrier configurations at the same time, simplify the activation process, and improve the activation efficiency at the same time; The access management module provides a unified access terminal to access the process unit, so as to realize the unified management and control of the access of each process unit, which is convenient for coordinating the activation process of the process units of various standards; through the activation and deactivation management module, the activation or deactivation is activated or deactivated according to the cell carrier. The activation condition status and carrier configuration determine whether the cell carrier satisfies the activation or deactivation conditions, so as to generate the corresponding activation command or deactivation command to the process unit when it is satisfied, which realizes the unified management and control of the activation process of different standards and simplifies the activation process.

In one embodiment, 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 apparatus further includes a state management module, which is used for unified management and control of all states related to the cell carrier, and provides a message notification interface for the activation and deactivation management module;

The judging whether the cell carrier satisfies the activation condition or the deactivation condition according to the condition state of the cell carrier activation or deactivation and the carrier configuration includes:

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

The activation and deactivation management module judges whether the cell carrier satisfies the second activation condition or the second deactivation condition according to the execution result, and if so, generates an activation command or a deactivation command and sends it 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 deactivation command.

Specifically, the state management module is used to uniformly manage and control the conditional states of activation or deactivation of all cell carriers, and the conditional states of cell carrier activation or deactivation include the current state of the cell carrier and the switch state of the cell carrier. and the access state of the process unit related to the cell carrier, the current state of the cell carrier includes an activated state and a deactivated state, the switch state of the cell carrier includes a switch open state and a switch closed state, and the access state of the process includes Accessed state and non-accessed state, in which the switching state of the cell carrier is controlled by the operating user. The operating user turns on the carrier switch of the cell carrier, which is equivalent to issuing an activation command, and turning off the carrier switch is equivalent to issuing a deactivation command. instruction; the state management module forms an enable check interface for activation or deactivation according to the conditional state of cell carrier activation or deactivation, and the activation or deactivation enable check interface is provided to the activation or deactivation management module to comprehensively judge whether activation can be performed Management operations with deactivation; specifically, the activation and deactivation management module checks whether the conditional state of cell carrier activation or deactivation satisfies the first activation or deactivation condition through the activation or deactivation enable check interface, specifically, by the state The management module judges whether the cell carrier satisfies the first activation condition or the first deactivation condition according to the condition status of the cell carrier activation or deactivation, and when the first activation condition or the first deactivation condition is satisfied, sends a message notification through the message notification interface The activation and deactivation management module The current cell carrier activation or deactivation condition status satisfies the first activation condition or the second activation condition, and the activation and deactivation management module performs the corresponding activation or deactivation action only after receiving the message, such as the cell carrier If the current state of the cell carrier is the deactivated state, the switch state of the cell carrier is the switch on state, and the related process units are all in the connected state, it is judged that the cell carrier meets the first activation condition, and the state management module notifies the activation and deactivation management module to execute the activation. Action; if the current state of the cell carrier is the activated state, the switch state of the cell carrier is the switch closed state, and the related process units are all connected, it is judged that the cell carrier meets the first deactivation condition, and the state management module notifies the activation and deactivation. The activation management module executes the deactivation action; after the activation and deactivation management module executes the activation action or the deactivation action, it also judges whether the cell carrier satisfies the second activation condition or the second deactivation condition according to the execution result of the activation action or the deactivation action, If satisfied, an activation command or a deactivation command is generated and sent to the process unit. Specifically, the activation action is that the configuration management module extracts the corresponding actual quantity configuration from the stored carrier configuration and distributes it to the process. unit, the deactivation action is to obtain the current actual state and actual carrier configuration of the cell carrier, and compare the actual state and actual carrier configuration of the cell carrier with the preset state and preset carrier configuration; When the distribution of the quantity configuration to the process unit is successful, that is, when the response from the process unit is received, the activation action is successfully executed, the cell carrier satisfies the second activation condition, and an activation command is generated. Send it to the process unit; when the preset state of the cell carrier and the preset carrier configuration are consistent with the current actual state and the actual carrier configuration, the deactivation action is successfully executed, the cell carrier satisfies the second deactivation condition, and a deactivation is generated. The activation command is sent to the process unit.

Specifically, when the operating user issues an activation or deactivation instruction, that is, when the carrier switch is turned on or off, the activation condition or deactivation condition may not be satisfied, for example, the relevant process unit is not connected. Activation or deactivation strategy, that is, the activation and deactivation management module regularly determines whether the cell carrier meets the activation or deactivation conditions according to the cell carrier activation or deactivation condition status and carrier configuration, and when the activation or deactivation conditions are met. , automatically generate an activation command or deactivation command and send it 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 deactivation command; Deactivate the cell carrier.

In one embodiment, the access management module is further configured to receive its own attribute reported by the process unit;

The configuration management module extracting the corresponding lead configuration from the stored carrier configuration and distributing it to the process unit includes:

The configuration management module extracts the corresponding advance configuration from the stored carrier configuration according to its own attribute reported by the process unit and distributes it to the process unit.

Specifically, the process unit underreports its own attributes, including but not limited to the standards it supports, such as 4G or 5G or 4G and 5G, the number of supported antennas, the number of its own channels, and the maximum power.

Receiving its own attributes reported by the process unit through the access management unit facilitates subsequent configuration management modules to assign corresponding carrier configurations to the process units, and also facilitates checking whether the distributed carrier configuration matches its own attributes.

By extracting the corresponding advance configuration from the stored carrier configuration according to the own attribute reported by the process unit and distributing it to the process unit, the accuracy of distribution of the carrier configuration is improved, and the activation efficiency is further improved.

In one embodiment, the apparatus further includes a detection management module, configured to periodically detect according to a preset period after the activation and deactivation management module sends the activation command or the deactivation command to the process unit Whether the cell carrier has an abnormal condition, if so, 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 all according to the abnormal condition. the deactivation command.

In one embodiment, the timing detection of whether the cell carrier is abnormal includes:

The detection management module regularly detects the activation condition or the deactivation condition according to a preset period, and judges whether the cell carrier that satisfies the activation condition or the deactivation condition has been activated or deactivated;

If not, the activation and deactivation management module is notified to execute the corresponding activation action or the deactivation action and/or generate the corresponding activation command or the deactivation command according to the abnormal condition.

Specifically, because the cell carrier activation action or deactivation action or activation command or deactivation command is abnormal due to certain circumstances, the current activation action or deactivation action or activation command or deactivation command is abnormal, the detection management module of this embodiment is abnormal. According to the preset periodic detection of activation conditions or deactivation conditions, find out the cell carriers that satisfy the activation conditions or deactivation conditions, and judge whether the cell carriers that satisfy the activation conditions or deactivation conditions have been activated or deactivated. The abnormal situation executes the corresponding activation action or the deactivation action and/or generates the corresponding activation command or the deactivation command, so as to ensure that the expected effect can be automatically achieved in the end.

By periodically detecting whether the cell carrier has an abnormal condition according to a preset period, when there is an abnormal condition, a corresponding activation action or deactivation action is performed according to the abnormal condition and/or a corresponding activation command or deactivation command is generated, so as to further improve the activation of the cell carrier. or the success rate of deactivation.

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

Specifically, the process unit stores the received activation command or deactivation command in the work queue. During the detection process, when the detection management module finds that the work queue in the process unit still has an unfinished activation command or deactivation command When the current round of timing detection is skipped; or when the detection management module finds that there are still unfinished activation commands or deactivation commands in the work queue in the process unit, skip the detection of the corresponding unfinished activation commands or deactivation commands in the work queue. , and detect other cell carriers in the process unit.

When there is an unfinished activation command or deactivation command in the process unit, the timing detection of skipping or partially skipping the current cycle can avoid conflict with the unfinished activation command or deactivation command.

In one embodiment, the apparatus further includes an alarm management module, configured to generate a corresponding alarm when the process unit access is abnormal, the carrier configuration is abnormally delivered, or the activation action or deactivation action is abnormally executed. information and use the corresponding preset alarm processing.

Specifically, the alarm information includes access exception alarms, configuration exception alarms, activation exception alarms, and deactivation exception alarms. The preset alarm processing is set by the operating user, and the preset alarm processing includes but is not limited to system restart and reporting operations. Maintain the configuration unit, deactivate the cell carrier, etc. After the alarm management module resolves the alarm in the alarm information by using the corresponding preset alarm processing, the alarm management module clears the alarm message.

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

By updating the state of the process unit in real time, the robustness of the activation service is improved.

In one embodiment, the process unit includes a multi-mode fronthaul system;

The state management module is further configured to receive its own current activation status of the cell carrier reported by the multimode fronthaul system after the multimode fronthaul system is accessed.

By receiving the activation status of its own current cell carrier reported by the multimode fronthaul system, it can avoid reactivating the cell carrier and affecting the service when the multimode fronthaul system access is abnormal and causing re-access, thereby improving the robustness of the activated service.

In yet another embodiment, based on the same inventive concept, a computer device is provided, comprising a memory and a processor, wherein the memory stores a computer program, and the processor implements the above-mentioned multi-mode when executing the computer program Cell activation management method. Based on the same reason as above, it can realize unified management and control of the activation process of each standard, simplify the activation process, and improve the activation efficiency.

In yet another embodiment, based on the same inventive concept, a computer-readable storage medium is provided, on which a computer program is stored, and when the computer program is executed by a processor, implements the above-described method for managing multimode cell activation. Based on the same reason as above, it can realize unified management and control of the activation process of each standard, simplify the activation process, and improve the activation efficiency.

Obviously, 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 modifications, equivalent replacements and improvements made within the spirit and principle of the claims of the present invention shall be included within the protection scope of the claims of the present invention.

Claims (16)

1. A multimode cell activation management method, comprising:

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;

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.

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;

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:

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;

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 in combination with the actual quantity configuration and the activation command or the deactivation command.

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;

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.

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;

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.

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:

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 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:

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.

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:

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.

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

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.

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:

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.

13. A multimode cell activation management apparatus, comprising:

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 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.

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;

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 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:

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.

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.

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