KR101297840B1 - Control device and control system for antenna of base station - Google Patents

Abstract

PURPOSE: A portable mobile communication base station antenna control device and a control system using the same are provided to adjust an installation angle of an antenna and check the RF characteristics of a cable and the antenna when a base station is installed by using one portable device. CONSTITUTION: A portable mobile communication base station antenna control device includes a communication device part (30) which transmits an antenna parameter corresponding to work instructions by receiving the work constructions; an input and display part (90) which displays the work instructions and receives a command of a worker; a test device part (60) which tests RF characteristics by connecting base station equipment; a camera part (80) which photographs that an azimuth and a vertical inclination angle are changed according to the transmission of the antenna parameter; a memory device part (50) which stores a photographed image of the camera part; and a control part (10) which controls the communication device part, the input and display part, the test device part, the camera part, and the memory device part. The work instructions include coordinate information of a base station. The control part displays the work instructions when the current position confirmed in a GPS part is identical to the coordinate information of the work instructions. [Reference numerals] (10) Control part; (20) GPS part; (30) Communication device part; (31) Data communication part; (32) Short-range wireless communication part; (33) Wired communication part; (34) Voice communication part; (40) Power supply part; (50) Memory device part; (51) RAM; (52) Flash memory; (53) Memory card; (60) Test device part; (61) RF transmission part; (62) RF determination part; (63) Determination part; (70) I/O port part; (80) Camera part; (90) Input and display part; (AA) Headset port; (BB) USB port

Description

Portable mobile communication base station antenna control device and control system using same {Control device and control system for antenna of base station}

The present invention relates to a portable mobile communication base station antenna control device and a control system using the same, and more particularly, a portable mobile communication base station antenna control device that is easy to carry and can facilitate the initial installation and maintenance of the antenna and the same It relates to a control system used.

In general, a mobile communication system is composed of a mobile switching center (MSC), a base station (BSC), a mobile station (MS), and the like. One switching station manages a plurality of control stations, and one control station is configured to manage a plurality of base stations. The mobile station in such a mobile communication system is within an arbitrary base station range, and the information transmitted from the mobile station is transmitted to the switching station via a base station for high frequency signal processing and call processing and a control station controlling the base station. Is done.

The base station uses a plurality of antennas for transmission and reception in common, and the base station equipment and the plurality of antennas are located on a pylon erected on the roof of a building.

A base station is a basic unit of a mobile communication network in order to enable mobile communication in a given area. In other words, because it must be installed in the mountains, deserts, islands, etc., it is very difficult for the operator to check each base station while traveling.

In particular, it is necessary to carry the equipment to check the equipment of the base station, and in order to adjust the vertical or horizontal azimuth angle of the antenna installed in a high position such as a steel tower, the operator has to go up to the position of the antenna directly, It takes a lot, and there is always a risk of a safety accident.

When the base station is installed, the antenna is installed in preference to other facilities of the base station. This is because an antenna is installed at the same time as the installation of the steel tower, or because the installation position of the antenna is high, heavy equipment must be mobilized. At this time, the equipment that checks the abnormality of the RF (Radio Frequency) cable connecting the antenna and the base station equipment or the characteristics of the antenna of the antenna should be transported to the base station, and the equipment should be checked for abnormality of the cable or antenna.

That is, there is a problem that the operation is not easy because the number of equipment to be carried by the worker is large and bulky and heavy. In addition, after connecting each equipment and verifying the characteristics, there was a problem that takes a lot of time, such as having to separate each equipment.

In view of these problems, the base station antenna has recently been changed from a beam fixed type to a beam variable type, and a structure capable of controlling angles in the vertical and horizontal directions and varying the beam width has been developed. In order to perform the vertical and horizontal adjustment of the base station antenna, techniques for remotely controlling the antenna of the base station have been proposed.

Korean Patent Laid-Open Publication No. 2003-0047399 adds a control mobile communication terminal to each base station, and transmits control parameters to the control mobile communication terminal by using an antenna parameter determiner that transmits antenna control parameters to the mobile communication terminal. Techniques for controlling the direction and tilt angle of the antenna by the control unit have been described.

That is, a mobile communication terminal is installed at each base station and an antenna parameter is transmitted to a mobile communication terminal installed in the base station through a communication network to adjust the azimuth and tilt angles of the antenna.

Although not specifically described in the above patents, the operator can remotely control the antenna through communication with the mobile communication terminal of each base station, or can move the antenna without moving to the base station to control the antenna Technology.

When the operator remotely transmits antenna parameters to the mobile terminal using a laptop, it is not easy to check whether the azimuth and vertical inclination angles of the actual antennas are adjusted. You must go to the field where you are.

Alternatively, while the worker carries the devices for checking the equipment of the notebook and the base station to move to the base station, the antenna can be controlled by transmitting the antenna parameters to the mobile communication terminal of the base station, but many base stations It takes a lot of time to turn the notebook on and off when traveling, it is difficult to use the notebook outdoors in rainy weather, and it is necessary to carry notebooks and test devices with the exception of not having to climb the pylon to adjust the antenna. Has the same problem as the conventional method.

In this way, when the base station is installed and checked, the operator should receive information such as the installation location, installation method, antenna operating parameters, and antenna installation angle from the base station operator. In addition, the inclination angle of the vertical direction can be installed differently from the order contents, even if the installation is not made correctly, the base station operating subject was very difficult to confirm this problem.

The same applies to the maintenance of the base station. For example, even if the operator is instructed to perform a maintenance operation that rotates the antenna angle of a particular base station 3 degrees to the left, but the operator makes a mistake of rotating the antenna angle 3 degrees to the right, the base station operator may verify that the maintenance operation is performed normally. no method.

In addition, the worker has to return to the office to organize the work and report it to the base station operator, and the work load of the worker is high.If the number of base stations that have been installed or maintained is confusing, the operator may confuse the work or enter an incorrect base station number. There is a possibility of making a mistake.

In this way, the operator should check the work, perform the work accordingly, and finally report to the base station operator that the work has been performed, but mistakes can occur in the flow of this process, and the work is very time-consuming. There was a problem.

The problem to be solved by the present invention in consideration of the above problems, the portable mobile communication base station that can determine the RF characteristics of the cable and antenna, the adjustment of the installation angle of the antenna when installing the base station using a single portable device An antenna controller and a control system using the same are provided.

In addition, another problem to be solved by the present invention, the operator can easily recognize the necessary work content, and when the base station work is completed, the portable mobile communication base station antenna control device and control using the same can automatically check the base station and the work content In providing a system.

According to an aspect of the present invention, there is provided a portable mobile communication base station antenna control apparatus for receiving a work instruction and transmitting an antenna parameter corresponding to the work instruction, and displaying the work instruction. An input and display unit for receiving an operator's command, a test unit for connecting the equipment of the base station to test the RF characteristics, and photographing that the azimuth and the vertical inclination angle are changed according to the transmission of the antenna parameters. A camera unit to transmit, a work instruction, an operator's command, a test result of the test device unit, a memory device unit to store a captured image of the camera unit, the communication device unit, the input and display unit, the test device unit, And a controller for controlling the camera unit and the memory device unit.

In addition, the present invention, the portable mobile communication base station antenna control system, the portable mobile communication base station antenna control device and the operation instruction is transmitted to the portable mobile communication base station antenna control device, the operation proceeds from the portable mobile communication base station antenna control device Receiving and storing the information, the base station operating server for automatically managing the work history of the base station, and the base station device unit for receiving the antenna parameters from the portable mobile communication base station antenna controller to adjust the azimuth and vertical tilt angle of the antenna Include.

The present invention is a portable mobile communication base station antenna control device and a control system using the same, the antenna is used to control the azimuth and vertical inclination angle of the antenna during the initial installation and maintenance of the base station by using a single portable control device By configuring so as to check the RF characteristics of the RF cable and the antenna characteristics of the antenna connecting the base station equipment, there is an effect that can increase the efficiency of work by reducing the volume and weight of equipment to be carried.

In addition, the present invention portable mobile communication base station antenna control device and a control system using the same, the operator can check the work instruction in real time through the portable control device, by performing the operation is automatically transmitted to the server of the base station operating subject, It is easy to check whether the instructions match the work contents, and the work time can be greatly reduced.

1 is a block diagram of a portable mobile communication base station antenna control apparatus according to a preferred embodiment of the present invention.
2 is a block diagram of a control system using a portable mobile communication base station antenna control apparatus according to a preferred embodiment of the present invention.

Hereinafter, a portable mobile communication base station antenna control apparatus and a control system using the same will be described with reference to the accompanying drawings.

1 is a block diagram of a portable mobile communication base station antenna control apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 1, a portable mobile communication base station antenna control apparatus 100 according to a preferred embodiment of the present invention includes a GPS unit 20 capable of identifying a position of the portable mobile communication base station antenna control apparatus 100 and an external device. The communication device unit 30 for communication, the memory device unit 50 for storing data, the test device unit 60 for checking the base station equipment, the progress of work or the change in the azimuth and vertical tilt angles of the antenna The camera unit 80 which can be photographed and transmitted through the communication device unit 30, the input / output port unit 70 which provides various input / output ports, and display the work instruction, work progress, etc. It is configured to include an input and display unit 90 for receiving the input, a control unit 10 for controlling the respective parts, and a power supply unit 40 for supplying power to the respective parts.

2 is a block diagram of a portable mobile communication base station antenna control system according to a preferred embodiment of the present invention.

Referring to FIG. 2, the mobile communication base station antenna control apparatus 100 of FIG. 1 and the mobile communication base station antenna control apparatus 100 of FIG. 1 transmit work instructions, and receive work progress and results. And an antenna controller 312 for adjusting the azimuth and vertical inclination angles of the antenna 310 according to the control of the base station operating server 200 and the portable mobile communication base station antenna controller 100 to check whether the actual work contents match. It is configured to include a base station apparatus unit 300 including a.

Hereinafter, the configuration and operation of the antenna control apparatus 100 and the control system of the portable mobile communication base station according to the preferred embodiment of the present invention configured as described above will be described in more detail.

First, a worker carries a portable mobile communication base station antenna control device 100, the base station operating server 200 to adjust the antenna 310 of a specific base station device unit 300, or check the base station equipment 320 In this case, the correct working position and instructions are transmitted to the mobile communication base station antenna control apparatus 100 of the worker through the communication network 400.

In this case, the communication network 400 may be a data communication network or an internet communication network.

The communication device unit 30 of the portable mobile communication base station antenna control device 100 includes a data communication unit 31, a short range wireless communication unit 32, a wired communication unit 33, and a voice communication unit 34. The work order of 200 is received through one of the data communication unit 31, the wired communication unit 33, and the short range wireless communication unit 32.

That is, the work order of the base station operating server 200 may be received through an optional communication method according to the operator's communication environment.

The received work instruction is stored in the memory device unit 50. The memory device unit 50 may include a RAM 51, a flash memory 52, and a replaceable memory card 53.

The work instruction is displayed on the input and display unit 90 through the control unit 10 so that the operator can easily recognize the location and the content of the base stations to work on the day. In addition, the correct operation instruction is stored in the memory device unit 50 so that the instruction is authenticated.

In other words, if a worker misunderstands the work content or the manager of the base station operator who directs the work has misplaced the work instruction, it is possible to clarify the responsibility of the worker.

The work instruction may include a work target base station, antenna parameters, check items of a base station facility, and the like. The target base station is a unique number and GPS coordinates of the base station, the antenna parameters include the azimuth and vertical tilt angle and the beam width of the antenna of the base station.

When the worker carries the portable mobile communication base station control apparatus 100 and moves to the base station, the controller 10 checks the GPS unit 20 to confirm that the position on the work instruction has been reached, and inputs the corresponding work instruction. And the display unit 90.

The operator performs an input of a command for transmitting the antenna parameter to the antenna controller 312 of the base station apparatus 300 in the corresponding work instruction through the input and display unit 90. At this time, the communication method between the antenna controller 312 and the portable mobile communication base station controller 100 may use a short-range wireless communication such as wireless network communication, Bluetooth communication by Wi-Fi, which uses a local area network 500 The short distance wireless communication unit 32 of the communication device unit 30 is made. In addition, it can be made through a wired communication using a wired communication unit 33 according to the environment.

The work on the installation of the antenna 310 required the application of the Antega 310 parameter in the work instruction at a remote location where the antenna 310 is not visually checked, but the antenna 310 is actually located at the site of the base station. It was not possible to check whether the azimuth and vertical inclination angles were adjusted, but at a position where the antenna 310 can be visually checked, it is necessary to check whether the azimuth and vertical inclination angles are changed by the application of antenna parameters without directly climbing the pylon. Can be.

In this case, whether the antenna parameter 312 is successfully transmitted to the antenna controller 312 is stored in the memory device unit 50 and is transmitted to the base station operating server 200 through the data communication unit 31 in real time. This can omit the process of reporting the work performance to the base station operating entity separately by the operator can improve the convenience of the work.

In addition, after the operator transmits the antenna parameters, the operator can visually check whether the antenna controller 312 controls the azimuth and vertical inclination angles of the antenna 310 by driving the motor 311. In order to check whether the azimuth and vertical inclination angles of the actual antennas have been changed, the camera unit 80 is used to photograph the installation state of the antenna 310 before adjustment, and the installation of the antenna 310 adjusted according to the transmission of the antenna parameters. The state is photographed and transmitted to the base station operating server 200.

The camera unit 80 enables at least an optical zoom function and a video photographing function, thereby providing a basis for determining whether the antenna parameter is actually applied in the field.

In particular, the operating entity of the base station and the management entity that manages the base station are different companies, and there may be cases in which the management of the base station is delegated to the management entity through a contract. Can be prevented in advance.

As described above, in the base station operating server 200 that receives and stores the data or the picture of the antenna whose angle of adjustment is adjusted, it is easy to confirm that the work corresponding to the first work instruction is performed in the field.

In addition, the operator checks the base station equipment 320 according to the work instructions displayed on the input and display unit 90, and checks the state of the RF cable 321 and the state of the antenna 310.

The test terminal of the RF cable 321 connecting the antenna 310 and the base station equipment 320 is connected to the test device unit 60. The test device unit 60 includes an RF signal transmitter 61 for transmitting an RF signal, an RF signal receiver 62 for receiving an RF signal received through the RF cable 321 and the antenna 310, and And a determination unit 63 comparing the transmitted RF signal with the received RF signal and checking whether there is an abnormality in the RF characteristics of the RF cable 321 and the antenna 310.

That is, the RF signal of the RF signal transmitted from the RF signal transmitter 61 receives the RF signal of a specific frequency from the RF signal receiver 62, and the determination unit 63 transmits the RF signal transmitted from the RF signal transmitter 61. And the RF carrier received from the RF signal receiver 62 to check whether there is an error.

In this case, the comparison may be a change in frequency or a change in amplitude.

As described above, the antenna control apparatus 100 of the portable mobile communication base station of the present invention controls the azimuth and vertical inclination angles of the antenna 310 as a single device and checks the RF characteristics of the RF cable 321 and the antenna 310. This can make the work easier and reduce the work time compared to the conventional method of setting up and connecting various equipment.

The RF characteristic results of the detected RF cable 321 and the antenna 310 are automatically transmitted to the base station operating server 200 through the communication device unit 30, and the worker performed a work corresponding to the work instruction. As a result, the results of the work can be easily checked.

The base station operating server 200 may check whether the RF characteristic result received from the portable mobile communication base station antenna control apparatus 100 is normal, and if not normal, may perform another work instruction in real time. The base station operating server 200 stores a frequently occurring problem and a general solution to the problem as a database, and further measures taken according to the RF characteristic result to the portable mobile communication base station antenna controller 100. Can transmit

The control unit 10 of the portable mobile communication base station antenna control device 100 receives the measures through the communication device unit 30, displays them on the input and display unit 90, and displays a separate alarm generator 11. Use it to let the operator know that something new has been received.

Upon receipt of the action item, the operator executes the action item and tests the RF characteristic of the RF cable 321 using the test device 60 again. The test result is transmitted back to the base station operating server 200 through the communication unit 30 to check whether or not normal.

In this case, if the characteristics of the RF are not within the normal range due to an abnormality even if the measures and tests are repeated, the operator can make a voice call with the manager of the base station operator through the voice communication unit 34, and You can take action such as getting instructions. In this case, the headset may be connected to the headset port 71 provided in the input / output port unit 70, and the work and the call may be simultaneously performed.

The data generated in this work process are all stored in the flash memory 52 or the memory card 53 of the memory device unit 50, and the data of the work process are transmitted to the base station operating server 200 through the communication network 400. And stored.

Therefore, the worker does not need to record the work result or data, and the work result corresponding to the base station apparatus 300 that is checked through the satellite 600 in the GPS unit 20 may be preserved as the work history of the base station as it is. It becomes possible.

In other words, the worker can reduce the burden of reporting the work results are summarized, and the operation of the base station can also reduce the burden of managing the history by inputting the reported work results for each base station. In addition, since there is no concern about occurrence of an erroneous input in the input process, there is an advantage of managing an accurate history.

In addition, since the portable mobile communication base station antenna controller 100 of the present invention uses the rechargeable power supply unit 40, the operator can easily charge the vehicle while traveling through the base station. This can be used in the base station to the next work by using a car charger or charging via the USB 72. This means that it is not necessary to provide a port for supplying a separate constant power source for each base station.

In addition, the portable mobile communication base station antenna controller 100, while significantly reducing the size and weight compared to the conventional notebook, it is possible to test the RF characteristics that can not be done with a notebook, it is easy to work and also easy to work in the rain It can be done.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And this also belongs to the present invention.

10: control unit 20: GPS unit
30: communication unit 31: data communication unit
32: near field communication unit 33: wired communication unit
34: voice communication unit 40: power supply unit
50: memory unit 51: RAM
52: flash memory 53: memory card
60: test unit 61: RF signal transmission unit
62: RF signal receiver 63: Judgment unit
70: input / output port part 71: headset port
72: USB port 80: camera unit
90: input and display unit 200: base station operating server
300: base station unit 310: antenna
311: motor 312: antenna controller
320: base station equipment

Claims (8)

A communication device unit receiving a work instruction and transmitting an antenna parameter corresponding to the work instruction;
An input and display unit displaying the work instruction and receiving a command of an operator;
A test apparatus unit for connecting the equipment of the base station to test the RF characteristics;
A camera unit for photographing that the azimuth angle and the vertical inclination angle change according to the transmission of the antenna parameter and transmitting the same through the communication device unit;
A memory device unit for storing the work instruction, an operator's command, a test result of the test device unit, and a photographed image of the camera unit; And
A control unit for controlling the communication device unit, the input and display unit, the test device unit, the camera unit, and the memory device unit,
The work instruction includes coordinate information of a base station to be worked on, and the controller is configured to display the work instruction on the input and display unit when the current position confirmed by the GPS unit is the same as the coordinate information of the work instruction. Portable mobile communication base station antenna control device.
delete The method of claim 1,
The communication device unit,
And a data communication unit for transmitting and receiving data, a short-range wireless communication unit for performing short-range wireless communication, a wired communication unit for connecting to the wired Internet, and a voice communication unit for enabling voice communication.
The method of claim 1,
The test device unit,
An RF signal transmission unit for supplying an RF signal to the RF cable connecting the base station equipment and the antenna;
An RF signal receiver configured to receive the RF signal via the RF cable and antenna; And
And a determination unit for comparing the received RF signal with the received RF signal to determine an RF characteristic.
The portable mobile communication base station antenna control device of claim 1;
A base station operation server which transmits a work instruction to the portable mobile communication base station antenna control device, receives and stores the work progress from the portable mobile communication base station antenna control device, and automatically manages a work history of the base station; And
And a base station apparatus unit for receiving antenna parameters from the portable mobile communication base station antenna control device and adjusting the azimuth and vertical tilt angles of the antenna.
The method of claim 5,
The work instruction includes coordinate information of the base station to be worked on, and the portable mobile communication base station antenna control apparatus performs the work task instruction when the current position identified by the built-in GPS unit is the same as the coordinate information of the work instruction. Control system using a portable mobile communication base station antenna control device characterized in that the display on the input and display.
The method of claim 5,
The portable mobile communication base station antenna control device,
Through the communication device unit including a data communication unit for transmitting and receiving data, a short-range wireless communication unit for performing short-range wireless communication, a wired communication unit for connecting to the wired Internet, and a voice communication unit for enabling voice communication,
And a base station performing data communication with the base station operating server and communicating with the base station apparatus through the short range wireless communication or the wired communication unit.
The method of claim 5,
The portable mobile communication base station antenna control device, an RF signal transmission unit for supplying the RF signal to the RF cable connecting the base station equipment and the antenna, the RF signal receiver for receiving the RF signal via the RF cable and the antenna, the received Detecting an RF characteristic of the base station apparatus section, including a determination section that determines the RF characteristic compared with the RF signal that has transmitted the RF signal,
The control system using a portable mobile communication base station antenna control device characterized in that for transmitting the detection result to the base station operating server.

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