CN109936390B - Antenna active module management system and method - Google Patents

Abstract

The application provides a management system and a method for an antenna active module, the antenna active module is provided with a battery, the antenna active module can be communicated with the portable equipment and the cloud platform server in a wireless communication mode without depending on external power supply, that is, the antenna active module adopts NB-IoT mode when communicating with the holder server, and adopts WiFi, Bluetooth and other modes when communicating with the portable communication, which greatly improves the communication efficiency, in addition, the management system of the antenna active module is under the normal condition that the antenna active module is in an activation mode and is uniformly managed by the cloud platform server, but when the antenna active module is in a maintenance mode, the corresponding module is maintained and managed by the portable equipment, the whole process adopts a flexible management mode, the implementation mode is simple and convenient, and the management mode of the antenna active module is greatly simplified.

Description

Antenna active module management system and method

Technical Field

The present application relates to the field of base station antenna communication technologies, and in particular, to a system and a method for managing an antenna active module.

Background

With the development of mobile communication technology, base station electrically tunable antennas have been widely used. Meanwhile, functional modules used in cooperation with base station antennas are also rapidly developed, for example: the Remote Control Unit (Remote Control Unit, RCU for short), the perceptible Unit and the information management module, wherein, the RCU is used to adjust the electrical downtilt of the antenna; the perception unit is used for acquiring the work parameter information (including antenna attitude information and geographic information) of the antenna; the RAE is used to store information such as patterns and weight information.

The functional modules widely used above are active modules, and the use of the active modules requires power supply through aisg (antenna Interface Standards group) cables to work normally. Similarly, the communication mode between these active modules and the outside also needs to communicate with a higher-level device (e.g., a Remote Radio Unit (RRU)) through an AISG cable.

The active module has the technical problems of complex management process due to inconvenient power supply and complex communication mode in the working process of the existing active module.

Disclosure of Invention

Therefore, it is necessary to provide a management system and a management method for an antenna active module, aiming at the technical problems that the active module has a complicated management process due to inconvenient power supply and complicated communication mode when the existing active module works.

In a first aspect, an embodiment of the present invention provides a management system for an antenna active module, where the system includes: the system comprises an antenna active module, portable equipment and a cloud platform server; wherein the antenna active module comprises a battery;

the antenna active module is connected with the cloud platform server through a first wireless communication channel; the antenna active module is connected with the portable equipment through a second wireless communication channel; the portable equipment is connected with the cloud platform server through a third wireless communication channel;

the cloud platform server is used for managing the antenna active module when the antenna active module is in an activation mode, and managing the antenna active module through the portable equipment when the antenna active module is in a maintenance mode.

In one embodiment, the cloud platform server includes: a wireless channel server and an internet server; the wireless channel server is connected with the Internet server through an Internet communication channel;

the wireless channel server is used for forwarding communication data between the portable equipment and the cloud platform server and between the antenna active module and the cloud platform server;

and the internet server is used for controlling the system to work according to the communication data forwarded by the wireless channel server.

In one embodiment, the cloud platform server is further configured to divide working areas of the portable device and the antenna active module; different working areas correspond to different area identifications.

In a second aspect, an embodiment of the present invention provides a method for managing an antenna active module, where the method is applied to a system for managing an antenna active module provided in the foregoing first aspect, and the method includes:

the cloud platform server judges whether the message sent by the portable equipment is an activation request message of the antenna active module;

if the message sent by the portable equipment is an activation request message, the cloud platform server controls the antenna active module to enter an activation mode through the portable equipment, and establishes a first wireless communication channel; the first wireless communication channel represents a connection channel between the antenna active module and the cloud platform server;

if the instruction sent by the portable equipment is not an activation request message, the cloud platform server judges whether the antenna active module needs to enter a maintenance mode;

and if the antenna active module needs to enter the maintenance mode, the cloud platform server controls the antenna active module to enter the maintenance mode through the portable equipment.

In one embodiment, the determining, by the cloud platform server, whether the antenna active module needs to enter the maintenance mode includes:

the cloud platform server judges whether the connection of the first wireless communication channel is normal;

if the first wireless communication channel is abnormal, the cloud platform server judges whether a maintenance request sent by the portable equipment is received;

and if the maintenance request sent by the portable equipment is received, the cloud platform server determines that the antenna active module needs to enter a maintenance mode.

In one embodiment, the cloud platform server controls the antenna active module to enter the maintenance mode through the portable device, including:

the cloud platform server issues an authorization management instruction to the portable equipment so that the portable equipment forwards the authorization management instruction to the antenna active module; the authorization management instruction is used for instructing the portable device to control the antenna active module so as to enable the antenna active module to enter a maintenance mode.

In one embodiment, after the antenna active module enters the maintenance mode, the method further includes:

the cloud platform server receives the antenna active module maintenance success and request mode switching information fed back by the portable equipment;

according to the maintenance success and the request mode switching message, the cloud platform server sends a mode switching instruction to the portable equipment so that the portable equipment forwards the mode switching instruction to the antenna active module; the mode switching instruction is used for instructing the antenna active module to switch from a maintenance mode to an activation mode.

In one embodiment, the cloud platform server controls the antenna active module to enter an active mode through the portable device and establishes a first wireless communication channel, including:

when receiving an activation request message sent by the portable equipment, the cloud platform server issues an activation instruction to the portable equipment, so that the portable equipment forwards the activation instruction to the antenna active module; the activation instruction is used for instructing the antenna active module to enter an activation mode;

the cloud platform server receives antenna equipment information in the activation mode fed back by the antenna active module through the portable equipment;

and the cloud platform server establishes the first wireless communication channel according to the antenna equipment information.

In one embodiment, before the cloud platform server determines whether the message sent by the portable device is an activation request message of the antenna active module, the method further includes:

the cloud platform server receives account information sent by the portable equipment; the account information comprises a user name and a password which are registered successfully;

the cloud platform server receives the equipment identification code of the antenna active module, which is sent by the portable equipment through a third wireless communication channel; the third wireless communication channel characterizes a connection channel between the portable device and the cloud platform server;

the cloud platform server controls the portable equipment and the antenna active module to establish a second wireless communication channel according to the equipment identification code; the second wireless communication channel characterizes a connection channel between the portable device and the antenna active module.

In one embodiment, before the cloud platform server receives the account information sent by the portable device, the method further includes:

the cloud platform server receives a registration request sent by the portable equipment; the registration request comprises a user name, a password and a working area identification of the portable equipment;

and the cloud platform server registers the portable equipment according to the account registration request.

In one embodiment, the method further comprises:

the cloud platform server receives a deletion request sent by the portable equipment; the deleting request comprises a user name, a password and a working area identifier of the portable equipment to be deleted;

and the cloud platform server deletes the portable equipment to be deleted according to the deletion request.

The application provides a management system and a method for an antenna active module, the antenna active module is provided with a battery, the antenna active module can be communicated with the portable equipment and the cloud platform server in a wireless communication mode without depending on external power supply, that is, the antenna active module adopts NB-IoT mode when communicating with the holder server, and adopts WiFi, Bluetooth and other modes when communicating with the portable communication, which greatly improves the communication efficiency, in addition, the management system of the antenna active module is under the normal condition that the antenna active module is in an activation mode and is uniformly managed by the cloud platform server, but when the antenna active module is in a maintenance mode, the corresponding module is maintained and managed by the portable equipment, the whole process adopts a flexible management mode, the implementation mode is simple and convenient, and the management mode of the antenna active module is greatly simplified.

Drawings

Fig. 1 is a block diagram illustrating a system of an antenna active module according to an embodiment;

fig. 1.1 is a schematic flowchart illustrating a switching activation mode of an antenna active module according to an embodiment;

fig. 1.2 is a schematic flowchart illustrating a switching maintenance mode of an antenna active module according to an embodiment;

fig. 1.3 is a flowchart illustrating a registration process of a portable device according to an embodiment;

fig. 2 is a block diagram of a system of an antenna active module according to an embodiment;

fig. 2.1 is a block diagram of an internal structure of a wireless channel server or an internet server according to an embodiment;

fig. 3 is a schematic diagram of work area division of a cloud platform server according to an embodiment;

fig. 4 is a flowchart illustrating a method of an antenna active module according to an embodiment;

fig. 5 is a flowchart illustrating a method of an antenna active module according to an embodiment;

fig. 6 is a flowchart illustrating a method for an antenna active module according to an embodiment;

fig. 7 is a flowchart illustrating a method of an antenna active module according to an embodiment;

fig. 8 is a flowchart illustrating a method for an antenna active module according to an embodiment;

fig. 9 is a flowchart illustrating a method for an antenna active module according to an embodiment;

fig. 10 is a flowchart illustrating a method for an antenna active module according to an embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The terms "first," "second," "third," and "fourth," etc. in the description and claims of this application and in the accompanying drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Before describing particular embodiments, specific terms or concepts related to embodiments of the present invention are explained herein:

initial mode of the antenna active module: the module is in a factory state (or a power-on state), other functions of the antenna active module are in a dormant state in an initial mode, communication with the portable device is reserved, and electric energy can be saved.

Active mode of the antenna active module: the module can be directly communicated with the cloud platform server, data forwarding of the portable device is not needed, and all functions of the antenna active module are in an activated state in the activated mode.

Maintenance mode of the antenna active module: the authorized portable device passing through the cloud platform server can directly exchange data with the antenna active module, so that the antenna active module is convenient to maintain and manage, all functions of the active module are in a working state, and communication between the cloud platform server and the antenna active module is interrupted in the mode.

Other functions of the antenna active module: including but not limited to antenna attitude sensing functions, antenna attitude adjustment functions, etc.

The device identification code is: each antenna active module in the system has a unique SN number corresponding to the module for module identification.

As shown in fig. 1, an embodiment of the present application provides a management system for an antenna active module, where the system includes: an antenna active module 10, a portable device 11, and a cloud platform server 12; wherein the antenna active module 10 includes a battery; the antenna active module 10 is connected with the cloud platform server 12 through a first wireless communication channel; the antenna active module 10 is connected with the portable device 11 through a second wireless communication channel; the portable device 11 is connected with the cloud platform server 12 through a third wireless communication channel; the cloud platform server 12 is configured to manage the antenna active module 10 when the antenna active module 10 is in an active mode, and manage the antenna active module 10 through the portable device 11 when the antenna active module 10 is in a maintenance mode.

The antenna active module represents a functional module that is used with an antenna to implement a specific function of the antenna, for example: a Remote electric regulation Control Unit (RCU for short), a perception Unit and an information management module. Wherein the RCU is used for adjusting the electrical downtilt of the antenna; the perception unit is used for acquiring the work parameter information (including antenna attitude information and geographic information) of the antenna; the RAE is used to store pattern and weight information.

The portable device may include a human-computer interaction interface and application software, where the human-computer interaction interface may be a touch display screen or a voice input interface, and the like, which is not limited in this embodiment. The portable device may be a mobile phone, an IPAD, or the like, which is not limited in this embodiment.

The cloud platform server can realize the functions of calculation, storage and network, is a server cluster, can comprise a management server cluster, a storage server cluster, a calculation server cluster or a switch and the like, is a centralized remote management platform, is used for managing the antenna active module when the antenna active module is in an activation mode, and manages the antenna active module through portable equipment when the antenna active module is in a maintenance mode.

It should be noted that, in this embodiment, the antenna active module may include a battery, and the type of the battery is not limited in this application, and the battery may be a rechargeable battery or a general battery. In addition, the antenna active module is connected with the cloud platform server through a first wireless communication channel, and the first wireless communication channel can be in a Narrow-Band Internet of Things (NB-IoT) mode; the antenna active module is connected with the portable equipment through a second wireless communication channel, and the second wireless communication channel can adopt wireless communication modes such as WiFi, Bluetooth and the like; the portable device is connected with the cloud platform server through a third wireless communication channel, and the third wireless communication channel can be in a 4G network signal mode; it should be understood that the communication manner among the antenna active module, the portable device, and the cloud platform server is only an example, and the embodiment is not limited in particular.

The operating principle of the management system of the antenna active module can be explained by the following procedure,

specifically, in practical applications, the antenna active module needs to be switched from the initial mode to the active mode during formal operation, as shown in fig. 1.1, where the switching manner process is as follows: the portable equipment logs in a cloud platform server through registered account information and establishes communication with the cloud platform server, then the portable equipment scans the antenna active module to obtain an equipment identification code, then transmits a request activation message containing the equipment identification code to the cloud platform server through a third wireless communication channel, after receiving the request activation message, the cloud platform server firstly establishes a mapping relation between the portable equipment and the antenna active module according to the account information of the portable equipment, namely establishes a second wireless communication channel, after the second wireless communication channel is successfully established, the cloud platform server sends an activation instruction to the portable equipment through the third wireless channel, the portable equipment transmits the activation instruction to the antenna active module through the established second wireless communication channel, and then the antenna active module activates other functions of the antenna active module according to the received activation instruction, and the cloud platform server establishes a first wireless communication channel according to the received related equipment information of the antenna active module, so that the subsequent work of the antenna active module can be directly communicated with the cloud platform server through the first wireless communication channel without being forwarded by the portable equipment.

It can be understood that when the antenna active module is in the active mode, the antenna active module is in direct communication with the cloud platform server, but in order to facilitate debugging and maintenance of the antenna active module, the main control device needs to be switched from the cloud platform server to the portable device, that is, the working state of the antenna active module is switched from the active mode to the maintenance mode, as shown in fig. 1.2, the process of entering the maintenance mode is as follows: the portable equipment logs in a cloud platform server through registered account information and establishes communication with the cloud platform server, then the portable equipment acquires an equipment identification code of an antenna active module through a second wireless communication channel, access request information containing the equipment identification code is sent to the cloud platform server, the cloud platform server interrupts communication between the cloud platform server and the antenna active module after receiving the access request information, an instruction for authorizing and managing the antenna active module is issued to the portable equipment through a third wireless communication channel, then the portable equipment forwards the instruction to the antenna active module, the active module enters a maintenance mode after receiving the instruction, and finally the portable equipment can communicate with the antenna active module according to the instruction and carry out related debugging or maintenance operation. After the portable device finishes operating the active module, a completion message is fed back to the cloud platform server through the third wireless communication channel, the cloud platform server sends a switching instruction to the antenna active module through the portable device again according to the feedback message, the antenna active module is switched from the maintenance mode to the activation mode according to the switching instruction, and the main control device is correspondingly switched to the cloud platform server through the portable device.

It should be noted that, regardless of whether the antenna active module switches the active mode or the maintenance mode through the portable device, it is required to ensure that the portable mode has authority to manage the antenna active module, that is, it is to be ensured that the portable device is registered on the cloud platform server, as shown in fig. 1.3, a registration process of the portable device specifically includes: the portable device sends account information (including an account, a password and a work area identifier) to the cloud platform server, and the cloud platform server registers the portable device after receiving the account information sent by the portable device, so that the portable device and the cloud platform server are successfully linked.

The management system of the antenna active module provided by the embodiment of the application, the antenna active module is provided with a battery, the antenna active module can be communicated with the portable equipment and the cloud platform server in a wireless communication mode without depending on external power supply, that is, the antenna active module adopts NB-IoT mode when communicating with the holder server, and adopts WiFi, Bluetooth and other modes when communicating with the portable communication, which greatly improves the communication efficiency, in addition, the management system of the antenna active module is under the normal condition that the antenna active module is in an activation mode and is uniformly managed by the cloud platform server, but when the antenna active module is in a maintenance mode, the corresponding module is maintained and managed by the portable equipment, the whole process adopts a flexible management mode, the implementation mode is simple and convenient, and the management mode of the antenna active module is greatly simplified.

In an embodiment, as shown in fig. 2, in the management system for an antenna active module provided in an embodiment of the present application, the cloud platform server 12 includes: a wireless channel server 121 and an internet server 122; the wireless channel server 121 is connected with the internet server 122 through an internet communication channel; the wireless channel server 121 is configured to forward communication data between the portable device 11 and the cloud platform server 12, and between the antenna active module 10 and the cloud platform server 12; the internet server 122 is configured to control the system to operate according to the communication data forwarded by the wireless channel server 121.

In this embodiment, the internal structures of the wireless channel server and the internet server may be as shown in fig. 2.1, which may be a part or all of the structures, and this embodiment does not limit this. The internal architecture may include a processor, memory, network interface, and database connected by a system bus. Wherein the processor is configured to provide computing and control capabilities; the memory includes a non-volatile storage medium storing an operating system, a computer program, and a database, and an internal memory; the internal memory provides an environment for the operation of an operating system and a computer program in the nonvolatile storage medium; the database is used for storing data in a management system of the antenna active module; the network interface is used for communicating with an external terminal through a network connection. The internet server can further comprise a display screen and an input device, wherein the display screen can be a liquid crystal display screen or an electronic ink display screen, the input device can be a touch layer covered on the display screen, a key, a track ball or a touch pad arranged on the shell, and an external keyboard, a touch pad or a mouse and the like.

The wireless channel server is used for forwarding communication data in the antenna active module management system, and the internet server is used for controlling the antenna active module management system to work according to the communication data forwarded by the wireless channel server and is a control center of the system.

Specifically, in practical applications, the communication data related to the switching of the antenna active module from the initial mode to the active mode, the switching of the antenna active module from the active mode to the maintenance mode, and the registration process of the portable device are all forwarded to the internet server through the internet channel by the wireless channel server, and then the internet server controls each process according to the received data.

The management system of antenna active module that this embodiment provided, cloud platform server have included radio access server and internet server, because all communication data that this management system during operation related are all unified to be forwarded by radio access server, are controlled by internet server, like this, entire system communication data transmission and control are unified, have strengthened the convenience and the standardization of communication data management greatly.

In consideration of the security of the cloud platform server in unified management of the antenna active modules, partition management needs to be performed on the cloud platform server to achieve the purpose of partition management of the active modules. Optionally, in the management system of an antenna active module provided in the embodiment of the present application, as shown in fig. 3, the cloud platform server is further configured to divide working areas of the portable device and the antenna active module; different working areas correspond to different area identifications.

In this embodiment, the cloud platform server partition may be to divide the whole cloud platform server into a plurality of working areas, where the number of the divided areas is not specifically limited in this embodiment, and may be, for example, divided into 4 working areas: respectively, zone A, zone B, zone C and zone D. After the cloud platform service area is divided into working areas, the portable device in each working area can only control the antenna active module in the same working area, and can not perform cross-area management, for example: the portable device divided into the zone a is an active device module incapable of managing the zones B, C and D, and similarly, the portable device divided into the zone B is an active device module incapable of managing other zones. It should be noted that when the portable device registers in the cloud platform service area, the portable device needs to carry a working area identifier to specify an area where the portable device needs to work, and when the antenna active module is activated, the portable device sends an activation request message to the cloud platform server, so that the cloud platform server sets the antenna active module in the working area where the portable device that sent the activation request message is located.

According to the management system of the antenna active module, the cloud platform server divides the working areas in advance, and therefore a partition management mechanism is adopted, after the portable device is divided into the corresponding working areas during registration and activation of the antenna active module, the portable device can only manage the antenna active module in the same working area, information safety is greatly guaranteed, and information leakage is prevented.

In addition, the embodiment of the present application also provides a management method of an antenna active module, which is applied to the management system of an antenna active module as shown in fig. 1, and it should be understood that the specific embodiments described herein are only used to explain the present application and are not used to limit the present application. In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. It should be noted that, in the management method for an antenna active module provided by the present invention, an execution subject is a cloud platform server, where the execution subject may also be a management apparatus for the antenna active module, and the apparatus may be implemented by software, hardware, or a combination of software and hardware to become part or all of a management terminal for the antenna active module.

As shown in fig. 4, in an embodiment, an embodiment of the present application provides a management method for an antenna active module, where the embodiment relates to a specific process in which a cloud platform server controls the antenna active module to enter an active mode or a maintenance mode according to a message sent by a portable device, and the method includes:

s101, the cloud platform server judges whether a message sent by the portable equipment is an activation request message of the antenna active module, if the message sent by the portable equipment is the activation request message, the step S102 is executed, and if the message sent by the portable equipment is not the activation request message, the step S103 is executed.

The portable device needs to acquire the message before sending the message, and the manner of acquiring the message may be input by the user on a human-computer interaction interface of the portable device, for example: when the man-machine interaction interface is a liquid crystal display screen, a user can input through an input device such as a keyboard; the message may also be obtained through transmission by other external devices, which is not limited in this embodiment. The portable device sends the message through a third wireless communication channel, for example: 4G communication signals, etc.

In this step, the cloud platform server determines whether the message sent by the portable device is an activation request message of the antenna active module, and the determination may be that the cloud platform server retrieves whether the message carries a key character after receiving the message: for example: request activation, etc., or the message carries an identification, such as: when the first bit is 1, the message is represented as an activation message, and the like, and the embodiment does not limit the manner in which the cloud platform server determines whether the message is an activation request message.

S102, the cloud platform server controls the antenna active module to enter an activation mode through the portable equipment, and establishes a first wireless communication channel; the first wireless communication channel characterizes a connection channel between the antenna active module and the cloud platform server.

Based on the step S101, when the message sent by the portable device is an activation request message, the cloud platform server controls the antenna active module to enter the activation mode through the portable device, where the activation request message sent by the portable device includes a device identification code of the antenna active module, so that the cloud platform server activates and registers the antenna active module while issuing an activation instruction. After the cloud platform server activates the antenna active module, a connection channel between the antenna active module and the cloud platform server is established, that is, a first wireless communication channel is established.

S103, the cloud platform server judges whether the antenna active module needs to enter a maintenance mode.

In this step, if the message sent by the portable device is not the activation request message, the cloud platform server determines whether the antenna active module needs to enter the maintenance mode, where the manner in which the cloud platform server determines whether the antenna active module needs to enter the maintenance mode may be, whether the antenna active module has a problem or not, and needs to be maintained, or may be other manners, and this embodiment does not limit this.

And S104, if the antenna active module needs to enter the maintenance mode, the cloud platform server controls the antenna active module to enter the maintenance mode through the portable equipment.

Based on the step S103, the cloud platform server determines that the antenna active module needs to enter the maintenance mode, and the cloud platform server controls the antenna active module to enter the maintenance mode through the portable device, where the control method may be that the cloud platform server first sends an instruction to the portable device, and then the portable device controls the antenna active module to enter the maintenance mode according to the instruction.

It should be noted that the cloud platform server, the portable device, the antenna active module, the first wireless communication channel, and each operating mode of the antenna active module, for example: the activation mode and the maintenance mode are explained in the embodiments of the management system of the antenna active module, and this embodiment is not described herein again, and similarly, the second wireless communication channel, the third wireless communication channel, the device identification code, the working area identifier, the device information, and the like related to the following embodiments are also the same as those described in the embodiments of the management system of the antenna active module, and are not described herein again.

According to the management method for the antenna active module, the cloud platform server determines whether the antenna active module is controlled to enter the activation mode or the maintenance mode according to the message sent by the portable device, so that all modes of the antenna active module are uniformly managed by the cloud platform server, the implementation mode of the whole management process is simple and convenient, and the management process of the antenna active module is greatly simplified.

On the basis of the foregoing embodiment, as shown in fig. 5, one realizable manner of the step S103 of the foregoing embodiment includes:

s201, the cloud platform server judges whether the connection of the first wireless communication channel is normal.

In this step, based on the step S103, when the cloud platform server determines that the message sent by the portable device is not the activation request message of the antenna active module, it is determined whether a communication link between the antenna active module and the cloud platform server is normal, that is, it is determined whether the connection of the first wireless communication channel is normal, it needs to be noted that if there is a problem in link communication between the cloud platform server and the active module, it may be considered that the antenna active module has a problem, which indicates that the antenna active module needs to enter the maintenance mode.

S202, if the first wireless communication channel is abnormal, the cloud platform server judges whether a maintenance request sent by the portable equipment is received.

Based on the step S201, if the determination result is that the first wireless communication channel is not normal, the cloud platform server determines whether a maintenance request sent by the portable device is received, so as to determine whether to maintain the antenna active module. Wherein the maintenance request indicates a request for maintenance of the antenna active module by the portable device.

S203, if a maintenance request sent by the portable device is received, the cloud platform server determines that the antenna active module needs to enter a maintenance mode.

In this step, if the cloud platform receives a maintenance request sent by the portable device, and if the cloud platform receives the maintenance request, the cloud platform server determines that the antenna active module needs to enter the maintenance mode.

In the management method for the antenna active module provided by this embodiment, when the instruction sent by the portable device is not the activation request message, the cloud platform server determines that the antenna active module needs to enter the maintenance mode according to the abnormality of the first wireless communication channel and the maintenance request sent by the portable device, so as to determine whether the antenna active module needs to enter the maintenance mode first, and if not, the subsequent step of entering the maintenance mode is not necessary, thereby greatly improving the working efficiency of the antenna active module mode.

In one embodiment, one realizable manner of step S104 of the above embodiments may include: the cloud platform server issues an authorization management instruction to the portable equipment so that the portable equipment forwards the authorization management instruction to the antenna active module; the authorization management instruction is used for instructing the portable device to control the antenna active module and the antenna active module to enter a maintenance mode.

In this embodiment, the cloud platform server may change the authority of the main control device of the antenna active module to the portable device while controlling the antenna active module to enter the maintenance mode, so that the portable device directly performs maintenance operation on the antenna active module. The authorization management instruction indicates that the cloud platform server grants the authority of the main control device of the antenna active module to the portable device, after the cloud platform server issues the authorization management instruction to the portable device, the portable device forwards the authorization management instruction to the antenna active module, then the antenna active module enters a maintenance mode according to the authorization management instruction, and meanwhile the main control device of the portable device is changed from the cloud platform server to the portable device, so that the portable device directly maintains the antenna active module, and the maintenance process of the antenna active mode is greatly simplified.

It is understood that after the portable device successfully maintains the antenna active module, the antenna active module is required to continue to return to the active mode for subsequent operations, and as shown in fig. 6, in an embodiment, the method further includes:

s301, the cloud platform server receives the message that the antenna active module is successfully maintained and the mode switching is requested, which is fed back by the portable equipment.

In this embodiment, the portable device performs maintenance operation on the antenna active module according to authorization of the cloud platform server, and after the maintenance operation is completed, the portable device sends a message of successful maintenance to the cloud platform server, and simultaneously sends request information of mode switching, where the request information of mode switching is used to request switching of the portable device from the maintenance mode to the activation mode. The feedback maintenance success message may include a device identification code of the antenna active module, so that a subsequent message may be accurately transmitted to the antenna active module.

S302, according to the maintenance success and the request mode switching message, the cloud platform server sends a mode switching instruction to the portable device, so that the portable device forwards the mode switching instruction to the antenna active module; the mode switching instruction is used for instructing the antenna active module to switch from a maintenance mode to an activation mode.

Based on the message that the antenna active module is successfully maintained, which is received by the cloud platform server in step S301, the cloud platform server sends a mode switching instruction to the portable device, and then the portable device forwards the mode switching instruction to the corresponding antenna active module, and after receiving the instruction, the antenna active module is switched from the maintenance mode to the activation mode.

According to the management method for the antenna active module provided by the embodiment, after the maintenance of the antenna active module is completed, the portable device feeds back a message to the cloud platform server, and then sends the mode switching instruction sent by the cloud platform server to the antenna active module, so that the antenna active module switches the maintenance mode into the activation mode, and thus the antenna active module is immediately switched into the activation mode after the maintenance of the antenna active module is completed, and the antenna active module continues to return to the activation mode to execute subsequent work.

In one embodiment, as shown in fig. 7, one implementation manner of the step S102 may include:

s401, when receiving an activation request message sent by the portable device, the cloud platform server issues an activation instruction to the portable device, so that the portable device forwards the activation instruction to the antenna active module; the activation instruction is used for instructing the antenna active module to enter an activation mode.

In this embodiment, based on the step S101, when determining that the received message is an activation request message, the cloud platform server sends an activation instruction back to the portable device according to the activation request message, and then the portable device forwards the activation instruction to the antenna active module, where the activation instruction is used to instruct the antenna active module to enter an activation mode.

S402, the cloud platform server receives the antenna equipment information in the activation mode fed back by the antenna active module through the portable equipment.

Based on the step S401, after the antenna active module enters the activation mode according to the activation instruction, the antenna active module sends the device information of the antenna in the activation mode to the portable device, and the portable device retransmits the antenna device information to the cloud platform server. The device information of the antenna includes information corresponding to the antenna active module, for example: if the antenna active module is an RCU, the device information of the antenna may include electrical downtilt information; if the antenna active module is a perceptible unit, the device information of the antenna can include antenna attitude information, geographical location information and engineering parameter information; if the antenna active module is an RAE, the device information of the antenna may include a directional pattern and weight information of the antenna.

And S403, the cloud platform server establishes the first wireless communication channel according to the antenna equipment information.

In this step, the cloud platform server establishes a first wireless communication channel according to the antenna device information, which means that after the cloud platform server receives the device information sent by the antenna active module, a communication link, i.e., the first wireless communication channel, between the cloud platform server and the antenna active module is established, so that subsequent work of the antenna active module can directly communicate with the cloud platform server through the first wireless communication channel without forwarding through the portable device.

According to the management method for the antenna active module, the cloud platform server activates the antenna active module according to the activation request message sent by the portable device, and after the cloud platform server activates the antenna active module through the portable device, a direct communication link between the antenna active module and the cloud platform server is established, so that the antenna active module can directly communicate with the cloud platform server without being forwarded by the portable device, and the work of the antenna active module is greatly facilitated.

In this embodiment of the application, before each portable device manages an antenna active module, a cloud platform server is required to establish a mapping relationship between the two, that is, to establish a second wireless communication channel, as shown in fig. 8, in an embodiment, the method further includes:

s501, the cloud platform server receives account information sent by the portable equipment; the account information comprises a user name and a password which are registered successfully.

In this embodiment, the cloud platform server receives the account information sent by the portable device, that is, the process of logging in the cloud platform server by the portable device is performed, and after the portable device logs in the cloud platform server, the communication between the portable device and the cloud platform server can be performed normally.

S502, the cloud platform server receives the device identification code of the antenna active module, which is sent by the portable device through a third wireless communication channel; the third wireless communication channel characterizes a connection channel between the portable device and the cloud platform server.

Based on the above S501, after the portable device logs in the cloud platform server through the account information, the portable device sends the device identification code of the antenna active module through the third wireless communication channel, where the device identification code of the antenna active module is the device identification code of the antenna active module, and the device identification code of the antenna active module is not described herein again because it has been introduced in the embodiment of the management system of the antenna active module. The portable device may acquire the device identification code of the antenna active module by scanning a graphic code on the antenna active module, where the graphic code may be a two-dimensional code, a barcode, or the like. After the device identification code of the antenna active module is acquired, the portable device sends the device identification code (namely the device identification code) to the cloud platform server.

S503, the cloud platform server controls the portable device and the antenna active module to establish a second wireless communication channel according to the device identification code; the second wireless communication channel characterizes a connection channel between the portable device and the antenna active module.

Based on the device identification code of the antenna active module received by the cloud platform server in step S502, the cloud platform server allocates the antenna active module to the corresponding working area according to the working area identifier of the portable device, and establishes a mapping relationship between the portable device and the antenna active module, that is: a connection channel between the portable device and the antenna active module.

In the management method for the antenna active module provided by this embodiment, because the cloud platform server allocates the antenna active module to the same working area according to the working area where the portable device that sends the device identification code of the antenna active module is located, and establishes the mapping relationship between the portable device and the antenna active module, so that only the portable device in the same working area can have a management right on the antenna active module during subsequent normal working, on the contrary, the portable device that is not registered in the same working area cannot manage the antenna active module in the area, the management method of the system is greatly standardized, and the system can operate stably.

As described in the foregoing embodiment of the management system for an antenna active module, whether the antenna active module switches the active mode or the maintenance mode through the portable device, it is required to ensure that the portable mode has authority to manage the antenna active module, that is, to ensure that the portable device is registered on the cloud platform server, in an embodiment, as shown in fig. 9, an embodiment of the present application provides a management method for an antenna active module, where the method further includes:

s601, the cloud platform server receives a registration request sent by the portable device; the registration request includes a username, a password, and a work area identification of the portable device.

When the cloud platform server receives the registration request sent by the portable device, the cloud platform server may receive the registration request through a third wireless communication channel, for example: 4G communication signals. The registration request comprises a user name, a password and a work area identifier of the portable device, the user name and the password of the portable device can make specific contents according to the requirements of the user, and the work area identifier represents the work area of the portable device to be registered in the cloud platform server.

S602, the cloud platform server registers the portable device according to the account registration request.

Based on the step S601, the cloud platform server receives the registration request sent by the portable device, and registers the portable device, that is, registers the user name, the password, and the work area identifier of the device sent by the portable device in the specified work area.

According to the management method of the antenna active module provided by the embodiment, the cloud platform server registers the portable device according to the registration request sent by the portable device, so that the portable device has the authority to manage the antenna active module in subsequent work, and the management of the portable device on the antenna active module is greatly facilitated.

Considering that in actual work, a device administrator managing the antenna active module may need to be replaced, that is, the portable device needs to be deleted from the current work area of the cloud platform server, in an embodiment, as shown in fig. 10, the method further includes:

s701, the cloud platform server receives a deletion request sent by the portable equipment; the deletion request comprises a user name, a password and a working area identification of the portable equipment to be deleted.

It should be noted that replacing the device administrator managing the antenna active module mainly involves two operation processes of deleting the original device administrator and adding a new device administrator, since the process of adding a new device administrator is the process of registering the portable device, this embodiment is not described herein again, and the process of deleting the original device administrator is the process of deleting the portable device in the cloud platform server.

Specifically, the cloud platform server receives a deletion request sent by the portable device, where the deletion request includes a user name, a password, and a work area identifier of the portable device to be deleted. The cloud platform server may receive the deletion request in a manner that the portable device sends the deletion request to the cloud platform server through the third wireless communication channel. The user name, the password and the working area identification of the portable device to be deleted are account information registered when the portable device is registered in the cloud platform server.

S702, the cloud platform server deletes the portable equipment to be deleted according to the deletion request.

In this step, based on the deletion request in step 701, the cloud platform server deletes the information of the portable device from the working area corresponding to the cloud platform server according to the device user name, the password, and the working area identifier sent by the portable device.

According to the management method for the antenna active module, the cloud platform server can delete the registered portable equipment in a mode that the portable equipment sends the deletion request, and flexibly manage the portable equipment, so that the management process of the portable equipment is more effective, convenient, safe and reliable.

It should be understood that although the various steps in the flow charts of fig. 4-10 are shown in order as indicated by the arrows, the steps are not necessarily performed in order as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least some of the steps in fig. 4-10 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternating with other steps or at least some of the sub-steps or stages of other steps.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by hardware instructions of a computer program, which can be stored in a non-volatile computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the embodiments provided herein may include non-volatile and/or volatile memory, among others. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), Double Data Rate SDRAM (DDRSDRAM), Enhanced SDRAM (ESDRAM), Synchronous Link DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (11)

1. A system for managing antenna active modules, the system comprising: the system comprises an antenna active module, portable equipment and a cloud platform server; wherein the antenna active module comprises a battery;

the antenna active module is connected with the cloud platform server through a first wireless communication channel; the antenna active module is connected with the portable equipment through a second wireless communication channel; the portable equipment is connected with the cloud platform server through a third wireless communication channel;

the cloud platform server is used for managing the antenna active module when the antenna active module is in an activation mode, and managing the antenna active module through the portable equipment when the antenna active module is in a maintenance mode; the active mode refers to that all functions of the antenna active module are in an active state, and the antenna active module can directly communicate with the cloud platform server; the maintenance mode means that all functions of the antenna active module are in a working state, and the antenna active module can directly communicate with the portable device.

2. The system of claim 1, wherein the cloud platform server comprises: a wireless channel server and an internet server; the wireless channel server is connected with the Internet server through an Internet communication channel;

the wireless channel server is used for forwarding communication data between the portable equipment and the cloud platform server and between the antenna active module and the cloud platform server;

and the internet server is used for controlling the system to work according to the communication data forwarded by the wireless channel server.

3. The system according to claim 1 or 2, wherein the cloud platform server is further configured to divide the working areas of the portable device and the antenna active module; different working areas correspond to different area identifications.

4. A method for managing an antenna active module, the method being applied to a system for managing an antenna active module according to any one of claims 1 to 3, the method comprising:

the cloud platform server judges whether the message sent by the portable equipment is an activation request message of the antenna active module;

if the message sent by the portable equipment is an activation request message, the cloud platform server controls the antenna active module to enter an activation mode through the portable equipment, and establishes a first wireless communication channel; the first wireless communication channel represents a connection channel between the antenna active module and the cloud platform server; the active mode refers to that all functions of the antenna active module are in an active state, and the antenna active module can directly communicate with the cloud platform server; if the instruction sent by the portable equipment is not an activation request message, the cloud platform server judges whether the antenna active module needs to enter a maintenance mode;

if the antenna active module needs to enter a maintenance mode, the cloud platform server controls the antenna active module to enter the maintenance mode through the portable equipment; the maintenance mode means that all functions of the antenna active module are in a working state, and the antenna active module can directly communicate with the portable device.

5. The method of claim 4, wherein the determining, by the cloud platform server, whether the antenna active module needs to enter the maintenance mode comprises:

the cloud platform server judges whether the connection of the first wireless communication channel is normal;

if the first wireless communication channel is abnormal, the cloud platform server judges whether a maintenance request sent by the portable equipment is received;

and if the maintenance request sent by the portable equipment is received, the cloud platform server determines that the antenna active module needs to enter a maintenance mode.

6. The method of claim 4 or 5, wherein the cloud platform server controls the antenna active module to enter a maintenance mode through the portable device, and comprises:

the cloud platform server issues an authorization management instruction to the portable equipment so that the portable equipment forwards the authorization management instruction to the antenna active module; the authorization management instruction is used for instructing the portable device to control the antenna active module and the antenna active module to enter a maintenance mode.

7. The method of claim 6, wherein after the antenna active module enters a maintenance mode, the method further comprises:

the cloud platform server receives the antenna active module maintenance success and request mode switching information fed back by the portable equipment;

according to the maintenance success and the request mode switching message, the cloud platform server sends a mode switching instruction to the portable equipment so that the portable equipment forwards the mode switching instruction to the antenna active module; the mode switching instruction is used for instructing the antenna active module to switch from a maintenance mode to an activation mode.

8. The method of claim 7, wherein the cloud platform server controls the antenna active module to enter an active mode and establish a first wireless communication channel via the portable device, and wherein the method comprises:

when receiving an activation request message sent by the portable equipment, the cloud platform server issues an activation instruction to the portable equipment, so that the portable equipment forwards the activation instruction to the antenna active module; the activation instruction is used for instructing the antenna active module to enter an activation mode;

the cloud platform server receives antenna equipment information in the activation mode fed back by the antenna active module through the portable equipment;

and the cloud platform server establishes the first wireless communication channel according to the antenna equipment information.

9. The method according to claim 7 or 8, wherein before the cloud platform server determines whether the message sent by the portable device is an activation request message of the antenna active module, the method further comprises:

the cloud platform server receives account information sent by the portable equipment; the account information comprises a user name and a password which are registered successfully;

the cloud platform server receives the equipment identification code of the antenna active module, which is sent by the portable equipment through a third wireless communication channel; the third wireless communication channel characterizes a connection channel between the portable device and the cloud platform server;

the cloud platform server controls the portable equipment and the antenna active module to establish a second wireless communication channel according to the equipment identification code; the second wireless communication channel characterizes a connection channel between the portable device and the antenna active module.

10. The method of claim 9, wherein before the cloud platform server receives the account information sent by the portable device, the method further comprises:

the cloud platform server receives a registration request sent by the portable equipment; the registration request comprises a user name, a password and a working area identification of the portable equipment;

and the cloud platform server registers the portable equipment according to the registration request.

11. The method of claim 10, further comprising:

the cloud platform server receives a deletion request sent by the portable equipment; the deleting request comprises a user name, a password and a working area identifier of the portable equipment to be deleted;

and the cloud platform server deletes the portable equipment to be deleted according to the deletion request.

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