Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.
Fig. 1 is a schematic diagram of a configuration method of a motor serial number of a remote control unit according to an embodiment of the present invention, and as shown in fig. 1, an embodiment of the present invention provides a configuration method of a motor serial number of a remote control unit, where an execution main body of the configuration method is a configuration device of a motor serial number of a remote control unit, and the method includes:
step S101, obtaining antenna port serial number information, wherein the antenna port serial number information comprises an antenna port serial number corresponding to each physical port of an antenna;
step S102, if the antenna port serial number corresponding to the target physical port is judged to be different from the antenna port serial number in the serial number of the target motor, updating the antenna port serial number in the serial number of the target motor, wherein the target physical port and the target motor are physically corresponding to each other.
Specifically, first, antenna port number information is obtained, where the antenna port number information includes an antenna port number corresponding to each physical port of an antenna.
The antenna port number corresponds to the frequency band of one sub-antenna.
For example, in the LTE system, the antenna port number is used to distinguish resources on the space. The definition of the antenna port number is defined from the perspective of the receiver, that is, if the receiver needs to distinguish the difference of the resources in space, a plurality of antenna port numbers need to be defined. The antenna port numbers do not have a one-to-one correspondence with the actual physical (antenna) ports.
At present, the LTE uplink only supports transmission of a single radio frequency link, and there is no need to distinguish resources on the space, so the concept of antenna port has not been introduced in the uplink.
Three types of antenna ports are defined in LTE downlink and correspond to antenna port serial numbers of 0-5 respectively. The serial number of the special reference signal transmission antenna port for the cell is 0-3. The sequence number of the MBSFN reference signal transmission antenna port is 4. The serial number of the terminal-specific reference signal transmission antenna port is 5.
In the optimization process, the electrical downtilt of the sub-antenna with different antenna port serial numbers in the same antenna needs to be adjusted.
After the antenna port number information is obtained, it is necessary to determine whether the antenna port number corresponding to the target physical port is the same as the antenna port number in the serial number of the target motor.
After the antenna leaves the factory, the arrangement sequence of the physical ports of the antenna, and the serial number and frequency band of the antenna port corresponding to each physical port are fixed. However, the physical ports may be arranged in different orders among different antennas.
For example, in an antenna a manufactured by an antenna manufacturer, the serial number of an antenna port corresponding to a physical port labeled as B1 on an antenna panel is set to 0, the used frequency band is 1710-.
In the antenna B produced by the antenna manufacturer, the serial number of the antenna port corresponding to the physical port labeled as B1 on the antenna panel is set to 2, the used frequency band is 1710-2025MHz, the serial number of the antenna port corresponding to the physical port labeled as B2 is set to 1, the used frequency band is 1710-2170MHz, the serial number of the antenna port corresponding to the physical port labeled as R1 is set to 0, and the used frequency band is 880-960 MHz.
When the remote control unit is installed, a motor in the remote control unit is in one-to-one correspondence with a physical port physically, and the electrical downtilt angle of each sub-antenna in the same antenna can be correctly adjusted only when the antenna port serial number identified in the serial number of the motor is the same as the antenna port serial number corresponding to the physical port.
For example, in the above example, if the serial number of the antenna port corresponding to the serial number of the first motor in the remote control unit is 0, the serial number of the antenna port corresponding to the serial number of the second motor is 1, and the serial number of the antenna port corresponding to the serial number of the third motor is 2, when the remote control unit is installed on the antenna a manufactured by an antenna manufacturer, the first motor and the physical port labeled as B1 on the antenna panel physically correspond to each other, the second motor and the physical port labeled as B2 on the antenna panel physically correspond to each other, and the third motor and the physical port labeled as R1 on the antenna panel physically correspond to each other. And the serial number of the antenna port corresponding to each physical port is the same as that of the serial number of the antenna port in the serial number of the corresponding motor, so that the electrical downtilt of the antenna A produced by an antenna manufacturer can be correctly adjusted through a remote network management center.
However, if the same remote control unit is selected and installed in the same installation on antenna B produced by the antenna manufacturer, the physical port labeled B1 on the panel of the first motor and antenna physically corresponds to each other, the physical port labeled B2 on the panel of the second motor and antenna physically corresponds to each other, and the physical port labeled R1 on the panel of the third motor and antenna physically corresponds to each other. For the physical port labeled B2, the antenna port serial number corresponding to the physical port labeled B2 is the same as the antenna port serial number identified in the second motor serial number, but for the physical port labeled B1, the antenna port serial number corresponding to the physical port labeled B1 is not the same as the antenna port serial number identified in the first motor serial number, and the antenna port serial number corresponding to the physical port labeled R1 is not the same as the antenna port serial number identified in the third motor serial number. At this time, when the electrical downtilt of the antenna b produced by the antenna manufacturer is adjusted through the remote network management center, an error occurs.
In the embodiment of the invention, after the antenna port serial number information is acquired, if the antenna port serial number corresponding to the target physical port is judged to be different from the antenna port serial number in the serial number of the target motor, the antenna port serial number in the serial number of the target motor is updated.
For example, in the above example, for the remote control unit installed on the antenna B produced by the antenna manufacturer, the antenna port number corresponding to the physical port labeled B1 is different from the antenna port number identified in the first motor serial number, and at this time, the antenna port number in the first motor serial number needs to be updated. The antenna port number corresponding to the physical port labeled as R1 is different from the antenna port number identified in the motor serial number three, and at this time, the antenna port number in the motor serial number three also needs to be updated.
After updating, the electrical downtilt of the antenna can be correctly adjusted through a remote network management center.
The embodiment of the invention provides a motor serial number configuration method of a remote control unit, which is characterized in that antenna port serial number information is issued to the remote control unit, the remote control unit automatically completes the update and configuration of the motor serial number according to the antenna port serial number information, the remote control unit does not need to be reconfigured or replaced on site, the optimization efficiency is improved, and the maintenance cost is saved.
On the basis of the foregoing embodiment, further, before the obtaining of the antenna port serial number information, the method further includes:
acquiring an antenna parameter configuration file issued by a network management center;
and analyzing the serial number information of the antenna port from the antenna parameter configuration file.
Specifically, after the fact that the electrical downtilt of the antenna cannot be correctly adjusted through the remote network management center is found, the network management center issues a parameter configuration command to the remote control unit, and issues an antenna parameter configuration file to the remote control unit.
The remote control unit obtains the antenna parameter configuration file issued by the network management center through the communication module of the remote control unit. Then, antenna port serial number information is analyzed from the antenna parameter configuration file, and the antenna port serial number information includes an antenna port serial number corresponding to each physical port of the antenna.
And then, configuring the serial number of the motor in the remote control unit according to the serial number information of the antenna port.
The embodiment of the invention provides a motor serial number configuration method of a remote control unit, which is characterized in that antenna port serial number information is issued to the remote control unit, the remote control unit automatically completes the update and configuration of the motor serial number according to the antenna port serial number information, the remote control unit does not need to be reconfigured or replaced on site, the optimization efficiency is improved, and the maintenance cost is saved.
On the basis of the foregoing embodiments, further, the updating the antenna port serial number in the serial number of the target motor specifically includes:
and replacing the antenna port serial number in the serial number of the target motor by the antenna port serial number corresponding to the target physical port.
Specifically, after the antenna port number information is acquired, if it is determined that the antenna port number corresponding to the target physical port is different from the antenna port number in the serial number of the target motor, the antenna port number in the serial number of the target motor is updated.
The specific mode of updating the antenna port serial number in the serial number of the target motor is as follows: and replacing the antenna port serial number in the serial number of the target motor by the antenna port serial number corresponding to the target physical port.
For example, in the above example of the embodiment, for the remote control unit installed on the antenna B manufactured by the antenna manufacturer, the antenna port number corresponding to the physical port labeled B1 is different from the antenna port number identified in the serial number of the motor number one, and at this time, the antenna port number 2 corresponding to the physical port labeled B1 needs to be used to replace the antenna port number 0 identified in the serial number of the motor number one.
The antenna port number corresponding to the physical port labeled R1 is different from the antenna port number identified in the motor serial number three, and at this time, the antenna port number 0 corresponding to the physical port labeled R1 needs to be used to replace the antenna port number 2 identified in the motor serial number three.
In the updating process, only the antenna port serial number in the motor serial number is replaced, serial number information in the motor serial number is not changed, uniqueness of the motor serial number is ensured, and scanning failure of a network management center is avoided.
After updating, the electrical downtilt of the antenna can be correctly adjusted through a remote network management center.
The embodiment of the invention provides a motor serial number configuration method of a remote control unit, which is characterized in that antenna port serial number information is issued to the remote control unit, the remote control unit automatically completes the update and configuration of the motor serial number according to the antenna port serial number information, the remote control unit does not need to be reconfigured or replaced on site, the optimization efficiency is improved, and the maintenance cost is saved.
On the basis of the foregoing embodiments, further after the updating the antenna port serial number in the serial number of the target motor, the method further includes:
the remote control unit is restarted.
Specifically, after the antenna port number information is acquired, if it is determined that the antenna port number corresponding to the target physical port is different from the antenna port number in the serial number of the target motor, the antenna port number in the serial number of the target motor is updated.
After updating, the communication link of the network management center is disconnected, the remote control unit is restarted, the network management center waits for rescanning, and the connection with the remote control unit is established again.
After reconnection, the electrical downtilt of the antenna can be correctly adjusted through a remote network management center.
The embodiment of the invention provides a motor serial number configuration method of a remote control unit, which is characterized in that antenna port serial number information is issued to the remote control unit, the remote control unit automatically completes the update and configuration of the motor serial number according to the antenna port serial number information, the remote control unit does not need to be reconfigured or replaced on site, the optimization efficiency is improved, and the maintenance cost is saved.
On the basis of the foregoing embodiments, further before the analyzing the antenna port sequence number information from the antenna parameter configuration file, the method further includes:
verifying the antenna parameter configuration file;
and if the verification is judged to be passed, sending ACK information to the network management center.
Specifically, when the remote control unit receives a data frame of an antenna parameter configuration file issued by a network management center, the remote control unit verifies the received data frame.
If the verification fails, the data frame is directly discarded, and the network management center is not responded.
If the verification is judged to be passed, ACK information is sent to the network management center to answer the network management center.
The embodiment of the invention provides a motor serial number configuration method of a remote control unit, which is characterized in that antenna port serial number information is issued to the remote control unit, the remote control unit automatically completes the update and configuration of the motor serial number according to the antenna port serial number information, the remote control unit does not need to be reconfigured or replaced on site, the optimization efficiency is improved, and the maintenance cost is saved.
On the basis of the foregoing embodiments, further, the acquiring an antenna parameter configuration file delivered by a network management center specifically includes:
and acquiring the antenna parameter configuration file issued by the network management center according to an AISG protocol.
Specifically, the network management center issues a parameter configuration command to the remote control unit according to the AISG protocol, and issues an antenna parameter configuration file group data frame to the remote control unit.
And the remote control unit acquires an antenna parameter configuration file issued by the network management center according to the AISG protocol.
Wherein, the antenna parameter configuration file comprises: CRC32 verification, file length, file name, manufacturer name, antenna model, release date, maximum inclination angle, minimum inclination angle, beam width, antenna gain, scale length, motor position number, and antenna port serial number.
The data frame includes: frame header, address, receiving and transmitting serial number, command number, data length, data, CRC check and frame tail.
The embodiment of the invention provides a motor serial number configuration method of a remote control unit, which is characterized in that antenna port serial number information is issued to the remote control unit, the remote control unit automatically completes the update and configuration of the motor serial number according to the antenna port serial number information, the remote control unit does not need to be reconfigured or replaced on site, the optimization efficiency is improved, and the maintenance cost is saved.
On the basis of the above embodiments, further, after the obtaining the antenna parameter configuration file issued by the network management center, the method further includes:
and storing the antenna parameter configuration file.
Specifically, after the fact that the electrical downtilt of the antenna cannot be correctly adjusted through the remote network management center is found, the network management center issues a parameter configuration command to the remote control unit, and issues an antenna parameter configuration file to the remote control unit.
The remote control unit stores the antenna parameter configuration file into a storage module after receiving the data frame of the antenna parameter configuration file issued by the network management center.
Then, antenna port serial number information is analyzed from the antenna parameter configuration file, and the antenna port serial number information includes an antenna port serial number corresponding to each physical port of the antenna.
And finally, configuring the serial number of the motor in the remote control unit according to the serial number information of the antenna port.
The embodiment of the invention provides a motor serial number configuration method of a remote control unit, which is characterized in that antenna port serial number information is issued to the remote control unit, the remote control unit automatically completes the update and configuration of the motor serial number according to the antenna port serial number information, the remote control unit does not need to be reconfigured or replaced on site, the optimization efficiency is improved, and the maintenance cost is saved.
Fig. 2 is a schematic view of a motor serial number configuration device of a remote control unit according to an embodiment of the present invention, and as shown in fig. 2, an embodiment of the present invention provides a motor serial number configuration device of a remote control unit, which is configured to execute a method described in any of the foregoing embodiments, and specifically includes an obtaining module 201 and a configuring module 202, where:
the obtaining module 201 is configured to obtain antenna port serial number information, where the antenna port serial number information includes an antenna port serial number corresponding to each physical port of an antenna; the configuration module 202 is configured to update an antenna port serial number in a serial number of a target motor if it is determined that an antenna port serial number corresponding to a target physical port is different from an antenna port serial number in the serial number of the target motor, where the target physical port and the target motor are physically corresponding to each other.
Specifically, first, the obtaining module 201 obtains antenna port serial number information, where the antenna port serial number information includes an antenna port serial number corresponding to each physical port of an antenna.
The antenna port number corresponds to the frequency band of one sub-antenna.
For example, in the LTE system, the antenna port number is used to distinguish resources on the space. The definition of the antenna port number is defined from the perspective of the receiver, that is, if the receiver needs to distinguish the difference of the resources in space, a plurality of antenna port numbers need to be defined. The antenna port numbers do not have a one-to-one correspondence with the actual physical (antenna) ports.
At present, the LTE uplink only supports transmission of a single radio frequency link, and there is no need to distinguish resources on the space, so the concept of antenna port has not been introduced in the uplink.
Three types of antenna ports are defined in LTE downlink and correspond to antenna port serial numbers of 0-5 respectively. The serial number of the special reference signal transmission antenna port for the cell is 0-3. The sequence number of the MBSFN reference signal transmission antenna port is 4. The serial number of the terminal-specific reference signal transmission antenna port is 5.
In the optimization process, the electrical downtilt of the sub-antenna with different antenna port serial numbers in the same antenna needs to be adjusted.
After the antenna port number information is obtained, it is necessary to determine whether the antenna port number corresponding to the target physical port is the same as the antenna port number in the serial number of the target motor.
After the antenna leaves the factory, the arrangement sequence of the physical ports of the antenna, and the serial number and frequency band of the antenna port corresponding to each physical port are fixed. However, the physical ports may be arranged in different orders among different antennas.
For example, in an antenna a manufactured by an antenna manufacturer, the serial number of an antenna port corresponding to a physical port labeled as B1 on an antenna panel is set to 0, the used frequency band is 1710-.
In the antenna B produced by the antenna manufacturer, the serial number of the antenna port corresponding to the physical port labeled as B1 on the antenna panel is set to 2, the used frequency band is 1710-2025MHz, the serial number of the antenna port corresponding to the physical port labeled as B2 is set to 1, the used frequency band is 1710-2170MHz, the serial number of the antenna port corresponding to the physical port labeled as R1 is set to 0, and the used frequency band is 880-960 MHz.
When the remote control unit is installed, a motor in the remote control unit is in one-to-one correspondence with a physical port physically, and the electrical downtilt angle of each sub-antenna in the same antenna can be correctly adjusted only when the antenna port serial number identified in the serial number of the motor is the same as the antenna port serial number corresponding to the physical port.
For example, in the above example, if the serial number of the antenna port corresponding to the serial number of the first motor in the remote control unit is 0, the serial number of the antenna port corresponding to the serial number of the second motor is 1, and the serial number of the antenna port corresponding to the serial number of the third motor is 2, when the remote control unit is installed on the antenna a manufactured by an antenna manufacturer, the first motor and the physical port labeled as B1 on the antenna panel physically correspond to each other, the second motor and the physical port labeled as B2 on the antenna panel physically correspond to each other, and the third motor and the physical port labeled as R1 on the antenna panel physically correspond to each other. And the serial number of the antenna port corresponding to each physical port is the same as that of the serial number of the antenna port in the serial number of the corresponding motor, so that the electrical downtilt of the antenna A produced by an antenna manufacturer can be correctly adjusted through a remote network management center.
However, if the same remote control unit is selected and installed in the same installation on antenna B produced by the antenna manufacturer, the physical port labeled B1 on the panel of the first motor and antenna physically corresponds to each other, the physical port labeled B2 on the panel of the second motor and antenna physically corresponds to each other, and the physical port labeled R1 on the panel of the third motor and antenna physically corresponds to each other. For the physical port labeled B2, the antenna port serial number corresponding to the physical port labeled B2 is the same as the antenna port serial number identified in the second motor serial number, but for the physical port labeled B1, the antenna port serial number corresponding to the physical port labeled B1 is not the same as the antenna port serial number identified in the first motor serial number, and the antenna port serial number corresponding to the physical port labeled R1 is not the same as the antenna port serial number identified in the third motor serial number. At this time, when the electrical downtilt of the antenna b produced by the antenna manufacturer is adjusted through the remote network management center, an error occurs.
In the embodiment of the present invention, after the antenna port number information is obtained, if it is determined that the antenna port number corresponding to the target physical port is different from the antenna port number in the serial number of the target motor, the configuration module 202 updates the antenna port number in the serial number of the target motor.
For example, in the above example, for the remote control unit installed on the antenna B produced by the antenna manufacturer, the antenna port number corresponding to the physical port labeled B1 is different from the antenna port number identified in the first motor serial number, and at this time, the antenna port number in the first motor serial number needs to be updated.
The antenna port number corresponding to the physical port labeled as R1 is different from the antenna port number identified in the motor serial number three, and at this time, the antenna port number in the motor serial number three also needs to be updated.
After updating, the electrical downtilt of the antenna can be correctly adjusted through a remote network management center.
The embodiment of the invention provides a motor serial number configuration device of a remote control unit, which is characterized in that antenna port serial number information is issued to the remote control unit, the remote control unit automatically completes the update and configuration of a motor serial number according to the antenna port serial number information, the remote control unit does not need to be reconfigured or replaced on site, the optimization efficiency is improved, and the maintenance cost is saved.
Fig. 3 is a schematic structural diagram of an electronic device according to an embodiment of the present invention, and as shown in fig. 3, the electronic device includes: a processor (processor)301, a memory (memory)302, and a bus 303;
the processor 301 and the memory 302 complete communication with each other through the bus 303;
processor 301 is configured to call program instructions in memory 302 to perform the methods provided by the various method embodiments described above, including, for example:
acquiring antenna port serial number information, wherein the antenna port serial number information comprises an antenna port serial number corresponding to each physical port of an antenna;
and if the antenna port serial number corresponding to the target physical port is judged and obtained to be different from the antenna port serial number in the serial number of the target motor, updating the antenna port serial number in the serial number of the target motor, wherein the target physical port and the target motor are physically corresponding to each other.
In addition, the logic instructions in the memory may be implemented in the form of software functional units and may be stored in a computer readable storage medium when sold or used as a stand-alone product. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.
Embodiments of the present invention provide a computer program product comprising a computer program stored on a non-transitory computer-readable storage medium, the computer program comprising program instructions that, when executed by a computer, enable the computer to perform the methods provided by the above-mentioned method embodiments, for example, including:
acquiring antenna port serial number information, wherein the antenna port serial number information comprises an antenna port serial number corresponding to each physical port of an antenna;
and if the antenna port serial number corresponding to the target physical port is judged and obtained to be different from the antenna port serial number in the serial number of the target motor, updating the antenna port serial number in the serial number of the target motor, wherein the target physical port and the target motor are physically corresponding to each other.
Embodiments of the present invention provide a non-transitory computer-readable storage medium, which stores computer instructions, where the computer instructions cause the computer to perform the methods provided by the above method embodiments, for example, the methods include:
acquiring antenna port serial number information, wherein the antenna port serial number information comprises an antenna port serial number corresponding to each physical port of an antenna;
and if the antenna port serial number corresponding to the target physical port is judged and obtained to be different from the antenna port serial number in the serial number of the target motor, updating the antenna port serial number in the serial number of the target motor, wherein the target physical port and the target motor are physically corresponding to each other.
The above-described embodiments of the apparatuses and devices are merely illustrative, where the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.
Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.
Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.