KR102057051B1 - Method And Apparatus for Wireless Network Optimization - Google Patents

Abstract

An antenna radio controller and a method thereof for optimizing a wireless network are provided.
The present embodiment controls the antenna related information to be stored and managed in the management device by transmitting the collected antenna related information to the management device using wireless communication, and based on the result of the optimization simulation based on the antenna related information from the management device. The present invention provides an antenna wireless control apparatus and method for optimizing a wireless network for controlling a current tilt of an antenna to be adjusted to a calculated angle by receiving an antenna tilt adjustment command calculated according to the present invention.

Description

Antenna wireless controller and method for wireless network optimization {Method And Apparatus for Wireless Network Optimization}

In this embodiment, the collected antenna-related information is transmitted to the management apparatus using wireless communication, and the antenna tilt adjustment command is received from the management apparatus based on the antenna-related information, and the current tilt of the antenna is adjusted to the calculated angle. The present invention relates to an antenna radio control apparatus and method for optimizing a wireless network.

Recently, as the number of users of LTE mobile communication networks has increased rapidly, not only has the total data usage greatly increased, but also the data usage and the number of users within individual coverage have also increased. Accordingly, the base station system optimizes the wireless network by appropriately distributing usage and users for individual coverage by adjusting parameters for call processing or overload control functions, but there are limitations in this optimization method. On the other hand, in order to overcome this limitation, coverage optimization must be accompanied, which can be achieved through antenna vertical angle adjustment.

In the conventional antenna vertical angle adjustment method, the antenna vertical angle setting value is wired to the antenna via EMS (Element Managemnet System), DU (Digital Unit), RRU (Remote RF Unit) and RCU (Remote Control Unit). Based coordination methods have been used. In this case, an additional feeder is required according to the type of antenna, which causes an additional cost. In addition, since the EMS is not directly interlocked with an optimization simulation system such as a coverage optimization simulation system and a performance optimization simulation system, a problem arises in that the antenna vertical angle setting value according to the optimization simulation result is directly input to the EMS. In addition, in the case of the conventional antenna vertical angle adjustment device, there is a problem that there is a limited use method because there is no other function except the antenna vertical angle change.

However, while the base station system adjusts the antenna vertical angle to perform the coverage optimization, the antenna vertical angle setting value is automatically applied according to the result of the optimization simulation, and the wireless base adjustment method and various functions can be additionally provided. Requires skill

This embodiment controls the antenna related information to be stored and managed in the management device by transmitting the collected antenna related information to the management device using wireless communication, and based on the result of optimization simulation based on the antenna related information from the management device. It is a main object of the present invention to provide an antenna wireless control apparatus and method for optimizing a wireless network for controlling the current tilt of an antenna to be adjusted to a calculated angle by receiving an antenna tilt adjustment command calculated accordingly.

The present embodiment, the communication unit for transmitting and receiving data with the management device using a wireless communication; An antenna information collecting unit collecting antenna related information; The antenna-related information is controlled to be transmitted to the management apparatus by using the communication unit, and the antenna tilt adjustment command generated based on the antenna-related information is received from the management apparatus to adjust the current tilt of the antenna to a calculated angle. A control unit for controlling to be; It provides an antenna wireless control device comprising a drive motor for adjusting the current tilt of the antenna to the predetermined angle.

In addition, according to another aspect of the present embodiment, in the method for the antenna radio control apparatus collects the antenna-related information and adjust the current tilt of the antenna, when receiving a request signal for the antenna-related information from the management device, the antenna-related information Collecting process for collecting; The antenna-related information is controlled to be transmitted to the management apparatus by using wireless communication, and the antenna inclination adjustment command generated based on the antenna-related information is received from the management apparatus, and the current inclination of the antenna is calculated at an angle calculated. A control process for controlling to be adjusted; And an adjusting process of adjusting the current tilt of the antenna to the calculated angle.

As described above, according to the present embodiment, the antenna wireless control apparatus transmits the collected antenna related information to the management apparatus using wireless communication, and is calculated based on the antenna related information from the management apparatus using the wireless communication. By receiving the antenna tilt adjustment command to control the current tilt of the antenna to be adjusted to the calculated angle, there is an effect that can solve the additional cost problem when using a wired communication.

In addition, according to the present embodiment, the antenna radio control apparatus includes image information about the antenna in which the surrounding environment in which the antenna is located, image information about the antenna including the current position information of the antenna and the current tilt information of the antenna. By collecting antenna-related information and transmitting it to the management device, it is possible to additionally provide various functions based on the antenna-related information.

In addition, according to the present embodiment, the antenna inclination calculated by the antenna wireless control unit transmits the collected antenna-related information to the management device, the optimization simulation system based on the result of performing the optimization simulation based on the antenna-related information from the management device By automatically receiving the adjustment command and controlling the current tilt of the antenna to be adjusted to the calculated angle, there is an effect that can maximize the effect of optimizing the wireless network and improve the performance.

1 is a block diagram schematically illustrating an antenna radio control system according to an exemplary embodiment.
2 is a block diagram schematically illustrating an antenna radio control apparatus according to the present embodiment.
3 is a flowchart illustrating a method of adjusting a current tilt of an antenna based on collected antenna related information according to the present embodiment.
4 is a flowchart illustrating a method of collecting antenna-related information and adjusting a current tilt of an antenna by an antenna radio controller according to an exemplary embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically illustrating an antenna radio control system according to an exemplary embodiment.

The antenna radio control system according to the present embodiment includes a remote radio frequency unit (RRU) 110, an antenna 120, an antenna radio control unit 130, a management unit 140, and an optimization simulation system 150. It includes. At this time, the components included in the antenna radio control system according to the present embodiment are not necessarily limited thereto.

The remote radio frequency unit 110 remotely separates a part of a radio unit from a base station facility composed of a baseband, which is a communication control section, and a radio unit (RU), which directly transmits radio waves, so that a device capable of acting as an existing repeater it means. That is, the remote radio frequency unit 110 is a remote RF transceiver for a base station (NodeB), and connects the base station with an optical cable to a remote site remote from the base station, and converts a digital signal and a control signal converted into an optical signal through an optical cable. Give and take At this time, the base station processes the baseband signal by digital signal, converts the coded signal into an optical signal, and transmits the signal to the remote radio frequency unit 110, and the remote radio frequency unit 110 receives the signal transmitted from the base station and receives the digital signal. The processed signal is decoded, and the decoded signal is processed by the baseband signal and upconverted to an RF signal. In the antenna radio control system according to the present embodiment, at least one remote radio frequency unit 110 may exist. For example, the number of remote radio frequency units 110 may vary depending on the cell environment, output level, and the like. Meanwhile, the remote radio frequency unit 110 is connected to the antenna 120 by an RF cable and a communication cable, for example, an RS485 cable. In this case, the RF cable connects the remote radio frequency unit 110 and the antenna 120 to transmit an RF signal, and the communication cable transmits a signal between the remote radio frequency unit 110 and the antenna 120. It plays a role.

The antenna 120 is connected to the remote radio frequency unit 110 to transmit an RF signal from a mobile communication switching center to a terminal or to receive an RF signal from the terminal. Meanwhile, the antenna 120 may be configured with a plurality of radiating elements arranged in an array, and advanced antenna technology may be applied to increase communication capacity and improve communication quality. For example, the antenna 120 may be implemented in the form of an active antenna in which an amplifier such as a low noise amplifier (LNA) is directly connected to the antenna 120 to concentrate radio waves in a direction of a desired subscriber and to reduce and transmit interference signals of other subscribers. On the other hand, the area covered by the medium-to-large base station may be further subdivided into micro cells.

In the antenna 120 according to the present embodiment, the current tilt of the antenna 120, for example, the tilt angle of the antenna 120 may be adjusted under the control of the antenna radio controller 130. On the other hand, the remote radio frequency unit 110 has a coverage area that can be controlled by one base station for a radio resource used by the terminal as one cell, and the RF signal is applied to optimize the service area. It is necessary to adjust the tilt of the antenna 120 to transmit and receive. At this time, the inclination of the antenna 120, for example, the tilt angle is such that the main radiation direction in the vertical plane is inclined from the horizontal plane, and an appropriate inclination is required according to the environmental element of the place where the antenna 120 is installed. For example, when the antenna 120 is installed in a high place to secure a service area, when the main radiation direction of the radio wave is in the horizontal direction, most of the radiant energy is wasted in the air. That is, the antenna 120 according to the present embodiment has a current slope of the antenna 120 under the control of the antenna radio controller 130 when the current slope of the antenna 120 is different from the calculated slope. Coverage optimization can be performed by readjustment to the calculated angle. On the other hand, the antenna radio controller 130 is based on the antenna tilt adjustment command calculated according to the result of the optimization simulation system 150 performs the optimization simulation based on the antenna-related information from the management device 140, the antenna 120 Control the current slope of to be adjusted to the calculated angle.

The antenna radio controller 130 is coupled to the lower portion of the antenna 120 in the form of a module, and transmits the collected antenna-related information to the management device 140 using wireless communication. Subsequently, the antenna radio controller 130 receives an antenna tilt adjustment command transmitted from the management apparatus 140 using wireless communication to operate the antenna tilt control unit to adjust the current tilt of the antenna 120 to a calculated angle.

When receiving the request signal for the antenna-related information from the management device 140, the antenna radio controller 130 collects antenna-related information. That is, when the antenna wireless controller 130 receives a request signal for the antenna-related information from the management device 140, image information and one of the antenna 120 in which the surrounding environment in which the antenna 120 is located is photographed. Using at least one sensor collects at least one or more information of the position information for the antenna 120 collected. For example, when the antenna wireless controller 130 receives a command for collecting image information of the antenna 120 from the management apparatus 140 using wireless communication, the antenna 120 is controlled by controlling the image photographing apparatus. It operates to take a picture or video of the surrounding environment, and through this collects image information about the antenna (120). Meanwhile, although the antenna wireless controller 130 may directly collect image information including an image photographing device, for example, an image photographing function, the antenna wireless controller 130 may receive image information photographed from an image photographing apparatus separately implemented externally. In addition, when the antenna wireless control apparatus 130 receives a command for collecting location information on the antenna 120 from the management apparatus 140 using wireless communication, the antenna wireless control unit 130 controls one or more sensors provided to the antenna 120. Collect location information on the antenna 120 including current location information and current tilt information of the antenna 120. At this time, the sensor for collecting the position information for the antenna 120 may include at least one sensor of the GPS sensor, gyro sensor and acceleration sensor, the antenna wireless controller 130 according to the present embodiment is a GPS sensor The controller may collect latitude, longitude, and altitude of the antenna 120, and may control the gyro sensor and the acceleration sensor to collect the direction angle of the antenna 120 and the current tilt of the antenna 120. Thereafter, the antenna wireless controller 130 recognizes the result of the antenna related information collection operation performed based on the request signal for the antenna related information, generates the alarm information corresponding to the recognized performance result, and manages the device 140. To send).

In addition, the antenna radio controller 130 controls the collected antenna related information to be transmitted to the management device 140 using wireless communication, and the antenna tilt adjustment command generated based on the antenna related information from the management device 140. Received to control the current tilt of the antenna 120 to be adjusted to the calculated angle. To this end, the antenna radio controller 130 according to the present embodiment additionally receives a request signal for the current angle setting value of the drive motor provided in the antenna radio controller 130 from the management device 140, and drives The current angle set value of the motor may be additionally collected and transmitted to the management device 140. On the other hand, the antenna radio controller 130 transmits the collected image information about the antenna 120 and the position information on the antenna 120 to the management device 140 using wireless communication, and through this, the management device 140 ) To database the antenna-related information. At this time, the management device 140 may provide a variety of functions using the antenna-related information as well as the tilt adjustment function of the antenna 120 by storing the received antenna-related information as a database. Subsequently, the antenna wireless control apparatus 130 receives the antenna tilt adjustment command calculated according to the result of performing the optimization simulation by the optimization simulation system 150 based on the antenna-related information from the management apparatus 140. Control the current slope of to be adjusted to the calculated angle. At this time, the antenna tilt adjustment command received by the antenna radio controller 130 from the management device 140 includes tilt adjustment value information for adjusting the current tilt of the antenna 120 to the calculated optimal angle. For example, the antenna radio controller 130 operates the driving motor to adjust the current tilt of the antenna 120 to a predetermined angle by applying a corresponding tilt adjustment value to the drive motor provided in the antenna radio controller 130. . Thereafter, the antenna radio controller 130 recognizes an execution result of the antenna tilt adjustment command, generates alarm information corresponding to the execution result, and transmits the generated alarm information to the management device 140.

The management device 140 generates a related command for adjusting the current tilt of the antenna 120, collects, stores and manages antenna related information from a plurality of antenna radio controllers. That is, the management device 140 transmits a request signal for the antenna related information to the antenna wireless control device 130 by using wireless communication, and receives the antenna related information from the antenna wireless control device 130 and makes a database. To this end, the management device 140 according to the present embodiment includes a wireless communication modem for providing wireless communication. The antenna-related information collected by the management device 140 includes image information about the antenna 120 and location information about the antenna 120, and further includes a current angle of the driving motor provided in the antenna wireless controller 130. Information about the setting value may be included. On the other hand, the management device 140 may provide a variety of functions using the antenna-related information as well as the tilt adjustment function of the antenna 120 by managing the antenna-related information in a database. For example, the management device 140 may extract and use traffic information, weather information, and user density information about a surrounding area where the antenna 120 is located by using image information about the antenna 120. In addition, the management device 140 determines whether the position of the antenna 120 is changed by using the location information of the antenna 120, and through this, quickly damages the antenna 120 and the steel tower facilities due to a disaster such as a typhoon. On the other hand, even if the on-site survey of the operating personnel is not made directly, the location information of the antenna 120 can be accurately collected and updated.

In addition, when the management device 140 receives the antenna related information from the antenna radio controller 130, the management device 140 transmits the received antenna related information to the optimization simulation system 150 linked with the management device 140. To this end, the management device 140 according to the present embodiment is provided with a communication function capable of transmitting and receiving data with the optimization simulation system 150. Thereafter, the management device 140 receives an antenna tilt adjustment command calculated according to a result of the optimization simulation system 150 performing the optimization simulation based on the antenna related information from the optimization simulation system 150, and receives the provided antenna tilt The adjustment command is transmitted to the antenna radio controller 130 using wireless communication. On the other hand, the management device 140 according to the present embodiment is directly linked to the optimization simulation system 150 to automatically receive the antenna tilt adjustment command according to the optimization simulation result to adjust the inclination of the existing antenna 120 Solves the problem of directly inputting the antenna tilt adjustment value information calculated from the optimization simulation system 150 to the EMS.

On the other hand, the management device 140 stores the antenna inclination adjustment command received from the optimization simulation system 150, for example, inclination adjustment value information for adjusting the current inclination of the antenna 120 to the calculated optimal angle as a database. . In addition, the management device 140 stores a database of the current angle setting value and the alarm information of the drive motor received from the antenna radio controller 130. On the other hand, the alarm information received by the management device 140 from the antenna radio controller 130 is information for recognizing that the collection of the antenna-related information is successful or failed, the result of performing the antenna tilt adjustment command is successful or failed Information for recognizing that it is included is included. That is, the management device 140 stores the received antenna-related information when the collection of antenna-related information is successful based on the alarm information, and generates an alarm for the operator when the collection of the antenna-related information fails. to provide. In addition, the management device 140 stores the antenna tilt adjustment related information including the antenna tilt adjustment command, for example, the tilt adjustment value information, if the execution result of the antenna tilt adjustment command is successful based on the alarm information, and adjusts the antenna tilt adjustment. If the execution result of the command fails, an alarm is generated and provided to the operator.

The optimization simulation system 150 is interlocked with the management device 140 and receives antenna related information from the management device 140. Meanwhile, the optimization simulation system 150 according to the present embodiment may include at least one optimization simulation system of a coverage optimization simulation system (CellPlan) and a performance optimization simulation system (SON: Self Organizing Network). The coverage optimization simulation system is a CDMA wireless network design and analysis technology that can be used not only for CDMA2000 1X but also for asynchronous IMT-2000, W-CDMA. In addition, by performing a fast and accurate prediction and analysis using a precise geographic information system (GIS), it analyzes the location of the entire base station, the direction and transmission power of the antenna, and the call quality provided to the optimal wireless network for the best service It is an optimized simulation system that can present the solution to the operator. The performance optimization simulation system is an optimization simulation system that can suggest the optimization of base station installation and operation as a system in which artificial intelligence is integrated into communication equipment to supplement the propagation characteristics continuously affected by changes in the surrounding environment and subscriber usage. Meanwhile, the optimization simulation system 150 calculates an optimal tilt angle of the antenna 120 for maximizing wireless network optimization and performance improvement effect by performing simulation based on antenna related information. For example, the optimization simulation system 150 may calculate an optimal tilt angle of the antenna 120 by reflecting image information about the antenna 120 and position information about the antenna 120. Thereafter, the optimization simulation system 150 compares the current tilt information of the antenna 120 included in the antenna related information and the optimal tilt angle of the antenna 120 calculated by performing simulation, and adjusts the tilt based on the comparison result. Calculate the value. In this case, the optimization simulation system 150 may calculate a tilt adjustment value by further reflecting a current angle setting value of the driving motor provided in the antenna radio controller 130. Thereafter, the optimization simulation system 150 generates an antenna tilt adjustment command, transmits the tilt adjustment value information calculated in the antenna tilt adjustment command to the management device 140, and the management device 140 receives the received antenna tilt. The adjustment command is transmitted to the antenna radio controller 130.

2 is a block diagram schematically showing the antenna radio controller 130 according to the present embodiment.

The antenna radio controller 130 according to the present embodiment includes a communication unit 210, a control unit 220, an antenna information collecting unit 230, a driving motor unit 240, a power supply unit 250, and an interface unit 260. do. At this time, the components included in the antenna radio controller 130 according to the present embodiment are not necessarily limited thereto.

The communication unit 210 transmits and receives data with the management device 140 using wireless communication. That is, the communication unit 210 includes a wireless communication modem for providing wireless communication to perform wireless communication with the management device 140. For example, the communication unit 210 receives a request signal for the antenna-related information and an antenna tilt adjustment command from the management device 140 and transmits the received signal to the controller 220, and the antenna-related information collected using the antenna information collection unit 230. Information may be transmitted to the management device 140. Meanwhile, the communication unit 210 according to the present embodiment transmits and receives data to and from the management device 140 using wireless communication, so that the existing antenna inclination adjustment values are EMS (Element Managemnet System), DU (Digital Unit), and RRU (Remote). The Bias-T and cable additional cost problem that occurred in the wired communication method transmitted to the antenna 120 through the RF unit and the RCU (Remote Control Unit) were solved.

The controller 220 controls operations of the communication unit 210, the antenna information collecting unit 230, the driving motor unit 240, the power supply unit 250, and the interface unit 260 included in the antenna wireless controller 130. And manage. That is, the controller 220 controls the antenna related information to be transmitted to the management device 140 by using the communication unit 210 and receives an antenna tilt adjustment command generated based on the antenna related information from the management device 140. The current tilt of the antenna is controlled to be adjusted to the calculated angle. When the controller 220 receives the request signal for the antenna related information from the management device 140, the controller 220 controls the antenna information collecting unit 230 to control the antenna information collecting unit 230 to collect the antenna related information. That is, the control unit 220 controls the image acquisition unit 232 and the sensor unit 234 included in the antenna information collecting unit 230 of the image information of the antenna 120 and the position information of the antenna 120 Operate to collect some or all antenna related information. Subsequently, the controller 220 controls the antenna related information collected from the antenna information collecting unit 230 to be transmitted to the management device 140 using the communication unit 210, through which the management device 140 transmits the antenna related information. Control to store and manage them. Meanwhile, the controller 220 recognizes the result of the antenna related information collection operation performed based on the request signal for the antenna related information, generates alarm information corresponding to the recognized performance result, and transmits the generated alarm information to the management device 140. do. In this case, the alarm information generated by the controller 220 includes information for recognizing that the collection of the antenna-related information has succeeded or failed.

In addition, the controller 220 receives an antenna tilt adjustment command generated based on the antenna related information from the management device 140 and controls the current tilt of the antenna 120 to be adjusted to a calculated angle. In this case, the controller 220 receives an antenna tilt adjustment command generated based on a simulation result of the optimization simulation system 150 using the antenna related information from the management device 140. Thereafter, the controller 220 transmits an antenna tilt adjustment command to the driving motor unit 240, and thereby controls the driving motor unit 240 to adjust the current tilt of the antenna 120 to a predetermined angle. On the other hand, the control unit 220 according to the present embodiment further receives a request signal for the current angle setting value of the drive motor provided in the antenna wireless control device 130 from the management device 140 using the communication unit 210. The request signal may be transmitted to the driving motor unit 240 to further collect the current angle setting value of the driving motor provided with the driving motor unit 240. Thereafter, the controller 220 controls the collected current angle setting value of the driving motor to be transmitted to the management device 140 through the communication unit 210. Meanwhile, the controller 220 recognizes the result of the antenna related information collection operation performed based on the request signal for the antenna related information, generates alarm information corresponding to the recognized performance result, and transmits the generated alarm information to the management device 140. do. In this case, the alarm information generated by the controller 220 includes information for recognizing that the result of performing the antenna tilt adjustment command is successful or failed.

In addition, the control unit 220 may control the power supply unit 250 to properly distribute the power supplied from the outside, and the interface unit 260 to control the antenna wireless controller 130 and the peripheral device, for example, remote wireless Matching with the frequency unit 110 and the antenna 120 may be controlled.

The antenna information collecting unit 230 collects antenna related information. That is, when the antenna information collection unit 230 receives a request signal for the antenna-related information from the management device 140, the antenna information collecting unit 230 collects the antenna-related information under the control of the control unit 220, and the collected antenna-related information communication unit Provided to the management device 140 by using (210). On the other hand, the antenna information collecting unit 230 may include at least one module of the image acquisition unit 232 and the sensor unit 234. When the image acquisition unit 232 receives a command for collecting image information of the antenna 120 from the management device 140, the image capture device included in the image acquisition unit 232 is controlled by the control unit 220. It operates to photograph the surrounding environment in which the antenna 120 is located by a picture or a video, thereby collecting image information about the antenna 120. The image acquisition unit 232 may directly collect image information including an image photographing device, for example, an image capturing function, but may also receive image information captured from an image capturing apparatus separately implemented externally. When the sensor unit 234 receives a command for collecting location information about the antenna 120 from the management device 140, the sensor unit 234 controls one or more sensors included in the sensor unit 234 under the control of the controller 220. Collecting location information on the antenna 120 including the current position information of the antenna 120 and the current tilt information of the antenna 120. At this time, the sensor provided in the sensor unit 234 may include at least one or more sensors of a GPS sensor, a gyro sensor, and an acceleration sensor, the sensor unit 234 according to the present embodiment controls the GPS sensor antenna 120 Latitude, longitude and altitude can be collected, and the direction angle of the antenna 120 and the current tilt of the antenna 120 can be collected by controlling the gyro sensor and the acceleration sensor. Thereafter, the antenna information collecting unit 230 transmits a result of the antenna related information collecting operation performed based on the request signal for the antenna related information to the controller 220.

The driving motor unit 240 includes a driving motor for adjusting the inclination of the antenna 120 and receives an antenna inclination adjustment command from the control unit 220 to adjust the current inclination of the antenna 120 to a calculated angle. . That is, the driving motor unit 240 is provided with the antenna tilt adjustment command calculated according to the result of the optimization simulation system 150 performing the optimization simulation based on the antenna-related information, and based on this, the current slope of the antenna 120. Adjust it. In this case, the antenna tilt adjustment command includes tilt adjustment value information for adjusting the current tilt of the antenna 120 to the calculated optimal angle, and the driving motor unit 240 applies the corresponding tilt adjustment value to the provided driving motor. In this way, the driving motor is operated to adjust the current tilt of the antenna 120 to a predetermined angle. On the other hand, the drive motor 240 according to the present embodiment measures the current angle set value of the drive motor to calculate the more accurate inclination adjustment value, and using the communication unit 210 to measure the current angle set value of the drive motor It may be transmitted to the management device 140.

The power supply unit 250 receives power from the outside to provide power required for the operation of the antenna radio controller 130. Meanwhile, the power supply unit 250 according to the present embodiment receives power from the remote radio frequency unit 110 connected to the antenna radio controller 130, but is not necessarily limited thereto. That is, the power supply unit 250 receives power from the RET port of the remote radio frequency unit 110 and receives power using pin 6 of the 8Pin port provided in the RET port.

The interface unit 260 provides an interface for matching between the peripheral device and the antenna radio controller 130. That is, the interface unit 260 may include an antenna interworking port for matching with the antenna 120, an RRU interworking port for matching with the remote radio frequency unit 110, and a plurality of antennas adjacent to the antenna radio controller 130. A daisy-chain port for matching and a debugging port for matching with a debugging device for managing and debugging the antenna wireless controller 130 directly at a location where the antenna wireless controller 130 is installed are provided. Meanwhile, the interface included in the interface unit 260 is not limited to an interface only for a specific device.

3 is a flowchart illustrating a method of adjusting a current tilt of an antenna based on collected antenna related information according to the present embodiment.

As shown in FIG. 3, the method for adjusting the current inclination of the antenna based on the collected antenna related information according to the present embodiment firstly, the management device 140 requests the antenna related information request signal to the antenna radio controller 130. Starting from the process of transmitting (S310). On the other hand, the management device 140 is provided with a wireless communication modem, and transmits the antenna-related information request signal to the antenna wireless control device 130 by using a wireless communication provided through the wireless communication modem.

The antenna radio controller 130 collects antenna-related information (S312) and transmits the collected antenna-related information to the management device 140 using wireless communication (S314). That is, when the antenna wireless controller 130 receives a request signal for the antenna-related information from the management device 140, image information and one of the antenna 120 in which the surrounding environment in which the antenna 120 is located is photographed. Using at least one sensor collects at least one or more information of the position information for the antenna 120 collected. That is, when the antenna wireless control apparatus 130 receives a command for collecting image information of the antenna 120 from the management apparatus 140 using wireless communication, the antenna 120 is controlled by controlling the image photographing apparatus. It operates to take a picture or video of the surrounding environment, and through this collects image information about the antenna (120). In addition, when the antenna wireless control apparatus 130 receives a command for collecting location information on the antenna 120 from the management apparatus 140 using wireless communication, the antenna wireless control unit 130 controls one or more sensors provided to the antenna 120. Collect location information on the antenna 120 including current location information and current tilt information of the antenna 120. At this time, the sensor for collecting the position information for the antenna 120 may include at least one or more of the GPS sensor, the gyro sensor and the acceleration sensor. Thereafter, the antenna wireless controller 130 recognizes the result of the antenna related information collection operation performed based on the request signal for the antenna related information, generates the alarm information corresponding to the recognized performance result, and manages the device 140. To send).

The management device 140 stores and manages the antenna related information received from the antenna radio controller 130 in a database (S316). In operation S316, the management device 140 stores and manages antenna related information in a database based on the alarm information received from the antenna radio controller 130. On the other hand, the alarm information received by the management device 140 from the antenna radio controller 130 includes information for recognizing that the collection of the antenna-related information is successful or failed. That is, the management device 140 stores the received antenna-related information when the collection of antenna-related information is successful based on the alarm information, and generates an alarm for the operator when the collection of the antenna-related information fails. to provide.

The management device 140 transmits the antenna-related information collected from the antenna radio controller 130 to the optimization simulation system 150 (S318). On the other hand, in step S318 management unit 140 may further collect the current angle setting value of the drive motor provided in the antenna radio controller 130 from the antenna radio controller 130 to transmit to the optimization simulation system 150. have.

The optimization simulation system 150 calculates an inclination adjustment value by performing an optimization simulation based on the antenna-related information received from the management device 140 (S320), and generates an antenna inclination adjustment command including the calculated inclination adjustment value. And transmits to the management device 140 (S322). In operation S320, the optimization simulation system 150 calculates an optimal tilt angle of the antenna 120 for maximizing wireless network optimization and performance improvement effect by performing simulation based on antenna related information. Thereafter, the optimization simulation system 150 compares the current tilt information of the antenna 120 included in the antenna related information and the optimal tilt angle of the antenna 120 calculated by performing simulation, and adjusts the tilt based on the comparison result. Calculate the value. In this case, the optimization simulation system 150 may calculate a tilt adjustment value by further reflecting a current angle setting value of the driving motor provided in the antenna radio controller 130.

The management device 140 transmits an antenna tilt adjustment command to the antenna wireless control device 130 using wireless communication (S324), and the antenna wireless control device 130 of the antenna 120 is based on the antenna tilt adjustment command. The current tilt is adjusted (S326). That is, the antenna wireless controller 130 receives the antenna tilt adjustment command calculated according to the result of performing the optimization simulation by the optimization simulation system 150 based on the antenna-related information from the management device 140. Control the current slope of to be adjusted to the calculated angle. At this time, the antenna tilt adjustment command received by the antenna radio controller 130 from the management device 140 includes tilt adjustment value information for adjusting the current tilt of the antenna 120 to the calculated optimal angle. For example, the antenna radio controller 130 operates the driving motor to adjust the current tilt of the antenna 120 to a predetermined angle by applying a corresponding tilt adjustment value to the drive motor provided in the antenna radio controller 130. .

The antenna radio controller 130 recognizes an execution result of the antenna tilt adjustment command, generates alarm information corresponding to the execution result, and transmits the generated alarm information to the management device 140 (S328). The alarm information transmitted from the antenna radio controller 130 to the management device 140 in step S328 includes information for recognizing that the result of performing the antenna tilt adjustment command succeeded or failed.

The management device 140 stores and manages the antenna tilt adjustment related information in a database (S330). That is, the management device 140 stores the antenna tilt adjustment related information including the antenna tilt adjustment command, for example, the tilt adjustment value information, when the execution result of the antenna tilt adjustment command is successful based on the alarm information, and adjusts the antenna tilt adjustment. If the execution result of the command fails, an alarm is generated and provided to the operator.

In FIG. 3, steps S310 to S330 are described as being sequentially executed, but are not necessarily limited thereto. That is, since the steps described in FIG. 3 may be applied by changing or executing one or more steps in parallel, FIG. 3 is not limited to the time series order.

4 is a flowchart illustrating a method in which the antenna radio control apparatus 130 according to the present embodiment collects antenna-related information and adjusts the current tilt of the antenna.

As shown in FIG. 4, the method of collecting antenna-related information and adjusting the current inclination of the antenna by the antenna radio controller 130 according to the present embodiment firstly, the antenna radio controller 130 is managed by the management apparatus 140. When receiving a request signal for the antenna-related information from, it starts from the process of collecting the antenna-related information (S410). That is, when the antenna wireless controller 130 receives a request signal for the antenna-related information from the management device 140, image information and one of the antenna 120 in which the surrounding environment in which the antenna 120 is located is photographed. Using at least one sensor collects at least one or more information of the position information for the antenna 120 collected. At this time, the sensor for collecting the position information for the antenna 120 may include at least one or more of the GPS sensor, the gyro sensor and the acceleration sensor. On the other hand, the position information for the antenna 120 includes the current position information of the antenna 120 and the current slope information of the antenna 120. On the other hand, the antenna radio controller 130 according to the present embodiment further collects the current angle set value of the drive motor provided in the antenna radio control device 130, and manages the collected current angle set value of the drive motor And transmit to 140.

The antenna radio controller 130 controls the antenna-related information to be transmitted to the management device 140 using wireless communication (S420). That is, the antenna wireless controller 130 transmits the collected image information about the antenna 120 and the position information about the antenna 120 to the management device 140 using wireless communication, and through this, the management device 140 ) To database the antenna-related information. At this time, the management device 140 may provide a variety of functions using the antenna-related information as well as the tilt adjustment function of the antenna 120 by storing the received antenna-related information as a database.

The antenna wireless controller 130 receives the antenna tilt adjustment command generated based on the antenna related information from the management device 140 and controls the antenna to adjust the current tilt of the antenna (S430). That is, the antenna radio controller 130 receives an antenna tilt adjustment command generated from the management device 140 based on the simulation result of the optimization simulation system 150 using the antenna related information. Subsequently, the antenna radio controller 130 transmits an antenna tilt adjustment command to the drive motor provided in the antenna radio controller 130 to control the drive motor to adjust the current tilt of the antenna 120 to a calculated angle. .

The antenna radio controller 130 adjusts the current tilt of the antenna 120 to a predetermined angle based on the antenna tilt adjustment command (S440). Meanwhile, the antenna tilt adjustment command received by the antenna radio controller 130 from the management device 140 includes tilt adjustment value information for adjusting the current tilt of the antenna 120 to the calculated optimal angle. For example, the antenna wireless controller 130 adjusts the current tilt of the antenna 120 to a calculated angle by applying a corresponding tilt adjustment value to the drive motor provided in the antenna wireless controller 130.

In FIG. 4, steps S410 through S440 are sequentially executed, but the present disclosure is not limited thereto. That is, since the steps described in FIG. 4 may be applied by changing or executing one or more steps in parallel, FIG. 4 is not limited to the time series order.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which the present embodiment belongs may make various modifications and changes without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical idea of the present embodiment but to describe the present invention, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

110: remote radio frequency unit 120: antenna
130: antenna radio control device 140: management device
210: communication unit 220: control unit
230: antenna information collection unit 240: drive motor unit
250: power supply unit 260: interface unit

Claims (11)

Communication unit for transmitting and receiving data with the management device using a wireless communication;
Antenna information collection for collecting antenna-related information including image information about the antenna and location information of the antenna where the surrounding environment of the antenna is photographed to support providing the antenna tilt adjustment function and additional functions from the management apparatus part;
The antenna-related information is controlled to be transmitted to the management apparatus by using the communication unit, and an antenna tilt adjustment command generated based on the antenna-related information is received from the management apparatus, and the current tilt of the antenna is adjusted to a calculated angle. A control unit for controlling to be;
A drive motor unit for adjusting the current tilt of the antenna to the calculated angle
Antenna wireless control device comprising a. The method of claim 1,
The antenna information collecting unit,
An image acquisition unit for acquiring image information of the antenna in which the surrounding environment where the antenna is located is obtained; And
At least one sensor of at least one of a GPS sensor, a gyro sensor, and an acceleration sensor, and collecting at least one antenna-related information including at least one of a sensor unit collecting position information on the antenna using the sensor. Antenna radio controller. The method of claim 2,
The location information on the antenna is an antenna wireless control device comprising the current position information of the antenna and the current tilt information of the antenna. The method of claim 1,
The control unit,
When receiving the request signal for the antenna-related information from the management device using the communication unit, by controlling the antenna information collecting unit to control the antenna information collecting unit to collect the antenna-related information,
When the antenna tilt adjustment command is received from the management device using the communication unit, the antenna tilt adjustment command is transmitted to the drive motor unit to control the drive motor unit to adjust the current tilt of the antenna. Control unit. The method of claim 4, wherein
The control unit,
Recognizing a result of performing the request signal and the antenna tilt adjustment command, and generates an alarm information corresponding to the result of each of the antenna wireless control device, characterized in that for transmitting to the management device. The method of claim 1,
When the antenna related information is received, the management device transmits the antenna related information to at least one optimization simulation system of a coverage optimization simulation system (CellPlan) and a performance optimization simulation system (SON: Self Organizing Network),
And the control unit receives the antenna tilt adjustment command generated based on a simulation result of the optimization simulation system using the antenna related information from the management device. The method of claim 6,
The antenna tilt control command includes a tilt control value information for adjusting the current tilt of the antenna to an angle calculated based on the simulation result. The method of claim 1,
A power supply unit receiving power from the outside; And
Interface unit that provides an interface for matching with peripheral devices
Antenna wireless control device further comprising. In the antenna radio control apparatus collects antenna-related information and adjusts the current tilt of the antenna,
When receiving a request signal for the antenna-related information from the management device to support the antenna tilt adjustment function and additional functions provided from the management device to the image information and the antenna of the antenna where the surrounding environment where the antenna is located is photographed A collection process of collecting antenna-related information including location information about the antenna;
The antenna-related information is controlled to be transmitted to the management apparatus by using wireless communication, and the antenna tilt adjustment command is received from the management apparatus based on the antenna-related information. A control process for controlling to be adjusted; And
Adjusting process of adjusting the current tilt of the antenna to the calculated angle
Control method using an antenna wireless control device comprising a. delete The method of claim 9,
The control process,
The antenna tilt adjustment generated based on a simulation result of at least one of the coverage optimization simulation system (CellPlan) and the performance optimization simulation system (SON: Self Organizing Network) from the management apparatus using the antenna related information Control method using an antenna radio control apparatus characterized in that for receiving a command.

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