KR20170050378A - A virtualized base station based on sdr and method thereof - Google Patents

Abstract

The present invention relates to a virtualized base station apparatus based on SDR and a method thereof, which implement SDR-based virtualization for a communication device (SDRU) in charge of communication with a terminal device and a digital device (DU) processing communication data from the terminal device in base station equipment configuration, and dynamically change an operation mode of the communication device and the digital device according to the number of terminal devices in a cell for each communication mode, thereby increasing MIMO antenna orders, cell capacity and traffic throughput.

Description

TECHNICAL FIELD [0001] The present invention relates to a virtualized base station apparatus and method based on SDR,

The present invention relates to a SDR (Software Defined Radio) system, and more particularly to a communication device (SDRU) for communicating with a terminal device in a base station equipment configuration of a communication system, a digital device (DU) for processing communication data from the terminal device, And the dynamic operation mode of the communication device and the digital device is changed dynamically according to the number of communication modes of the terminal devices existing in the cell to increase the MIMO antenna order and increase the cell capacity and traffic throughput Based virtual base station apparatus and method.

In general, the SDR technology is a wireless connection based technology for integrating a plurality of wireless communication standards through a single transmission / reception system by modifying the software without modifying the hardware using a digital signal processing device.

On the other hand, in wireless communication based on cellular, one base station is responsible for communication with one cell or a terminal located in a sector area, and each base station performs communication for processing communication data of the terminals Device and a digital device connected thereto.

At this time, the digital device changes the existing closed hardware structure to an open hardware platform such as a PC (Personal Computer) using the above-described SDR technology and implements the wireless function in software.

The digital device generally includes a system part for controlling the communication between the digital device and the communication device, a conversion part for converting the signal transferred from the communication device, and transmitting the converted signal to the core network And conversely converts the IP signal transmitted from the core network into a signal for transmission to the communication device.

Meanwhile, as various terminal devices are present in the cell, the communication device is also equipped with communication devices of various communication modes to service a terminal device operating in a communication mode of various wireless standards.

Therefore, resource loss due to having a communication device supporting a communication mode of various radio standards is large. Further, in order to satisfy various services having various requirements when 5G is commercialized, the demand for flexible radio technology is increased .

Korean Patent Publication No. 10-2006-0058836 (Published Date June 01, 2006)

Therefore, in the present invention, SDR-based virtualization is implemented for a communication device (SDRU) for communication with a terminal device and a digital device (DU) for processing communication data from the terminal device in the base station device configuration of the communication system, An SDR-based virtual base station apparatus and method for increasing a MIMO antenna order and increasing a cell capacity and a traffic throughput by dynamically changing an operation mode of a communication device and a digital device according to the number of communication modes of a terminal device existing in the cell .

The present invention described above is an SDR-based virtual base station apparatus that processes communication data that is assigned to a communication mode of a specific radio standard and is transmitted or received from a terminal device in a cell, and is capable of selectively changing to a communication mode different from the specific communication mode A plurality of digital devices interlocked with each communication device and performing signal processing on the communication data and changing to the changed communication mode when the communication mode of the interlocked communication device is changed; And a resource manager for monitoring the number of terminal devices connected to each communication device and selectively changing the specific communication mode allocated to each communication device based on the number of the terminal devices to the other communication mode.

In addition, when the specific communication mode assigned to each communication device is changed to the other communication mode, the resource management unit may set a part of the terminal devices connected to other communication devices previously assigned to the different communication mode to the communication Mode to the communication apparatus whose mode has been changed.

In addition, the resource management unit may check whether the number of the terminal apparatuses is reduced to a predetermined reference number or less, and if the number of the terminal apparatuses is reduced to the reference number or less, The communication mode is changed to another communication mode.

If the number of the terminal apparatuses is greater than 0 and smaller than the reference number, the resource management unit maintains a part of the communication apparatus to which the terminal apparatus is connected in the specific communication mode, .

The resource management unit may also be configured to change the communication mode of each of the digital devices interlocked with the communication mode changed to the communication mode when the specific communication mode assigned to each communication device is changed to the other communication mode .

In addition, each of the communication devices can be changed to another communication mode without hardware change through software-defined radio (SDR) -based virtualization.

According to another aspect of the present invention, there is provided an SDR-based base station virtualization method comprising the steps of initially allocating a plurality of communication devices to a communication mode of a specific radio standard corresponding to each communication mode of a terminal device located in a cell, The method comprising the steps of: monitoring a number of the terminal devices to determine whether the number of the terminal devices is reduced to a predetermined reference number or less; .

According to the present invention, there is provided an SDR-based virtual base station apparatus and method, comprising: a communication device (SDRU) for communicating with a terminal device in a base station equipment configuration of a communication system; and a digital device (DU) And can dynamically change the operation mode of the communication device and the digital device according to the number of communication modes of the terminal devices existing in the cell, thereby increasing the MIMO antenna order and increasing the cell capacity and traffic throughput There is an advantage that it can be increased.

1 is a block diagram of an SDR-based base station apparatus according to an embodiment of the present invention;
2 is a flowchart showing a dynamic change control of a communication mode for a plurality of communication apparatuses in an SDR-based base station apparatus according to an embodiment of the present invention;
3 is a diagram illustrating an example of an initial communication mode allocation for a plurality of communication apparatuses in an SDR-based base station apparatus according to an embodiment of the present invention.
4 is a diagram illustrating an example of a communication mode change based on the number of terminals in an SDR-based base station apparatus according to an embodiment of the present invention.
5 is a diagram illustrating a change in a communication mode part based on the number of terminals in an SDR-based base station apparatus according to an embodiment of the present invention.

Hereinafter, the operation principle of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and these may be changed according to the intention of the user, the operator, or the like. Therefore, the definition should be based on the contents throughout this specification.

FIG. 1 illustrates a software defined radio (SDR) based base station apparatus configuration according to an embodiment of the present invention.

Hereinafter, an operation in which digital units (DUs) 114 and 116 and a communication unit (SDRU) 110 and 112 are separately operated will be described as an example . That is, the application of the present invention can be applied regardless of whether the digital devices 114 and 116 and the communication devices 110 and 112 are spatially separated. However, for convenience of explanation, The form in which the devices 110 and 112 are separated will be described as an example. Data coming through the core network can be processed to be transmitted to the corresponding communication devices 110 and 112 via the digital devices 114 and 116 and conversely data received at the communication devices 110 and 112 can be processed Via the DU-RU interface (Fronthaul) to the digital devices 114 and 116, processed and delivered to the core network.

The first and second communication apparatuses (SDRU) 110 and 112 are devices for transmitting and receiving communication data to and from the terminal devices 120 and 130 existing in the cell, and are conventionally fixed in one specific communication mode, The present invention can also selectively change the software modulated based on the SDR without changing the hardware to the other communication mode by changing the software as needed, And is capable of transmitting and receiving communication data with a terminal device of various communication modes.

That is, the first and second communication devices 110 and 112 change the closed hardware structure to a general purpose processor (GPP) based on-board hardware platform such as a PC for changing to various communication modes, (3G: WCDMA, 4G: LTE, 5G, etc.) according to various communication modes by appropriately modifying the modularized software in an "open" hardware platform.

At this time, information or resources to be changed by the first and second communication apparatuses 110 and 112 according to the change of the communication mode may include a frequency for a wireless communication with the terminal apparatuses 120 and 130, a band bandwidth, The change of the frequency, the bandwidth of the band, and the like may be performed on the basis of a general processor for controlling the first and second communication devices 110 and 112, And executing software such as an application.

In addition, the first and second communication devices 110 and 112 can be designed so that the software protocol of the first layer L1 of the logical layer can be changed based on SDR, for example, The communication mode can be changed without changing the communication mode.

The UEs 120 and 130 are collective concepts of UEs in wireless communication and include not only UEs (User Equipments) in 3G (WCDMA), 4G (LTE), and 5G, A mobile station (MS), a user terminal (UT), a subscriber station (SS), a wireless device, and the like. Cells can be interpreted in a generic sense to denote some areas or functions covered by BSC (Base Station Controller) in CDMA, NodeB in WCDMA, eNB in LTE or sectors, Cell, macrocell, microcell, picocell, femtocell, and relay node communication range.

The first and second digital devices 114 and 116 are connected to the first and second communication devices 110 and 112 to perform signal processing on communication data transmitted and received from the terminal devices 120 and 130.

In addition, the first and second digital devices 114 and 116 may be implemented as an open hardware platform such as a PC, and may be implemented to process signal processing for the above communication data in a software manner. At this time, the first and second digital devices 114 and 116 may be configured in accordance with various wireless standards (3G (WCDMA), 4G (LTE), 5G, etc.) by modifying the modularized software on the basis of the above- ), Multi-standard, multi-band, and multi-functional service can be provided.

The first and second digital devices 114 and 116 may support the software protocols of the second layer L2 and the third layer L3 of the logical layer of the wireless base station in the form of SDR, It can support virtualization functions to take advantage of processor resources between physical processors of logical base layer software protocols and open hardware platforms.

The resource management unit 118 is connected to the first and second digital devices 114 and 116 to manage the radio frequency resources of the base station 100 with respect to the terminal units 120 and 130 located in the cell, Traffic control can be performed.

The resource management unit 118 also determines the number of the terminal devices 120 and 130 connected to the first and second communication devices 110 and 112 operating in different communication modes in the cell, It is possible to control radio frequency resources or perform traffic control by changing to a different communication mode for a communication device operating in a specific communication mode based on the number of terminal devices connected to each communication device according to the device operation policy have.

That is, when the terminal devices 120 and 130 operating in the first communication mode or the second communication mode exist in the cell, for example, the resource management unit 118 may determine that the first and second communication devices The communication device can be operated by assigning the first and second communication modes 110 and 112 to the first communication mode or to the second communication mode first.

Here, the first and second communication devices 110 and 112 are devices capable of selectively changing to other communication modes by modifying the modularized software based on the SDR without changing the hardware, as described above same. Accordingly, the resource management unit 118 virtualizes and executes the software corresponding to the communication mode to be changed with respect to the first and second communication apparatuses 110 and 112 so that the first and second communication apparatuses 110 and 112 1 communication mode or a second communication mode.

Next, the resource management unit 118 determines whether the first and second communication apparatuses 110 and 112 existing in the cell are changed to the first communication mode or the second communication mode, The number of the devices 120 and 130 is monitored so that the terminal device 120 of the first communication mode connected to the first communication device 110 or the terminal device 120 of the second communication mode connected to the second communication device 112 (130) falls below a preset reference number.

As a result of the monitoring, if the number of the terminal devices 120 operating in the first communication mode decreases to a predetermined reference number or less, the first communication mode in which the number of the terminal devices 120 is reduced to the reference number or less For the first communication device 110 allocated to the first communication device 110, the second communication mode is changed to increase the MIMO antenna order available in the cell, thereby increasing the cell capacity and increasing the traffic throughput.

At this time, the resource management unit 118 changes the communication mode of the first communication device 110 to the second communication mode as described above, so that the first and second communication devices 110 and 112 The load of the second communication device 112 is reduced by connecting a part of the terminal device 130 connected to the previous second communication device 112 to the first communication device 110 when the mode is changed to the second communication mode So that the overall traffic throughput is increased.

Also, after the communication mode is changed to the second communication mode for the first communication device 110 as described above, the number of the terminal devices 120 operating in the first communication mode in the cell is changed again to the second communication mode The terminal device of the first communication mode which has increased to the first communication mode which was initially allocated to the first communication device 110 which changed the communication mode and which is increased to the reference number or more 120 to communicate with each other.

At this time, in the return control to the first communication mode initially assigned to the first communication device 110, the resource management unit 118 increases the number of the terminal devices 120 operating in the first communication mode to more than the reference number However, the present invention is not limited thereto.

That is, for example, the resource management unit 118 may be configured to allocate resources of a neighboring base station 120 to a terminal apparatus 120 of a first communication mode which is reduced to a reference number or less in a cell by using SON (Self Organized Network) A request to increase the cell coverage area by raising the transmission power may be transmitted to request the terminal 120 of the first communication mode to continue the service through the neighbor base station. In this case, even if the number of the terminal apparatuses 120 operating in the first communication mode is kept below the reference number, the resource management unit 118 may not be able to receive the cell coverage capability and the capacity of the adjacent base station, 120 to the first communication mode initially assigned to the first communication device 110 that has changed the communication mode in the second communication mode and operates in the first communication mode The service of the terminal device 120 may be maintained.

In the above description of the operation of the resource management unit 118, the first communication mode may mean, for example, 4G and the second communication mode may mean 5G, but the present invention is not limited thereto, The first communication device 110 and the second communication device 112, which have different communication modes, are present in the cell. However, the present invention is not limited thereto. In the above description, it is assumed that the number of the terminal devices 120 operating in the first communication mode has decreased to a predetermined reference number or less. However, the number of the terminal devices 130 operating in the second communication mode is The same applies even when the number is reduced to a predetermined number or less.

In the description of FIG. 1, the communication apparatuses are assigned to two different communication modes, that is, the first communication apparatus 110 and the second communication apparatus 112, but the number of such communication apparatuses May include two or more. Similarly, two or more of the first digital device 114 and the second digital device 116 may also be included.

2 illustrates an operation control flow for dynamically changing a communication mode based on the number of terminal devices per communication mode located in a cell with respect to a plurality of communication devices in an SDR-based base station apparatus according to an embodiment of the present invention. Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 and 2. FIG.

The resource management unit 118 first communicates with the terminal devices 120 and 130 when there are terminal devices 120 and 130 operating in the first communication mode 4G or the second communication mode 5G in the cell The first communication mode or the second communication mode may be preferentially allocated to the plurality of first and second communication devices 110 and 112 to be performed (S200).

At this time, in the embodiment of the present invention, for convenience of description, there are two communication modes, i.e., the first communication mode and the second communication mode, in which the communication modes in which the first and second communication devices 110 and 112 are located in the cell However, the present invention is not limited thereto. That is, the present invention is equally applicable to a case where a third communication mode exists. Although the first and second communication devices 110 and 112 are correspondingly provided for each communication mode, the present invention is not limited thereto. In addition, the first communication mode may mean 4G, and the second communication mode may mean 5G, but the present invention is not limited thereto.

Also, at this time, the first and second communication devices 110 and 112 are devices capable of selectively changing to other communication modes by modifying the modularized software based on the SDR without changing hardware, As shown above. Accordingly, the resource management unit 118 virtualizes and executes the software corresponding to the communication mode to be changed with respect to the first and second communication apparatuses 110 and 112 so that the first and second communication apparatuses 110 and 112 1 communication mode or a second communication mode.

3 is a block diagram illustrating the configuration of the resource management unit 118. The resource management unit 118 allocates the first communication device 110 and the second communication device 112 to operate in the first communication mode and the second communication mode, (120, 130) in accordance with an embodiment of the present invention.

3, when there are a similar number of 4G terminal devices 120 and 5G terminal devices 130 in the cell, for example, the first and second communication devices 110 and 112 are The first communication mode and the second communication mode are preferentially assigned one by one to perform communication with the terminal devices 120 and 130 operating in the respective communication modes.

When the first communication device 110 is set to the first communication mode, the first digital device 114 connected to the first communication device 110 is also connected to the VNF 110 for processing a signal in the 4G baseband band, (Virtualized Network Function) as a virtualization basis and can process the signals transmitted and received in the first communication mode. At this time, this VNF can be provided from the IT server.

When the second communication device 112 is set to the second communication mode, the second digital device 116 connected to the second communication device 112 is also connected to the VNF for processing a signal of the 5G baseband band May be mounted on a virtualization basis so as to be able to process a signal transmitted and received in the second communication mode. At this time, the communication mode change of the first and second digital devices 114 and 116 interlocked with the first and second communication devices 110 and 112 may be performed by the resource management unit 118 as well.

Then, the resource management unit 118 allocates the first and second communication devices 110 and 112, which are present in the cell, to the first communication mode or the second communication mode, The number of the devices 120 and 130 is checked to determine whether the terminal device 120 of the first communication mode connected to the first communication device 110 or the terminal device 120 of the second communication mode connected to the second communication device 112 (S202) whether or not the predetermined number of reference frames 130 decreases to a predetermined reference number or less.

If the number of the terminal devices 120 operating in the first communication mode is decreased below the reference number (S204) as a result of the above-mentioned monitoring result, for example, the resource management section 118 determines that the number of the terminal devices 120 is less than or equal to the reference number The second communication mode is changed to the second communication mode as shown in FIG. 4 for the first communication device 110 allocated to the first communication mode that has decreased to the second communication mode (S206).

Then, the resource management unit 118 changes the communication mode of the first communication device 110 to the second communication mode, so that the first digital device 114 connected to the first communication device 110 The VNF for processing a signal in the 5G baseband band is mounted on a virtualization basis to change the signal transmitted and received in the second communication mode to be processed (S208).

Then, the resource management unit 118 changes the communication mode of the first communication device 110 to the second communication mode, so that the first and second communication devices 110 and 112, 2 communication mode, a part of the 5G terminal apparatus 130 connected to the previous second communication apparatus 112 is connected to the first communication apparatus 110 as shown in Fig. 4 Redistribution is performed (S210).

Accordingly, by connecting a part of the 5G terminal device 130 connected to the previous second communication device 112 to the first communication device, the load on the second communication device 112 is reduced and the overall traffic throughput is increased And the first communication device 110 also communicates with the 5G terminal device 130 so that the antenna of the first communication device 110 can be used for communication with the 5G terminal device 130 so that the MIMO antenna order order can be increased and the cell capacity can be increased.

In the above description, when the number of the terminal devices 120 operating in the first communication mode decreases to a predetermined number or less in the communication mode change for the first communication device 110, , The first communication device 110 is changed to the second communication mode as shown in FIG.

However, when the first communication device 110 is changed to the second communication mode based on the reference number as described above, the terminal device 120 of the first communication mode, The service may become inaccessible.

To cope with this case, the resource management unit 118 determines that the terminal apparatus 120 in the first communication mode has decreased to the reference number or less, but the terminal apparatus 120 operating in the first communication mode, 5, the first part 110-1 of the first communication device 110 is maintained in the first communication mode, the second part 110-2 is in the second communication mode, Mode may be controlled.

In this case, the resource management unit 118 also processes the signal of the 4G baseband band for the first part 114-1 with respect to the first digital device 114 connected to the first communication device 110 VNF for processing the signal of the 5G baseband band can be virtualized for the second part 114-2 while the VNF for the second part 114-2 is mounted on the virtualization basis to keep the signals transmitted and received in the first communication mode to be processed, So that signals transmitted and received in the second communication mode can be processed to be processed.

In another embodiment, the resource management unit 118 may be connected to a terminal apparatus 120 of a first communication mode, which is reduced to a reference number or less in the cell, by a SON (Self Organized Network) 150 that manages a plurality of base stations, The request for widening the cell coverage area of the base station may be transmitted and the service for the terminal device 120 in the first communication mode may be continued through the adjacent base station whose cell coverage area is extended in accordance with the above requirement. Accordingly, it is possible to prevent a service gap that may occur as a result of changing the communication mode for a plurality of communication apparatuses.

On the other hand, when the number of the terminal devices 120 operating in the first communication mode in the cell is more than the reference number again with the communication mode changed to the second communication mode for the first communication device 110 as described above As shown in FIG.

To cope with such a case, the resource management unit 118 changes the communication mode to the second communication mode for the first communication device 110 as described above, and then transmits the terminal device 120 operating in the first communication mode in the cell, Can be monitored again to see if the number increases again above the reference number.

When the number of the terminal devices 120 operating in the first communication mode in the cell is monitored again by the reference number or more, the resource management unit 118 notifies the first communication device 110 that the communication mode has been changed It is possible to return to the first communication mode initially allocated to the terminal device 120 and to perform communication with the terminal device 120 of the first communication mode which has increased to the reference number or more. At this time, information on the increase of the terminal device 120 operating in the first communication mode in the cell may be monitored from the SON 150 and provided to the resource management unit 118, but the present invention is not limited thereto.

In addition, the resource management unit 118 determines whether the number of the terminal apparatuses 120 operating in the first communication mode in the return control to the first communication mode initially assigned to the first communication apparatus 110 is greater than or equal to the reference number However, the present invention is not limited thereto.

That is, for example, the resource management unit 118 enlarges the cell coverage area of the adjacent base station by the SON 150 that manages a plurality of base stations, for the terminal apparatus 120 of the first communication mode, It may be requested that the service for the terminal device 120 in the first communication mode is continued through the adjacent base station by transmitting the request. In this case, even if the number of the terminal devices 120 operating in the first communication mode is kept below the reference number, the resource management section 118 may not be able to determine the cell coverage capability of the neighbor base station The terminal device which is operating in the first communication mode by returning to the first communication mode initially assigned to the first communication device 110 which has changed the communication mode in the second communication mode 120 may be maintained.

As described above, according to the present invention, in an SDR-based virtual base station apparatus and method, a communication apparatus (SDRU) responsible for wireless transmission and reception in an RF band with a terminal apparatus in a base station apparatus configuration of a communication system, By implementing SDR-based virtualization for the digital device DU that processes communication data and dynamically changing the operation mode of the communication device and the digital device according to the number of communication modes of the terminal devices existing in the cell, Can be increased and the cell capacity and traffic throughput can be increased.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should not be limited by the described embodiments but should be defined by the appended claims.

In the case of applying the SDR-based virtualization technology according to the embodiment of the present invention, the operation mode of the communication device and the digital device is dynamically changed according to the number of the communication devices of the terminal devices existing in the cell to increase the MIMO antenna order And increase cell capacity and traffic throughput.

100: base station apparatus 110: first communication apparatus
112: second communication device 114: first digital device
116: second digital device 118: resource manager
120, 130: terminal device 150: SON

Claims (6)

A plurality of communication devices which are assigned to a communication mode of a specific radio standard and which process communication data transmitted or received from a terminal device in a cell and are capable of selectively changing to a communication mode different from the specific communication mode,
A plurality of digital devices interlocked with each communication device, performing signal processing on the communication data, and changing to the changed communication mode when the communication mode of the interlocked communication device is changed;
A resource management unit that monitors the number of terminal devices connected to the communication devices and selectively changes the specific communication mode assigned to each communication device based on the number of the terminal devices to the other communication mode,
Based virtual base station device.
The method according to claim 1,
The resource management unit,
When changing the specific communication mode assigned to each communication device to the other communication mode, allocating a part of the terminal devices previously connected to the other communication devices allocated to the different communication mode to the communication device whose communication mode has been changed Wherein the SDR-based virtual base station apparatus comprises:
The method according to claim 1,
The resource management unit,
The method comprising the steps of: determining whether the number of the terminal devices is reduced to a predetermined reference number or less and decreasing the number to less than the reference number; Based virtualization base station apparatus.
The method of claim 3,
The resource management unit,
Wherein the number of the terminal devices is greater than 0 and smaller than the reference number, the part of the communication device to which the terminal device is connected is kept in the specific communication mode and the other part is changed to the other communication mode.
The method according to claim 1,
Each of the communication devices includes:
A SDR-based virtual base station device capable of changing to another communication mode without hardware change through software defined radio (SDR) based virtualization.
A step of initially allocating a plurality of communication apparatuses to a communication mode of a specific wireless standard corresponding to each communication mode of a terminal apparatus located in a cell,
Monitoring the number of terminal apparatuses connected to each communication apparatus to check whether the number of the terminal apparatuses is reduced to a predetermined reference number or less;
Selectively changing the communication mode from the specific communication mode to another communication mode for the communication apparatus in which the number of the terminal apparatuses is reduced to a reference number or less
Wherein the SDR-based base station virtualization method comprises:

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