KR102154791B1 - Communication management apparatus and control method thereof, and communication extension apparatus - Google Patents

Abstract

The present invention discloses a communication management apparatus, a method of operating the same, and a communication expansion apparatus. That is, in relation to a separate base station composed of a communication management device (DU) and a plurality of wireless communication devices (RU), access to each of a plurality of wireless communication devices through selective individual path formation between the communication management device and a plurality of wireless communication devices. The terminal information can be checked by acquiring the uplink data of the terminal.

Description

Communication management device and its operation method, and communication expansion device {COMMUNICATION MANAGEMENT APPARATUS AND CONTROL METHOD THEREOF, AND COMMUNICATION EXTENSION APPARATUS}

The present invention relates to a separate base station composed of a communication management device (DU) and a plurality of wireless communication devices (RU), through the formation of a selective individual path between the communication management device and a plurality of wireless communication devices, to each of a plurality of wireless communication devices. It relates to a method for acquiring uplink data of a connected terminal to check terminal information.

The base station is a digital unit (DU: Digital Unit, hereinafter referred to as'communication management device') that performs all signaling to provide communication service to the terminal according to its internal function and the signal received from the above communication management device as a wireless signal. It can be classified into a remote unit (RU: Remote Unit, hereinafter referred to as a'wireless communication device') that processes and transmits with and reversely processes a wireless signal received from a terminal and provides it to a communication management device.

Recently, as well as an integrated base station in which the configuration of a communication management device and a wireless communication device are integrated, a separate base station, which is a base station that separates the communication management device and the wireless communication device, and installs it at a distance, has appeared.

In the above separate base station, the communication management device is connected to the mobile communication network through a backhaul, the communication management device and the wireless communication device are connected to each other through a fronthaul, and the wireless communication device is connected to the terminal through wireless. It can be described in form.

In this way, as a separate base station has a form in which the communication management device and the wireless communication device are separated, the coverage of the shadow area (i.e., in-building) that the signal of the macro base station cannot reach is extended and the traffic of the macro base station is extended. ) In small base stations for the purpose of distribution, the above separated base station is mainly adopted.

In such a separate base station, a plurality of wireless communication devices located in each shaded area for one communication management device are connected to each other through a cable (e.g., UTP cable). Therefore, the communication management device supports the cable. Due to the transmission rate and bandwidth limitations, the integrated uplink data in which the uplink data of the terminal connected to each wireless communication device is integrated is received.

In the end, as the uplink data of the terminals connected to each wireless communication device is integrated into one integrated uplink data and received by the communication management device, the communication management device uses the integrated uplink data to the terminal connected to each wireless communication device. One can expect a limitation that the uplink data becomes indistinguishable.

Accordingly, the present invention proposes a method for acquiring uplink data of a terminal connected to each wireless communication device in a communication management device.

The present invention was created in view of the above circumstances, and an object to be reached in the present invention is to provide an uplink of a terminal connected to each wireless communication device through the formation of a selective individual path between a communication management device and a plurality of wireless communication devices. It is to provide a method for acquiring data and confirming terminal information.

A communication management apparatus according to a first aspect of the present invention for achieving the above object includes: a receiver configured to receive integrated uplink data in which uplink data of a terminal connected to each of a plurality of wireless communication devices is integrated; A selection unit for selecting a specific wireless communication device among the plurality of wireless communication devices; And a confirmation unit for checking terminal information connected to the specific wireless communication device based on uplink data received from the selected specific wireless communication device.

More specifically, when the specific wireless communication device is selected, the selection unit forms a separate path with the specific wireless communication device separately from the integrated path for receiving the integrated uplink data, and the specific wireless communication device It is characterized in that it enables to receive uplink data of a terminal connected to a wireless communication device.

More specifically, the individual path is formed directly between the communication management device and the specific wireless communication device, or is formed through a communication expansion device for connecting the communication management device and the specific wireless communication device. .

A communication expansion apparatus according to a second aspect of the present invention for achieving the above object comprises: a transmission unit for transmitting integrated uplink data integrating uplink data of a terminal connected to each of a plurality of wireless communication devices to a communication management device; And a selection unit configured to transmit uplink data of a terminal connected to the specific wireless communication device to the communication management device when a specific wireless communication device among the plurality of wireless communication devices is selected by the wireless management device. To do.

More specifically, when the specific wireless communication device is selected, the selection unit forms a separate path with the specific wireless communication device separately from an integrated path for transmitting the integrated uplink data, and It is characterized in that uplink data of a terminal connected to a wireless communication device is transmitted.

In order to achieve the above object, a method of operating a communication management apparatus according to a third aspect of the present invention includes a receiving step of receiving integrated uplink data in which uplink data of a terminal connected to each of a plurality of wireless communication devices is integrated; A selection step of selecting a specific wireless communication device from among the plurality of wireless communication devices; And a confirmation step of checking terminal information connected to the specific wireless communication device based on uplink data received from the selected specific wireless communication device.

More specifically, in the selection step, when the specific wireless communication device is selected, a separate path with the specific wireless communication device is formed separately from the integrated path for receiving the integrated uplink data, and the It is possible to receive uplink data of a terminal connected to a specific wireless communication device.

Accordingly, according to the communication management device, the operation method thereof, and the communication expansion device according to the present invention, the uplink data of the terminal connected to each wireless communication device through the formation of a selective individual path between the communication management device and a plurality of wireless communication devices By acquiring the terminal information can be checked.

1 is a diagram showing a separate base station environment according to an embodiment of the present invention.
2 is a diagram for explaining an integrated path in a separate base station according to an embodiment of the present invention.
3 is a view for explaining the configuration of a communication management device and a communication expansion device according to an embodiment of the present invention.
4 is a view for explaining the operation flow in the communication management apparatus according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating a separate base station environment according to an embodiment of the present invention.

As shown in FIG. 1, in a separate base station environment according to an embodiment of the present invention, a communication management device 100 (DU) and a plurality of wireless communication devices 300a, 300b: RU located at a distance are connected to each other. It includes a separate base station 1000 made.

This, the detachable base station 1000 may also be formed in a structure in which one communication management device (DU) and one wireless communication device (RU) are connected. In one embodiment of the present invention, one communication management device 100 On the other hand, it is assumed that a plurality of wireless communication devices 300a and 300b are connected.

Here, the communication management device 100 is an equipment that performs all signaling for providing communication services to the terminals 400a and 400b, and is connected to a mobile communication network through a backhaul, and is connected to a mobile communication network through a fronthaul. It may be connected to the wireless communication devices (300a, 300b: RU).

Each wireless communication device (RU) included in a plurality of wireless communication devices (300a, 300b) processes and transmits the signal received from the communication management device (100) as a wireless signal, and receives from each connected terminal (400a, 400b) As an equipment that reversely processes a wireless signal (hereinafter referred to as'uplink data') and provides it to the communication management device 100, it may be connected to the communication management device 100 through a fronthaul.

The above separate base station 1000 has a structure in which an OEU (200: Optic Extension Unit, hereinafter referred to as a'communication extension device') is additionally provided between the communication management device 100 and some wireless communication devices 300a, and communication management The device 100 and the rest of the wireless communication device 300b are directly connected to each other.

Here, the communication expansion device 200 refers to a communication facility for expanding the cell area of the separate base station 1000, and is located between the communication management device 100 and the wireless communication device (RU) to provide the communication management device 100 and It is possible to expand the installation location and number of connected wireless communication devices (RU).

In addition, the separate base station environment according to an embodiment of the present invention may further include an operating device 2000 that transmits/receives various information related to base station operation to and from the aforementioned separate base station 1000.

Meanwhile, in the separate base station 1000 according to an embodiment of the present invention, it is mainly used in an in-building environment, and the same physical cell (PCI) between each wireless communication device (RU) included in a plurality of wireless communication devices 300a and 300b. Identity) will be used.

This not only solves the problem of inefficient use of PCI, but also eliminates handover between cells formed by each wireless communication device (RU) as the same PCI is used between each wireless communication device (RU). The advantage of being able to move exists.

However, in the case of the separate base station 1000, a plurality of wireless communication devices 300a and 300b located in each shaded area with respect to the communication management device 100 are typically connected to each other through a cable (eg, UTP cable). Due to this, the communication management device 1000 integrates the uplink data of the terminals connected to a plurality of wireless communication devices 300a and 300b due to the bandwidth and transmission rate limits supported by the cable (eg 40MHz, 960Mbps). Therefore, it has no choice but to receive it in the form of integrated uplink data.

In this regard, a form in which the communication management apparatus 100 receives integrated uplink data will be described with reference to FIG. 2.

As shown in Fig. 2, the communication expansion device 200 is connected to some wireless communication devices 300a through cables'a' and'b', and the communication management device 100 communicates through a cable'c'. It is connected to the expansion device 200, the remaining wireless communication device 300b may be connected to the communication management device 100 through cables'd' and'e'.

Accordingly, the communication expansion device 200 receives the uplink data of the terminal 400a connected to some wireless communication devices 300a through cables'a' and'b', and after integrating them, the cable'c' is connected. It is transmitted to the communication management device 100 through.

The communication management device 100 receiving this communicates with the uplink data of the terminal 400b connected to each of the remaining wireless communication devices 300b received through the cables'd' and'e', and the cable'c'. The integrated uplink data received from the expansion device 200 is additionally integrated and finally received through the internal path'f'.

In the following, the communication management device 100 and the communication expansion device 200 and a plurality of wireless communication devices (300a, 300b) formed through a cable (a, b, c, d, e, f) that connects each other The transmission path of the integrated uplink data will be referred to as an'integrated path'.

As described above, after the uplink data of the terminal connected to the plurality of wireless communication devices 300a and 300b is integrated into one integrated uplink data through an integrated path formed along the cable, the communication management device 100 You can see that it is received.

As a result, the communication management device 100 does not individually receive the uplink data of the terminals connected to the plurality of wireless communication devices 300a and 300b, but in the form of integrated uplink data. There arises a problem that uplink data received from each of the wireless communication devices (RU) included in the plurality of wireless communication devices 300a and 300b cannot be distinguished from the data.

If it is assumed that the communication management apparatus 100 can distinguish the uplink data received from each of the wireless communication devices (RU) included in the plurality of wireless communication devices (300a, 300b), for example, from the separated uplink data. , Terminal information such as the presence or absence of a terminal connection and subscriber information of the connected terminal can be checked, and it is expected that various services can be provided using the confirmed terminal information.

For reference, as a prior art, there is a technology for identifying a terminal connected to a wireless communication device (RU) using a sub-carrier signal strength.

However, in the case of the above prior art, for example, when there are two or more terminals connected to different radio communication devices (RU) with the same subcarrier (MU-MIMO), or when the terminals are similar to different radio communication devices (RU) Or in an in-building environment where an error in the intensity of the received signal may occur due to a high or low threshold of the received signal strength, or due to various multi-paths, access to a wireless communication device (RU) There is a limit to accurately identifying the configured terminal.

Accordingly, in an embodiment of the present invention, the terminal information is received by receiving the uplink data of the terminals 400a and 440b connected to each of the plurality of wireless communication devices 300a and 300b connected to the communication management device 100. It is intended to propose a method for checking, and hereinafter, configurations of the communication management apparatus 100 and the communication expansion apparatus 200 for implementing this will be described in detail.

First, a configuration of the communication management apparatus 100 according to an embodiment of the present invention will be described with reference to FIG. 3.

Prior to the description, between the communication management device 100 and the communication expansion device 200 and a plurality of wireless communication devices 300a and 300b, a cable (a, b, c, d) that connects each other in the same manner as described with reference to FIG. 2 It is assumed that an integrated path for transmitting integrated uplink data through ,e,f) is formed.

As shown in FIG. 3, the communication management apparatus 100 according to an embodiment of the present invention receives integrated uplink data in which uplink data of terminals connected to a plurality of wireless communication devices 300a and 300b are integrated. A transmission unit 120 for integrating and transmitting the integrated uplink data received from the communication expansion device 200 and the uplink data received from some wireless communication devices 300b to the receiving unit 110, Based on the selection unit 130 for selecting a specific wireless communication device (RU) among a plurality of wireless communication devices (300a, 300b) and uplink data received from the specific wireless communication device (RU), the specific wireless communication device ( RU) may have a configuration including a confirmation unit 140 for checking information of the terminal connected to.

Here, the selection unit 130 may be implemented in the form of logic added to hardware (eg, FPGA) for implementing the transmission unit 120 in the existing communication management device 100, and the verification unit 140 It may be implemented by adding an interface (eg, Air Interface) to hardware (eg, modem SoC) for implementing the receiving unit 110 in the existing communication management apparatus 100.

For reference, the reception unit 110 and the transmission unit 120 in the communication management apparatus 100 may correspond to the configuration of the existing communication management apparatus 100 for transmitting integrated uplink data.

As a result, the communication management device 100 according to an embodiment of the present invention is a terminal connected to each of the plurality of wireless communication devices 300a and 300b through the above configurations, in particular, the selection unit 130 and the confirmation unit 140 By receiving the uplink data of (400a, 440b), the terminal information is checked. Hereinafter, each configuration in the communication management apparatus 100 for this will be described in more detail.

The selection unit 130 performs a function of selecting a specific wireless communication device (RU) among a plurality of wireless communication devices 300a and 300b.

More specifically, when the selection unit 130 is required to check terminal information for each of a plurality of wireless communication devices (300a, 300b), for example, a specified order or operator designation for each of the plurality of wireless communication devices (300a, 300b) Accordingly, a specific wireless communication device RU is selected from among a plurality of wireless communication devices 300a and 300b.

As such, selecting a specific wireless communication device (RU) among a plurality of wireless communication devices 300a, 300b is separate from the integrated path (a, b, c, d, e, f) for receiving the integrated uplink data. This is to receive uplink data of a terminal connected to the selected specific wireless communication device (RU) through the formed individual path by forming a separate path with the selected specific wireless communication device (RU).

As a result, the selection unit 130 selects the specific wireless communication device (RU) when it is required to check the terminal information for a specific wireless communication device (RU) among a plurality of wireless communication devices (300a, 300b), A separate path for receiving uplink data of a terminal connected from the radio communication device (RU) is formed.

At this time, in forming the individual path, the selection unit 130 directly forms the above individual path between the communication management device 100 and a specific wireless communication device (RU), or the communication management device 100 and a specific wireless communication device It is formed through the communication expansion device 200 for connecting the (RU).

That is, when the selected specific wireless communication device (RU) is connected to the communication management device 100 via the communication expansion device 200, the selection unit 130 forms the above individual path through the communication expansion device 200. When the selected specific wireless communication device (RU) is directly connected to the communication management device 100, the individual path is directly formed between the communication management device 100 and the selected specific wireless communication device (RU).

For example, it may be assumed that the selected specific wireless communication device (RU) is'RU#0' among some wireless communication devices 300a connected through the communication expansion device 200.

In this case, the selection unit 130 forms an individual path with the'RU#0' through the communication expansion device 200, and through the control of the communication expansion device 200, the integrated path (a, b, c, Separately from d,e,f), by forming an individual path leading to ①'a-1' -> ②'c-1' -> ③'f-1', connect to'RU#0' through the formed individual path The uplink data of the terminal (A, B) can be received by the confirmation unit 140.

As a similar example, when the selected specific wireless communication device (RU) is'RU#7' among some wireless communication devices 300a connected through the communication expansion device 200, the selection unit 130 is'RU#7'. An individual path to and is formed through the communication expansion device 200, which is ①'b-1' separately from the integrated path (a,b,c,d,e,f) through the control of the communication expansion device 200. -> ②'c-1'-> ③ By forming an individual path leading to'f-1', the uplink data of the terminal C connected to the'RU#0' through the formed individual path is transmitted to the verification unit 140 ) To be received.

As another example, it is assumed that the selected specific wireless communication device (RU) is'RU#0' among some wireless communication devices 300b directly connected to the communication management device 100.

In this case, the selection unit 130 directly forms an individual path with'RU#0', and in the end, separate from the integrated path (a,b,c,d,e,f) ①'d-1' -> ② By forming an individual path leading to'f-1', the uplink data of the terminals D and E connected to'RU#0' can be received by the confirmation unit 140 through the formed individual path.

As a similar example, when the selected specific wireless communication device (RU) is'RU#7' among some wireless communication devices 300b directly connected to the communication management device 100, the selection unit 130 refers to the individual path as'RU#'. It is formed directly with 0', and in the end, separate paths that lead to ①'e-1' -> ②'f-1' are formed separately from the integrated path (a,b,c,d,e,f). The uplink data of the terminals D and E connected to the'RU#7' through the path can be received by the confirmation unit 140.

Meanwhile, the process of forming an individual path in the selection unit 130 described above may be repeated until confirmation of terminal information for all of the plurality of wireless communication devices 300a and 300b is completed. If it is required to check the terminal information for one communication device (RU), of course, the above repetition process is unnecessary.

The verification unit 140 performs a function of checking terminal information based on uplink data received through an individual path.

More specifically, when the uplink data is received through an individual path according to the selection of a specific wireless communication device (RU) made by the selection unit 130, the confirmation unit 140 analyzes the received uplink data and Terminal information connected to the wireless communication device (RU) is checked.

For example, assuming that'RU#0' is selected among some wireless communication devices 300a connected through the communication expansion device 200 in the selection unit 130, the formed individual path (①'a-1'- > From the uplink data received through ②'c-1'-> ③'f-1'), you will be able to check the terminal information for the terminal (A, B).

As another example, assuming that'RU#7' is selected among some wireless communication devices 300b directly connected to the communication management device 100 by the selection unit 130, the formed individual path (①'e-1'- > From the uplink data received through ②'f-1'), it can be expected that the terminal information for the terminal (D, E) can be confirmed.

Here, the terminal information confirmed through the analysis of the uplink data may include, for example, the presence or absence of a terminal connection, and subscriber information, and the terminal information thus confirmed provides a location-based service for the terminal connected to each wireless communication device. Alternatively, it may be used for a power management service for each wireless communication device, such as selectively turning off operating power to a wireless communication device in which the connected terminal does not exist.

On the other hand, the verification unit 140, when the terminal information for all of the plurality of wireless communication devices (300a, 300b) connected to the communication management device 100 is completed, by transmitting the confirmed terminal information to the operating device (2000) , For example, to provide a location-based service for a terminal connected to each wireless communication device (RU) or to a wireless communication device (RU) in which the connected terminal does not exist, using the terminal information identified by the operating device 2000. For each wireless communication device, such as selectively turning off the operating power, it is possible to perform power management for each wireless communication device.

Hereinafter, a configuration of a communication expansion apparatus 200 according to an embodiment of the present invention will be described with reference to FIG. 3.

Prior to the description, between the communication management device 100 and the communication expansion device 200 and a plurality of wireless communication devices 300a and 300b, a cable (a, b, c) that connects each other as described with reference to FIG. It is assumed that an integrated path for transmitting integrated uplink data is formed.

As shown in FIG. 3, the communication expansion device 200 according to an embodiment of the present invention integrates uplink data of a terminal connected to some wireless communication devices 300a and transmits it to the communication management device 100. It may have a configuration including a transmission unit 210 and a selection unit 220 for selecting a specific wireless communication device (RU) among some wireless communication devices (300a).

Here, the selection unit 220 may be implemented in the form of logic added to hardware (eg, FPGA) for implementing the transmission unit 210 in the existing communication expansion device 100.

For reference, the transmission unit 210 in the communication expansion device 200 may correspond to the configuration of the existing communication expansion device 100 for transmitting integrated uplink data.

As a result, the communication expansion device 200 according to an embodiment of the present invention communicates the uplink data of the terminal 400a connected to each of the wireless communication devices 300a through the above configurations, in particular the selection unit 220. It is transmitted to the management device 100, hereinafter will be described in more detail for the internal configuration of the communication expansion device 200 for this.

The selection unit 220 performs a function of selecting a specific wireless communication device (RU) among some wireless communication devices 300a.

More specifically, when the communication management device 100 selects a specific wireless communication device (RU) and receives a related control signal, the selection unit 130 is a specific wireless communication device among some connected wireless communication devices 300a. You will select (RU).

As such, selecting a specific wireless communication device (RU) among a plurality of wireless communication devices 300a is selected separately from the integrated paths (a, b, c) for transmitting the integrated uplink data to the communication management device 100. This is to form an individual path with a specific wireless communication device (RU) to transmit the uplink data of a terminal connected to the specific wireless communication device (RU) to the communication management device 100 through the formed individual path.

As a result, when a control signal related to the selection of a specific wireless communication device (RU) among some wireless communication devices 300a is received, the selection unit 220 selects the wireless communication device RU, thereby selecting the selected specific wireless communication device. A separate path is formed for receiving the uplink data of the terminal connected from the (RU).

For example, assuming that the selected specific wireless communication device (RU) is'RU#0' among some wireless communication devices 300a, the selection unit 220 is separated from the integrated paths (a, b, c) ① By forming an individual path leading to'a-1' -> ②'c-1', the uplink data of the terminals (A, B) connected to'RU#0' through the formed individual paths are transferred to the communication management device 100 ) Can be delivered.

As another example, when the selected specific wireless communication device (RU) is'RU#7' among some of the wireless communication devices 300a, the selection unit 130 is separated from the integrated paths (a, b, c) ①'b -1' -> ② By forming an individual path leading to'c-1', the uplink data of the terminal (C) connected to'RU#0' through the formed individual path will be transferred to the communication management device 100. It can be done.

As described above, according to the communication management device 100 and the communication expansion device 200 according to an embodiment of the present invention, the terminals 400a and 400b connected to each of the plurality of wireless communication devices 300a and 300b Each wireless communication device (DI) through an individual path formed by selectively forming an individual path between the communication management device 100 and a plurality of wireless communication devices 300a, 300b, apart from the integrated path for receiving the integrated uplink data of Acquisition of uplink data of a terminal connected to is enabled.

In the end, when the uplink data of the terminals 400a and 400b connected to each of the wireless communication devices 300a and 300b obtained through the above method is analyzed, it is difficult to check the terminal information such as whether the terminal is connected or not and subscriber information. As it becomes possible, it is possible to provide a location-based service for a terminal connected to each wireless communication device, and a wireless communication device such as selectively turning off operation power for a wireless communication device in which the connected terminal does not exist. It can be expected that separate power management and the like can be performed.

In addition, in an embodiment of the present invention, unlike the prior art for identifying a terminal connected to a wireless communication device (RU) using a sub-carrier signal strength, terminal information is provided through selective individual path formation. As a result of acquisition, when there are two or more terminals connected to different radio communication devices (RU) with the same subcarrier (MU-MIMO), or when the terminals are located at similar points for different radio communication devices (RU), or receive When the signal strength threshold is high or low, or even in an in-building environment where an error in the received signal strength may occur due to various multi-paths, the terminal connected to the wireless communication device (RU) is accurately identified. can do.

Hereinafter, a method of operating the communication management apparatus 100 according to an embodiment of the present invention will be described in detail with reference to FIG. 4, and for convenience of description, reference will be made to FIGS. 1 to 3 above.

First, the selection unit 130 is required to check the terminal information for each of the plurality of wireless communication devices (300a, 300b), for example, according to the order specified for each of the plurality of wireless communication devices (300a, 300b) or operator designation. , Selecting a specific wireless communication device (RU) among a plurality of wireless communication devices (300a, 300b) (S110-S120).

In this case, the selection unit 130 selects the specific wireless communication device (RU) when it is required to check the terminal information for a specific wireless communication device (RU) among a plurality of wireless communication devices (300a, 300b), A separate path for receiving uplink data of a terminal connected from the radio communication device (RU) is formed.

Here, in forming the individual path, the selection unit 130 directly forms the above individual path between the communication management device 100 and a specific wireless communication device (RU), or the communication management device 100 and a specific wireless communication device It is formed through the communication expansion device 200 for connecting the (RU).

That is, when the selected specific wireless communication device (RU) is connected to the communication management device 100 via the communication expansion device 200, the selection unit 130 forms the above individual path through the communication expansion device 200. When the selected specific wireless communication device (RU) is directly connected to the communication management device 100, the individual path is directly formed between the communication management device 100 and the selected specific wireless communication device (RU).

Then, when the uplink data is received through an individual path according to the selection of a specific wireless communication device (RU) made by the selection unit 130, the confirmation unit 140 analyzes the received uplink data and Check the terminal information connected to the communication device (RU) (S130-S140).

Here, the terminal information confirmed through the analysis of the uplink data may include, for example, the presence or absence of a terminal connection, and subscriber information, and the terminal information thus confirmed provides a location-based service for the terminal connected to each wireless communication device. Alternatively, it may be used for a power management service for each wireless communication device, such as selectively turning off operating power to a wireless communication device in which the connected terminal does not exist.

On the other hand, the series of processes described through the previous steps'S110' to'S140' may be repeated until confirmation of terminal information for all of the plurality of wireless communication devices 300a and 300b is completed. The determination may be made through steps'S150'-'S160'.

If it is required to check terminal information for one specific wireless communication device (RU) according to the operator's designation, it goes without saying that the process of step'S160' is unnecessary.

Thereafter, the verification unit 140, when the terminal information for all of the plurality of wireless communication devices (300a, 300b) connected to the communication management device 100 is completed, by transmitting the confirmed terminal information to the operating device (2000) , For example, to provide a location-based service for a terminal connected to each wireless communication device (RU) or to a wireless communication device (RU) in which the connected terminal does not exist, using the terminal information identified by the operating device 2000. For each wireless communication device, such as selectively turning off operating power, it is possible to perform power management for each wireless communication device (S170).

As described above, according to the operating method of the communication management device 100 according to an embodiment of the present invention, the integrated uplink of the terminals 400a and 400b connected to each of the plurality of wireless communication devices 300a and 300b A terminal connected to each wireless communication device (DI) through an individual path formed by selectively forming individual paths between the communication management device 100 and a plurality of wireless communication devices 300a, 300b, apart from the integrated path for receiving data It becomes possible to acquire uplink data of.

In addition, in an embodiment of the present invention, unlike the prior art in which a terminal connected to a wireless communication device (RU) is identified using a sub-carrier signal strength, terminal information is provided through selective individual path formation. As a result of acquisition, when there are two or more terminals connected to different radio communication devices (RU) with the same subcarrier (MU-MIMO), or when the terminals are located at similar points for different radio communication devices (RU), or receive When the signal strength threshold is high or low, or even in an in-building environment where an error in the received signal strength may occur due to various multi-paths, it is possible to accurately identify the terminal connected to the wireless communication device (RU). I can.

Meanwhile, the steps of the method or algorithm described in connection with the embodiments presented herein may be directly implemented in hardware or implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the present invention, or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those produced by a compiler but also high-level language codes that can be executed by a computer using an interpreter or the like. The above-described hardware device may be configured to operate as one or more software modules to perform the operation of the present invention, and vice versa.

Although the present invention has been described in detail with reference to preferred embodiments so far, the present invention is not limited to the above-described embodiments, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the following claims. Anyone of ordinary skill in the art will say that the technical idea of the present invention extends to the range in which various modifications or modifications are possible.

According to the communication management device and its operation method, and the communication expansion device according to an embodiment of the present invention, each wireless communication device through selective individual path formation between a communication management device (DU) and a plurality of wireless communication devices (RU). In that it is possible to obtain the uplink data of the terminal connected to the device, as it exceeds the limitations of the existing technology, it is not only possible to use the related technology but also to market or sell the applied device. It is an invention that has industrial applicability because it can be used.

100: communication management device (DU)
110: receiving unit 120: transmitting unit
130: selection unit 140: confirmation unit
200: Communication Expansion Unit (OEU)
210: transmission unit 220: selection unit
300a, 300b: wireless communication device (RU)
400a, 400b: terminal

Claims (7)

A receiver configured to receive integrated uplink data integrating uplink data from terminals connected to each of the plurality of wireless communication devices through an integrated path connected to a plurality of wireless communication devices;
A selector configured to form an individual path for connection with a specific wireless communication device separately from the integrated path through selective connection to each section of the integrated path; And
And a confirmation unit for checking terminal information connected to the specific wireless communication device based on uplink data received from the specific wireless communication device through the individual path. delete The method of claim 1,
The individual paths are:
A communication management device, characterized in that it is formed directly between the communication management device and the specific wireless communication device, or through a communication expansion device for connecting the communication management device and the specific wireless communication device. A transmission unit for receiving integrated uplink data integrating uplink data from a terminal connected to each of the plurality of wireless communication devices through an integrated path connected to a plurality of wireless communication devices, and transmitting the integrated uplink data to the communication management device; And
When a specific wireless communication device among the plurality of wireless communication devices is selected by the communication management device, an individual path for connection with the specific wireless communication device is selected through the selective connection to each section of the integrated path. And a selection unit formed separately from and configured to transmit uplink data of a terminal connected to the specific wireless communication device to the communication management device through the individual path. delete A receiving step of receiving integrated uplink data integrating uplink data from a terminal connected to each of the plurality of wireless communication devices through an integrated path connected to a plurality of wireless communication devices;
A selection step of forming an individual path for connection with a specific wireless communication device separately from the integrated path through selective connection to each section of the integrated path; And
And a verification step of checking terminal information connected to the specific wireless communication device based on uplink data received from the specific wireless communication device. delete

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