CN110086843A - A kind of monitoring method and terminal - Google Patents

Abstract

The invention discloses a kind of monitoring method and terminals, monitor terminal and are fixed on antenna for base station, and monitoring terminal is connect with management system, and monitoring terminal includes: data acquisition unit；The central processing unit being communicatively coupled with data acquisition unit；The user identity identification unit being communicatively coupled with central processing unit；Wherein, data acquisition unit is sent to central processing unit for the data acquisition unit of receiving antenna primary data, and by antenna primary data；Central processing unit obtains antenna work parameter evidence, and antenna work parameter evidence is sent to user identity identification unit for handling antenna primary data；User identity identification unit, for antenna work parameter evidence to be transmitted to management system.

Description

A kind of monitoring method and terminal

Technical field

The present invention relates to the antenna technology of field of wireless more particularly to a kind of monitoring methods and terminal.

Background technique

The work parameter of operator's antenna for base station is according to cores such as azimuth, angle of declination, longitude and latitude and the height above sea level for including antenna Parameter, these work parameters are also relate to the crucial net such as covering quality of base station signal according to the coverage area for being not only related to signal Network performance.The base station work ginseng monitoring device that the prior art can use hand-held measures base station work parameter evidence, specifically, Magnetic azinuth is obtained by earth induction technology, then obtains antenna azimuth size by declination compensation, however Base station surrounding magnetic field is unevenly distributed, and the error that will cause acquisition data is big, can not precise acquisition antenna work parameter evidence.

In order to improve the accuracy of measurement work parameter evidence, a kind of terminal of intellectual monitoring antenna work ginseng, this equipment benefit are proposed With global positioning system (GPS, Global Positioning System) or Chinese Beidou satellite navigation system (BDS, BeiDou Navigation Satellite System) realize azimuthal high-acruracy survey, it is entirely avoided magnetic disturbance, benefit The precise measurement that angle of declination is realized with sensor, passes through Antenna Interface Standards Group (AISG, Antenna Interface Standards Group) interface by work parameter according to being transmitted to operation and maintenance center (OMC, Operation and Maintenance Center) in.

However, AISG interface transmission mode can only be by work parameter according to docking since AISG interface has fixed interface specification Onto the RRU device for having same-interface rule with AISG, later, need work parameter according to from far-end RF module (RRU, Radio Remote Unit) equipment management platform on be sent to OMC management platform be managed collectively, cause work parameter according to synchronization Synchronizing process to each platform is complicated, poor compatibility.

Summary of the invention

In order to solve the above technical problems, an embodiment of the present invention is intended to provide a kind of monitoring method and terminal, can simplify by Work parameter improves compatibility according to the synchronizing process for being synchronized to each platform.

The technical scheme of the present invention is realized as follows:

The embodiment of the present invention provides a kind of monitoring terminal, and the monitoring terminal is fixed on antenna for base station, and the monitoring is eventually End is connect with management system, and the monitoring terminal includes:

Data acquisition unit；

The central processing unit being communicatively coupled with the data acquisition unit；

The user identity identification unit being communicatively coupled with the central processing unit；Wherein,

The data acquisition unit, for the data acquisition unit of receiving antenna primary data, and the antenna is initial Data are sent to central processing unit；

The central processing unit obtains antenna work parameter evidence for handling the antenna primary data, and by the antenna Work parameter evidence is sent to the user identity identification unit；

The user identity identification unit, for the antenna work parameter evidence to be transmitted to the management system.

In above-mentioned monitoring terminal, the user identity identification unit is embedded in the central processing unit and/or described User identity identification unit is placed outside in subscriber identification card slot.

In above-mentioned monitoring terminal, the antenna work parameter is according to including antenna azimuth and Downtilt, the data Acquisition unit includes: azimuth acquisition subelement and angle of declination acquisition subelement；Wherein,

The azimuth acquires subelement, for acquiring corresponding first primary data of the antenna azimuth, described the One primary data is the corresponding primary data of antenna azimuth described in the antenna primary data；

The angle of declination acquires subelement, for acquiring corresponding second primary data of the Downtilt, described the Two primary datas are the corresponding primary data of Downtilt described in the antenna primary data.

In above-mentioned monitoring terminal, the monitoring terminal further include: be communicatively coupled with the central processor unit Data transmission unit；Wherein,

The central processor unit is also used to the antenna work parameter evidence being sent to the data transmission unit；

The data transmission unit, for the antenna work parameter evidence to be sent to network optimization equipment, for the net Network optimizes antenna azimuth and the Downtilt described in the ginseng data point reuse of antenna work described in equipment utilization.

In above-mentioned monitoring terminal, the monitoring terminal further include: transmitted with the central processor unit, the data The power supply unit that unit and the data acquisition unit are communicatively coupled.

In above-mentioned monitoring terminal, the azimuth acquisition subelement includes: monitoring aerial；Wherein,

The monitoring aerial is steel disc onboard antenna.

In above-mentioned monitoring terminal, said supply unit carries out existing net from far-end RF module and takes electricity or the power supply single Member takes electricity from external power supply.

In above-mentioned monitoring terminal, the user identity identification unit is also used to receive updated data package, and described in utilization The process of updated data package progress system update.

The embodiment of the present invention provides a kind of monitoring method, is applied to monitoring terminal, and the monitoring terminal is used for monitoring base station The antenna work parameter evidence of antenna, which comprises

When collecting antenna primary data, the antenna primary data is handled, obtains the antenna work parameter According to；

By wireless communication mode by the antenna work parameter according to management system is sent to, for the management system The antenna work parameter evidence is managed.

In the above-mentioned methods, the antenna work parameter evidence includes antenna azimuth and Downtilt, described by the day Line primary data is handled, before obtaining the antenna work parameter evidence, the method also includes:

At the beginning of acquiring the antenna azimuth corresponding first using global positioning system or Chinese Beidou satellite navigation system Beginning data, first primary data are the corresponding primary data of antenna azimuth described in the antenna primary data；

Corresponding second primary data of the Downtilt is acquired using sensor, second primary data is described The corresponding primary data of Downtilt described in antenna primary data.

In the above-mentioned methods, described to handle the antenna primary data, the antenna work parameter is obtained after, The method also includes:

By the antenna work parameter according to network optimization equipment is sent to, so that the network optimization equipment utilizes the antenna Work joins antenna azimuth and the Downtilt described in data point reuse.

In the above-mentioned methods, when receiving updated data package by the wireless communication mode, using it is described more The process of new data packets progress system update.

The embodiment of the invention provides a kind of monitoring method and terminals, monitor terminal and are fixed on antenna for base station, and monitoring is eventually End is connect with management system, and monitoring terminal includes: data acquisition unit；The centre being communicatively coupled with data acquisition unit Manage device；The user identity identification unit being communicatively coupled with central processing unit；Wherein, data acquisition unit, for receiving day The data acquisition unit of line primary data, and antenna primary data is sent to central processing unit；Central processing unit, for handling Antenna primary data obtains antenna work parameter evidence, and antenna work parameter evidence is sent to user identity identification unit；User identity Recognition unit, for antenna work parameter evidence to be transmitted to management system.Using above-mentioned monitoring terminal implementation, monitoring terminal will Antenna work parameter according to management system is transmitted to by user identity identification unit, can support global system for mobile communications (GSM, Global System for Mobile Communication)/general packet radio service technology (GPRS, General Packet Radio Service), facilitate antenna work parameter according to each platform is synchronized to, enhances the compatibility of monitor terminal Property.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram one of monitor terminal provided in an embodiment of the present invention；

Fig. 2 is a kind of structural schematic diagram two of monitor terminal provided in an embodiment of the present invention；

Fig. 3 is a kind of structural schematic diagram three of monitor terminal provided in an embodiment of the present invention；

Fig. 4 is a kind of structural schematic diagram four of monitor terminal provided in an embodiment of the present invention；

Fig. 5 is a kind of structural schematic diagram five of monitor terminal provided in an embodiment of the present invention；

Fig. 6 is a kind of structural schematic diagram of illustrative monitor terminal provided in an embodiment of the present invention；

Fig. 7 is a kind of flow chart of monitoring method provided in an embodiment of the present invention.

Specific embodiment

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, below in conjunction with of the invention real The attached drawing in example is applied, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described implementation Example is only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, this field is common Technical staff's every other embodiment obtained without making creative work belongs to what the present invention protected Range.

Embodiment one

The embodiment of the invention provides a kind of monitoring terminal 1, the monitoring terminal 1 is fixed on antenna for base station 2, the prison It surveys terminal 1 to connect with management system 3, as shown in Figure 1, the monitoring terminal 1 includes:

Data acquisition unit 10；

The central processing unit 11 being communicatively coupled with the data acquisition unit 10；

The user identity identification unit 12 being communicatively coupled with the central processing unit 11；Wherein,

The data acquisition unit 10, for the data acquisition unit of receiving antenna primary data, and will be at the beginning of the antenna Beginning data are sent to central processing unit 11；

The central processing unit 11 obtains antenna work parameter evidence for handling the antenna primary data, and by the day Line work parameter evidence is sent to the user identity identification unit 12；

The user identity identification unit 12, for the antenna work parameter evidence to be transmitted to the management system 3.

In the embodiment of the present invention, monitoring terminal 1 is fixed on antenna for base station 2, smart according to carrying out to the work parameter of antenna for base station 2 Really monitoring, wherein work parameter is according to the parameters such as azimuth, angle of declination, longitude and latitude and the height above sea level for including antenna for base station, specific root It is selected according to actual conditions, the embodiment of the present invention does not do specific restriction.

In the embodiment of the present invention, monitoring terminal 1 utilizes 10 receiving antenna primary data of data acquisition unit, then in utilization Antenna primary data is processed into the work parameter evidence of antenna for base station by central processor (CPU, Central Processing Unit), Monitoring terminal 1 is managed antenna work parameter in platform according to OMC is sent to using user identity identification unit later.

In the embodiment of the present invention, management system 3 is that OMC is managed in platform.

In the embodiment of the present invention, user identity identification unit is subscriber identification card (SIM, Subscriber Identification Module) etc. can be used as the device of user identity identification, specifically selected according to the actual situation It selects, the embodiment of the present invention does not do specific restriction.

In the embodiment of the present invention, monitoring terminal 1 carries out second generation mobile communication technology using user identity identification unit and advises Lattice (2G, The 2nd Generation) communication or 3rd generation mobile communication technology (3G, The 3rd Generation) are logical Letter, is specifically selected, the embodiment of the present invention does not do specific restriction according to the actual situation.

Optionally, as shown in Fig. 2 and Fig. 1, the user identity identification unit 12 is embedded in the central processing unit 11, And/or the user identity identification unit 12 is placed outside in subscriber identification card slot.

Optionally, e-SIM mould group is embedded in CPU, or SIM card is inserted into sim card slot to carry out so that monitoring terminal Network communication is specifically selected according to the actual situation, and the embodiment of the present invention does not do specific restriction.

It is understood that monitoring terminal 1 is communicated in the inside and outside SIM that is respectively provided with of main control unit, improve Monitor the product compatibility of terminal 1.

Optionally, antenna work parameter is according to including antenna azimuth and Downtilt, as shown in figure 3, the data acquire Unit 10 includes: azimuth acquisition subelement 100 and angle of declination acquisition subelement 101；Wherein,

The azimuth acquires subelement 100, described for acquiring corresponding first primary data of the antenna azimuth First primary data is the corresponding primary data of antenna azimuth described in the antenna primary data；

The angle of declination acquires subelement 101, described for acquiring corresponding second primary data of the Downtilt Second primary data is the corresponding primary data of Downtilt described in the antenna primary data.

In the embodiment of the present invention, it is GPS/BDS module that azimuth, which acquires subelement,；It is sensor that angle of declination, which acquires subelement, Unit is specifically selected according to the actual situation, and the embodiment of the present invention does not do specific restriction.

Optionally, as shown in figure 4, the monitoring terminal 1 further include: be communicatively coupled with the central processing unit 11 Data transmission unit 13；

The central processor unit 11 is also used to the antenna work parameter evidence being sent to the data transmission unit；

The data transmission unit 13, for the antenna work parameter evidence to be sent to network optimization equipment, for described Network optimization equipment utilizes antenna azimuth and the Downtilt described in antenna work ginseng data point reuse.

In the embodiment of the present invention, data transmission unit 13 carries out communications using AISG interface.

In the embodiment of the present invention, the antenna work parameter evidence monitored is sent to network optimization equipment 4 in real time by monitoring terminal 1 In, so that network optimization equipment 4 when judging antenna work parameter according to changing, carries out the posture information of antenna for base station Adjustment.

In the embodiment of the present invention, antenna work parameter evidence can be directly sent in network optimization equipment 4 by monitoring terminal 1, Enable network optimization equipment 4 to get the posture information of antenna in real time, and make adjustment in time to the posture information of antenna, The coverage area of antenna for base station can be optimized and improve signal quality.

Optionally, as shown in figure 5, the monitoring terminal 1 further include: with the central processor unit 11, the data The power supply unit 14 that transmission unit 13 and the data acquisition unit 10 are communicatively coupled.

In the embodiment of the present invention, power supply unit 14 provides electric energy for each unit in monitoring terminal 1.

Optionally, the azimuth determination subelement 100 includes: monitoring aerial 1000；Wherein,

The monitoring aerial 1000 is steel disc onboard antenna.

It is understood that the antenna of the GPS of monitoring terminal is the design of steel disc onboard antenna, GPS antenna is based in phase The heart is that the short baseline of 25CM is designed, and reduces the volume of system, reduces the installation space of system, convenient and cellular antenna one Bodyization encapsulation factory or backrest Installation Modes, are adapted to more antenna for base station demands.

Optionally, said supply unit 14 carries out existing net from far-end RF module and takes electricity or said supply unit 14 from outer It connects power supply and takes electricity.

In the embodiment of the present invention, monitoring terminal 1 can directly be showed from RRU other than compatible external power supply takes electricity Net takes electricity, and said supply unit 14 can provide protective effect to circuit.

Optionally, the user identity identification unit 12 is also used to receive updated data package, and utilizes the more new data Packet carries out the process of system update.

In the embodiment of the present invention, when needing to be updated monitoring terminal, updated data package is received by SIM card, into Row aerial upgrade, so that transmission rate is much higher than serial ports transmission rate, greatly reduces original without carrying out wired upgrading Time required for AISG upgrades.

Illustratively, as shown in fig. 6, monitor terminal includes global positioning system, the CPU of built in user identification card, External subscriber identification card, sensor, data transmission module and power module, wherein COU knows with external user identity respectively Not Ka, sensor and data transmission module be attached, power module is also sensor, data transmission module and CPU provide electricity Source.

It is understood that monitoring terminal is by treated, antenna primary data passes through the first user identity identification subelement It is transmitted to management system, can support GSM/GPRS, facilitates antenna work parameter according to each platform is synchronized to, substantially increases prison The compatibility of control terminal.

Embodiment two

The embodiment of the present invention provides a kind of monitoring method, as shown in fig. 7, this method may include:

S101, using at the beginning of global positioning system or Chinese Beidou satellite navigation system acquisition antenna azimuth corresponding first Beginning data, the first primary data are the corresponding primary data of antenna azimuth in antenna primary data.

A kind of monitoring method provided in an embodiment of the present invention is suitable for obtaining the antenna work of antenna for base station using monitor terminal Under the scene of parameter evidence.

In the embodiment of the present invention, monitor terminal utilizes the accuracy of GPS/BDS track, realizes antenna azimuth corresponding the The high-acruracy survey of one primary data, it is entirely avoided magnetic disturbance.

In the embodiment of the present invention, monitor terminal uses two GPS/BDS satellite navigation and positioning modules, receives GPS antenna Radio frequency (RF, Radio Frequency) signal exports the original observation of stabilized carrier phase by module radio frequency and Base-Band Processing Amount, i.e. corresponding first primary data of antenna azimuth.

S102, corresponding second primary data of Downtilt is acquired using sensor, at the beginning of the second primary data is antenna The corresponding primary data of Downtilt in beginning data.

When monitor terminal is corresponding using global positioning system or Chinese Beidou satellite navigation system acquisition antenna azimuth After first primary data, monitor terminal will utilize corresponding second primary data of sensor acquisition Downtilt.

In the embodiment of the present invention, monitor terminal realizes the precise measurement of the second primary data using sensor.

In the embodiment of the present invention, sensor carries out the standard of the second primary data using 6 axis gyroscopes and acceleration transducer Really detection, wherein monitor terminal can use sensor and get the directional information and antenna for base station that antenna for base station is presently in Corresponding second primary data of the size of the power generated during the motion, i.e. Downtilt.

S103, when collecting antenna primary data, antenna primary data is handled, antenna work parameter evidence is obtained.

After monitor terminal collects the first primary data and the second primary data, monitor terminal will be initial by antenna Data are handled, and antenna work parameter evidence is obtained.

In the embodiment of the present invention, monitor terminal handles antenna primary data using CPU, and it is corresponding to obtain antenna primary data Antenna work parameter evidence.

In the embodiment of the present invention, antenna work parameter describes antenna attitude letter according to including antenna azimuth and Downtilt etc. The data of breath, are specifically selected according to the actual situation, and the embodiment of the present invention does not do specific restriction.

In the embodiment of the present invention, CPU is based on GPS carrier phase difference directional technology (RTK, Real Time Kinematic), by carrying out resolving processing to the first primary data, the real-time of azimuth detection and asking for accuracy are solved Topic；The size of the power generated in the directional information of antenna for base station and motion process is carried out resolving processing by CPU, is obtained under antenna Obliquity information.

In the embodiment of the present invention, monitor terminal is by using positioning system to the antenna work parameter of antenna for base station according to surveying Amount, it is ensured that azimuthal error of antenna for base station is ± 5 °, and the angle error that has a down dip is ± 1 °, and height above sea level error is ± 10 meters, warp Latitude error is meter level.

S104, antenna work parameter evidence is sent to by management system by wireless communication mode, for management system pair Antenna work parameter evidence is managed.

When monitor terminal obtain the corresponding antenna work parameter of antenna primary data according to after, monitor terminal will be by wireless Antenna work parameter evidence is sent to management system by network communication mode.

In the embodiment of the present invention, due to being provided with SIM card on monitor terminal, therefore monitor terminal can be logical by wireless network Antenna work parameter evidence is sent to OMC management system by the mode of letter.

In the embodiment of the present invention, monitor terminal can will be embedded on the CPU of monitor terminal in SIM, SIM card can also be inserted Enter in sim card slot, the specific location information of SIM card is selected according to the actual situation, and the embodiment of the present invention does not do specific limit It is fixed.

It is understood that not having to be advised by coffret by the synchronous antenna work parameter evidence of wireless communication mode The limitation of lattice can substantially increase the compatibility of monitor terminal by antenna work parameter according to different management systems is synchronized to.

S105, antenna work parameter evidence is sent to network optimization equipment, so that network optimization equipment utilizes antenna work parameter According to adjustment antenna azimuth and Downtilt.

When monitor terminal obtain the corresponding antenna work parameter of antenna primary data according to after, monitor terminal will be by antenna work Parameter is according to network optimization equipment is sent to, so that network optimization equipment utilizes antenna work ginseng data point reuse antenna azimuth and antenna Angle of declination.

In the embodiment of the present invention, monitor terminal by antenna work parameter factually when be sent to network optimization equipment, the network optimization Antenna work parameter is compared by equipment according to antenna work parameter evidence before, when network optimization equipment judges antenna work parameter When according to changing, network optimization equipment by AISG standard interface to the antenna azimuth of antenna for base station and Downtilt into Row adjustment, can optimize the coverage area and signal quality of antenna for base station.

Further, network optimization equipment can also manage platform from OMC and obtain antenna work parameter evidence, specifically according to reality Border situation is selected, and the embodiment of the present invention does not do specific restriction.

S104 and S105 is two steps arranged side by side after S103, and specifically selection executes according to the actual situation, this hair Bright embodiment does not do specific restriction.

Further, during monitoring terminal operating, when monitoring terminal is received by wireless communication mode When to updated data package, monitoring terminal using updated data package progress system update process.

It is understood that transmitting speed record much when monitoring terminal carries out system upgrade by wireless communication mode Greater than serial ports transmission rate, the time needed for original AISG upgrading can be reduced significantly.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any In the technical scope disclosed by the present invention, any changes or substitutions that can be easily thought of by those familiar with the art, all answers It is included within the scope of the present invention.Therefore, protection scope of the present invention should be with the scope of protection of the claims It is quasi-.

Claims (12)

1. a kind of monitoring terminal, the monitoring terminal is fixed on antenna for base station, and the monitoring terminal is connect with management system, It is characterized in that, the monitoring terminal includes:

Data acquisition unit；

The central processing unit being communicatively coupled with the data acquisition unit；

The user identity identification unit being communicatively coupled with the central processing unit；Wherein,

The data acquisition unit, for the data acquisition unit of receiving antenna primary data, and by the antenna primary data It is sent to central processing unit；

The central processing unit obtains antenna work parameter evidence, and the antenna work is joined for handling the antenna primary data Data are sent to the user identity identification unit；

The user identity identification unit, for the antenna work parameter evidence to be transmitted to the management system.

2. monitoring terminal according to claim 1, which is characterized in that

The user identity identification unit is embedded in the central processing unit and/or the user identity identification unit is external In subscriber identification card slot.

3. monitoring terminal according to claim 1, which is characterized in that the antenna work parameter according to include antenna azimuth and Downtilt, the data acquisition unit include: azimuth acquisition subelement and angle of declination acquisition subelement；Wherein,

The azimuth acquires subelement, for acquiring corresponding first primary data of the antenna azimuth, at the beginning of described first Beginning data are the corresponding primary data of antenna azimuth described in the antenna primary data；

The angle of declination acquires subelement, for acquiring corresponding second primary data of the Downtilt, at the beginning of described second Beginning data are the corresponding primary data of Downtilt described in the antenna primary data.

4. monitoring terminal according to claim 1, which is characterized in that the monitoring terminal further include: with the centre The data transmission unit that reason device unit is communicatively coupled；Wherein,

The central processor unit is also used to the antenna work parameter evidence being sent to the data transmission unit；

The data transmission unit, for the antenna work parameter evidence to be sent to network optimization equipment, so that the network is excellent Change antenna azimuth and the Downtilt described in the ginseng data point reuse of antenna work described in equipment utilization.

5. monitoring terminal according to claim 4, which is characterized in that the monitoring terminal further include: with the centre The power supply unit that reason device unit, the data transmission unit and the data acquisition unit are communicatively coupled.

6. monitoring terminal according to claim 3, which is characterized in that the azimuth acquisition subelement includes: monitoring day Line；Wherein,

The monitoring aerial is steel disc onboard antenna.

7. monitoring terminal according to claim 5, which is characterized in that said supply unit is showed from far-end RF module Net takes electricity or said supply unit to take electricity from external power supply.

8. monitoring terminal according to claim 1, which is characterized in that

The user identity identification unit is also used to receive updated data package, and carries out system more using the updated data package New process.

9. a kind of monitoring method is applied to monitoring terminal, the monitoring terminal is used for the antenna work parameter evidence of monitoring base station antenna, It is characterized in that, which comprises

When collecting antenna primary data, the antenna primary data is handled, obtains the antenna work parameter evidence；

By wireless communication mode by the antenna work parameter according to management system is sent to, so that the management system is to institute Antenna work parameter evidence is stated to be managed.

10. according to the method described in claim 9, it is characterized in that, the antenna work parameter is according to including antenna azimuth and day Line angle of declination, described to handle the antenna primary data, before obtaining the antenna work parameter evidence, the method is also wrapped It includes:

Corresponding first initial number of the antenna azimuth is acquired using global positioning system or Chinese Beidou satellite navigation system According to first primary data is the corresponding primary data of antenna azimuth described in the antenna primary data；

Corresponding second primary data of the Downtilt is acquired using sensor, second primary data is the antenna The corresponding primary data of Downtilt described in primary data.

11. according to the method described in claim 9, obtaining it is characterized in that, described handle the antenna primary data After the antenna work parameter evidence, the method also includes:

By the antenna work parameter according to network optimization equipment is sent to, so that the network optimization equipment is joined using the antenna work Antenna azimuth described in data point reuse and the Downtilt.

12. according to the described in any item methods of claim 9-11, which is characterized in that the method also includes:

When receiving updated data package by the wireless communication mode, system is carried out more using the updated data package New process.