KR102095857B1 - Base station and control method thereof - Google Patents

Abstract

In the present invention, by applying a local breakout function that enables data transmission / reception to / from a base station terminal without passing through a core network, a fee is provided in providing a discounted data service to a user of the service terminal. We propose a base station apparatus and an operation method of the base station apparatus that derive the effect of simplifying the discount method more efficiently.

Description

BASE STATION AND CONTROL METHOD THEREOF}

In the present invention, by applying a local breakout function that enables data transmission / reception to / from a base station terminal without passing through a core network, a fee is provided in providing a discounted data service to a user of the service terminal. It relates to a base station apparatus and an operation method of the base station apparatus to derive the effect of simplifying the discount method more efficiently.

Recently, it is common for people to use various data services (e.g., portal service, SNS service, shopping service, etc.) through a terminal that they have personally on the go as well as in a fixed place. ) From the standpoint, the fee for using the data service is inevitable.

Due to the fact that users are burdened with charges related to the use of data services, recent companies and businesses have discounted data service charges as a means of product promotion, such as events or coupons, such as birthday data used in stores. We are using coupons that provide free data service with a capacity of 100M to customers who purchase products in stores or events that provide services for free (discount).

At this time, for the customer (user) using the data service by using the above-mentioned discounted rate discount event or coupon, the method of discounting the rate is as follows.

First, in the current data service charging method, when a terminal uses a data service by transmitting and receiving a data packet through a core network, a device in the core network (for example, an exchange) starts charging information for the terminal (for example, data service). By generating time, end time, usage of data service, etc. and providing it to the telecommunications charging system, the telecommunications charging system accumulates data usage for a certain period (e.g., one month of billing period) based on the terminal's fee information. A fee is charged according to the total data usage accumulated.

Accordingly, the method of discounting the fee for the terminal using the data service using the above-described usage fee discount event or coupon is the total data usage accumulated based on the fee information for the terminal through interworking with the communication charging system. It is a method of discounting the fee according to the total data usage of the terminal by performing the data usage change procedure to reduce or delete the data usage using the event or coupon by the discount rate.

As a result, the existing usage rate discount event or coupon-based rate discount method as described above is inefficient because it is necessary to perform a data usage change procedure after processing unnecessary charge information in the telecommunications charging system. Companies and business operators are acting as a barrier to applying events or coupons that discount data service usage fees as a means of product promotion.

On the other hand, in recent years, in order to satisfy the needs of a business institution that is prohibited by external exposure of internal data or is reluctant to externally expose internal data by itself, such as racetracks, insurance companies, etc. Server, insurance company server, etc.), a local breakout technology has appeared that enables data transmission and reception without going through the core network.

Accordingly, in the present invention, the terminal using the data service by using the discounted rate event or coupon applies a local breakout function that enables data transmission and reception at the base station end without passing through the core network, thereby reducing the price to the user of the terminal. In order to improve the inefficiency of the existing rate discount method in providing the data service.

The present invention was created in view of the above circumstances, and the object to be reached in the present invention is to apply a local breakout function that enables data transmission / reception to a service target terminal at a base station end without passing through a core network. It is to provide a base station apparatus and an operation method of a base station apparatus that derives an effect of simplifying a fee discount method more efficiently in providing a fee discounted data service to a user of a terminal.

A base station apparatus according to a first aspect of the present invention for achieving the above object, a terminal identification unit for identifying a terminal attempting to connect to a specific IP as a service target terminal; A packet determination unit to determine whether the terminal is the service target by checking the source terminal of the received uplink packet; If the source terminal of the uplink packet is not the target terminal of the service, the uplink packet is transmitted to the destination of the uplink packet via a predetermined core network, and the source terminal of the uplink packet is the target terminal of the service. And a packet transmission control unit that transmits the uplink packet to the destination of the uplink packet without passing through the core network.

Preferably, the terminal identification unit stores the IP of the service target terminal, and the packet determination unit, when the source IP of the uplink packet is the IP of the service target terminal, the source terminal of the uplink packet is the It can be confirmed that it is a service target terminal.

Preferably, the terminal identification unit, when the predetermined time has elapsed since the time when the terminal is identified as the service target terminal, or when the amount of packets transmitted without passing through the core network exceeds the specified specific packet amount, It can be excluded from the service target terminal.

A method of operating a base station apparatus according to a second aspect of the present invention for achieving the above object comprises: a terminal identification step of identifying a terminal attempting to connect to a specific IP as a service target terminal; A packet determination step of checking whether the source terminal of the received uplink packet is the service target terminal; If the source terminal of the uplink packet is not the target terminal of the service, the uplink packet is transmitted to the destination of the uplink packet via a predetermined core network, and the source terminal of the uplink packet is the target terminal of the service. And a packet transmission control step of transmitting the uplink packet to the destination of the uplink packet without passing through the core network.

Preferably, the terminal identification step stores the IP of the service target terminal, and in the packet determination step, when the source IP of the uplink packet is the IP of the service target terminal, the source terminal of the uplink packet. It can be confirmed that this is the service target terminal.

Preferably, when a predetermined time has elapsed since the time when the terminal is identified as the service target terminal, or when the amount of packets transmitted without passing through the core network exceeds the specified specific packet amount, the service target terminal It may further include the step of excluding.

Accordingly, according to the operating method of the base station apparatus and the base station apparatus of the present invention, by applying a local breakout function that enables data transmission / reception to / from a service target terminal without passing through a core network, data service discounted to a user of the service target terminal The effect of simplifying the rate discount method more efficiently in providing is derived.

1 is a block diagram showing a communication system including a base station apparatus according to a preferred embodiment of the present invention.
2 is a block diagram showing the configuration of a base station apparatus according to a preferred embodiment of the present invention.
3 is a control flow diagram of a communication system including a base station apparatus according to a preferred embodiment of the present invention.
4 is an operation flowchart showing a method of operating a base station apparatus according to a preferred embodiment of the present invention.
5 is an exemplary view showing an IP mapping table managed by a base station apparatus according to a preferred embodiment of the present invention.

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

1 is a view showing a communication system environment to which the present invention is applied.

As shown in FIG. 1, the communication system includes a terminal 1, a base station apparatus 100 of the present invention, a core network 10, a destination apparatus 200, and a fee discount service apparatus 300.

The terminal 1 is a terminal that can use a communication service such as a data service through connection with the base station apparatus 100.

The terminal 1 may use a communication service, for example, a data service, by transmitting and receiving data to and from the device corresponding to the destination, such as the destination device 200, through the core network 10 through the base station device 100.

In addition, the terminal 1 may use a communication service such as a data service by transmitting and receiving data to and from the device corresponding to the destination, such as the destination device 200, without going through the core network 10 through the base station device 100.

Here, the destination device 200 may be a general device that provides, for example, a portal service, an SNS service, a shopping service, etc., as a device of a general business institution that does not have a sense of rejection of external exposure of internal data, or external exposure of internal data. As a device of a private business institution with a feeling of rejection, it may be a private device such as a racetrack server or an insurance company server.

Here, the core network 10 is a network that supports data transmission / reception of a terminal based on a specific network protocol, and may be, for example, a Long Term Evolution (LTE) network. Hereinafter, for convenience of description, the core network 10 will be described as a common LTE network.

On the other hand, in the core network 10, for example, a specific device (for example, an exchange) in the core network 10, charge information (for example, data service start time and end) for a terminal that transmits and receives data packets via the core network 10 Time, data service usage, etc.) are generated and provided to the telecommunications charging system, allowing the telecommunications charging system to accumulate data usage for a certain period of time (e.g., one month for the billing period) based on the charge information of the terminal, thereby total data usage It is possible to charge the user of the terminal according to.

The fee discount service device 300 performs an event or coupon that discounts the data service usage fee as a means of product promotion, for example, an event that provides a free (discounted) data service used in the store to a birthday customer or a store It may be a server of companies and businesses that have generated coupons that provide free data services with a capacity of 100M to customers who purchase my products.

The fee discount service device 300 may provide a service page that performs an approval procedure for the above-described discounted usage fee event or coupon.

The base station apparatus 100 of the present invention may be, for example, an LTE base station as an access node that enables a communication service such as a data service to the terminal 1 connected thereto.

The base station apparatus 100 of the present invention supports a local breakout function that enables data transmission and reception without going through the core network 10.

Accordingly, the base station apparatus 100 of the present invention applies a local breakout function to a terminal attempting to use a rate discount service using the above-described usage rate discount event or coupon, thereby providing a data service discounted to the user of the terminal. In order to improve the inefficiencies of the existing rate discount method, it is intended to improve.

Prior to the detailed description of the base station apparatus 100 of the present invention, a private network (private LTE network) data service to which a local breakout function is applied will be described as follows.

For convenience of description, the base station apparatus 100, referring to the reference number of the base station apparatus 100, describes a private network data service, that is, a data service via a private LTE network, as described in the prior art for data between a terminal and a general apparatus. While transmitting and receiving via the core network 10, data between the terminal and the private device can be transmitted and received without passing through the core network 10.

For example, when referring to the case where the terminal 1 transmits and receives data to and from the destination device 200 as a private device, the base station device 100 determines that the destination IP of the uplink data packet received from the terminal 1 is the private device. By applying the local breakout function to the uplink data packet according to the IP of the registered destination device 200, it is transmitted to the destination device 200 via, for example, an Internet network (not shown) without passing through the core network 10, , The downlink data packet from the destination device 200 to the terminal 1 received without passing through the core network 10 may be transmitted to the terminal 1.

Therefore, the base station apparatus 100 of the present invention may be a base station apparatus that provides a private network (private LTE network) data service as described above, but does not provide a private network (private LTE network) data service, but is equipped with a local breakout function. It may be one base station device.

Hereinafter, the base station apparatus of the present invention will be described in more detail with reference to FIG. 2.

2 is a view showing the configuration of a base station apparatus according to a preferred embodiment of the present invention.

As shown in FIG. 2, the base station apparatus 100 according to the present invention includes a terminal identification unit 110 that identifies a terminal attempting to connect to a specific IP as a service target terminal, and a source terminal of the received uplink packet. The packet determination unit 120 determines whether or not the service target terminal is checked, and when the source terminal of the uplink packet is not the service target terminal, the uplink packet is transmitted to the uplink through a predetermined core network. It includes a packet transmission control unit 130 for transmitting to the destination of the packet, and transmitting the uplink packet to the destination of the uplink packet without passing through the core network when the source terminal of the uplink packet is the service target terminal.

The terminal identification unit 110 identifies a terminal attempting to connect to a specific IP as a service target terminal.

Here, it is preferable that the specific IP is a specific IP related to the rate discount service.

For example, referring to terminal 1 in more detail, as a customer (user) with terminal 1 visits a specific store (for example, an amusement park), the user's terminal 1 user rate discount event or It is assumed that a coupon is presented.

Accordingly, automatically or manually by the user as the user confirms the usage fee discount event or coupon, the terminal 1 may attempt to connect to the specific IP described above to initially access the usage fee discount event or coupon.

At this time, the specific IP registered to initially access the usage fee discount event or coupon means a specific IP related to the above-described fee discount service, and more preferably, the usage fee discount provided by the above-described fee discount service device 300 It may be an IP of a service page that performs an approval procedure for an event or coupon.

That is, the terminal identification unit 110 may identify a terminal attempting to connect to a specific IP, for example, a terminal attempting to access a specific IP related to a rate discount service (eg, terminal 1) as a service target terminal.

Hereinafter, for convenience of description, a case where the terminal 1 is identified as a service target terminal will be described.

The packet determination unit 120 determines whether the terminal is the service target by checking the source terminal of the received uplink packet.

The determination process of the packet determination unit 120 will be described in more detail as follows.

First, the terminal identification unit 110 stores the IP of the service target terminal to be confirmed.

For example, if the terminal identification unit 110 identifies the terminal 1 as a service target terminal, the terminal 1 determines the source IP, that is, the IP of the terminal 1, from the uplink data packet that the terminal 1 attempts to connect to a specific IP related to the rate discount service. Obtained and stored as the IP of the service target terminal.

Accordingly, the terminal identification unit 110 may store the IP of the terminal 1 (eg, 120.120.10.10) as the IP of the service target terminal, as shown in the table shown in FIG. 5 (hereinafter referred to as an IP mapping table), In addition, the IPs of multiple terminals attempting to connect to a specific IP related to the rate discount service (eg, 120.120.20.10, 130.140.30.40, etc.) may be stored as the IP of the service target terminal.

The packet determination unit 120 checks the source terminal of the uplink data packet based on the table shown in FIG. 5, that is, the IP mapping table, for each received uplink data packet to determine whether it is a service target terminal. do.

More specifically, the packet determination unit 120, based on the IP mapping table, when the source IP of the received uplink data packet is the IP of the service target terminal (eg, terminal 1), the uplink data received this time It is determined that the source terminal of the packet is a service target terminal (eg, terminal 1).

At this time, as can be seen in FIG. 5, in the IP mapping table, the IP of the service target terminal is stored as the source IP to which the local breakout function is applied, while the specific IP is not stored as the destination IP, so the local break is independent of the destination IP. Make it possible to apply the out function.

When the packet transmission control unit 130 determines that the packet determination unit 120 determines the source terminal service target terminal (eg, terminal 1) of the uplink data packet, the uplink data packet is uplinked without passing through the core network 10. Send to the destination of the data packet.

That is, the packet transmission control unit 130 applies the local breakout function to the uplink data packet received from the service target terminal (eg, terminal 1), thereby uplink received from the service target terminal (eg, terminal 1). The data packet is transmitted to the destination device 200 corresponding to the destination IP of the uplink data packet without passing through the core network 10.

After all, when applying the local breakout function to provide the existing private network (private LTE network) data service, if the local breakout function is applied depending on whether the destination IP of the uplink data packet is the IP of the private device, otherwise The base station apparatus 100 of the present invention applies a local breakout function according to whether the source IP of the uplink data packet is the IP of the service target terminal attempting to use the rate discount service among the unspecified multiple terminals, and thus, from the service target terminal. The uplink data packet of can be offloaded so that the base station does not pass through the core network 10.

As described above, in the present invention, as the uplink data packet received from the service target terminal (eg, terminal 1) is transmitted from the base station end to the destination device 200 without passing through the core network 10, the service target terminal (eg, terminal 1) With respect to), it leads to a result that charge information is not generated when the uplink data packet is passed through the core network 10.

At this time, the packet transmission control unit 130, in the process of transmitting the uplink data packet received from the service target terminal (for example, terminal 1) to the destination device 200, the source IP identified from the uplink data packet, that is, the service target terminal It is preferable to map and store the destination IP (ie, terminal 1) and the destination IP, that is, the destination device 200.

Accordingly, the packet transmission control unit 130 maps the source network, that is, the service target terminal (eg, terminal 1) and the destination IP, that is, the destination device 200 IP, according to the mapping information, and the core network 10 from the destination device 200. ) The received downlink data packet can be transmitted to the corresponding service target terminal (eg, terminal 1) without passing through.

As described above, in the present invention, by transmitting the downlink data from the destination device 200 to the service target terminal (eg, terminal 1) without passing through the core network 10, the service target terminal (eg, terminal 1) is downloaded. It leads to a result that the link data packet does not generate charge information as it passes through the core network (10).

On the other hand, for the terminal attempting to use the rate discount service, that is, the target terminal of the service, it is necessary to determine a limit for using the rate discount service.

Accordingly, the terminal identification unit 110, for a terminal, for example, the terminal 1, the predetermined amount of time has elapsed since the point of time identified as the service target terminal, or the amount of packets transmitted without passing through the core network 10, the specified specific packet amount In the case of exceeding, it is preferable to exclude terminal 1 from the service target terminal.

At this time, referring to the rate discount service, for example, the predetermined specific time may be a predetermined rate discount time, and the predetermined specific packet amount is the amount of data packets transmitted without passing through the core network 10, that is, the uplink data packet and It is preferable that the total amount of downlink data packets is a predetermined rate discount data packet amount.

Accordingly, the terminal identification unit 110, for example, the terminal 1, the predetermined rate discount time has elapsed since the time point identified as the service target terminal, or the amount of data packets transmitted without passing through the core network 10, that is, uplink data When the total amount of packets and downlink data packets exceeds a predetermined rate discount data packet amount, terminal 1 may be excluded from the service target terminal.

That is, after the terminal identification unit 110 stores the IP of the terminal 1 (eg 120.120.10.10) in the IP mapping table as the IP of the service target terminal, when a predetermined rate discount time (eg 2 hours) elapses The IP of the terminal 1 (eg, 120.120.10.10) can be excluded (deleted) from the IP mapping table.

Alternatively, the terminal identification unit 110 stores the IP of the terminal 1 (eg, 120.120.10.10) in the IP mapping table as the IP of the service target terminal, and then transmits the data packet of the terminal 1 without passing through the core network 10. When the total amount of uplink data packets and downlink data packets exceeds the specified rate discount data packet quantity (eg 100M), the IP of the terminal 1 (eg 120.120.10.10) is excluded (deleted) from the IP mapping table. You can.

Therefore, after the IP of the terminal 1 (for example, 120.120.10.10) is stored in the IP mapping table as a service target terminal, the data of the terminal 1 transmitted without passing the rate discount time (for example, 2 hours) or passing through the core network 10. As the packet quantity exceeds the rate discount data packet quantity (eg, 100M), it can be excluded (deleted) from the IP mapping table.

In this case, the base station apparatus 100 of the present invention will determine that the uplink data packet received from the terminal 1 is not received from the service target terminal, and thus the uplink data packet received from the terminal 1 and Likewise, the downlink data packet transmitted via the core network 10 to the destination device 200 corresponding to the destination IP of the destination, that is, the uplink data packet, is received from the destination device 200 via the core network 10. Will be transmitted to the corresponding terminal 1.

After all, the base station apparatus 100 of the present invention, based on the source IP of the uplink data packet, the uplink data received from the service target terminal (for example, terminal 1) attempting to use the rate discount service among the unspecified multiple terminals. Downlink data packet that is transmitted to the destination device 200 corresponding to the destination IP without passing through the core network 10 by applying the local breakout function to the packet, and is received from the destination device 200 without passing through the core network 10 Uplink to the target terminal (e.g., terminal 1) in a specific device (e.g., switchboard) in the core network (10), especially the core network (10), by transmitting the corresponding target terminal (e.g., terminal 1) It leads to a result that the downlink data packet does not generate charge information according to passing through the core network 10.

That is, according to the present invention, in the core network 10, particularly in a specific device (eg, exchange) in the core network 10, the core network for data transmission and reception between the service target terminal (eg, terminal 1) and the destination device 200 (10) Since it does not share, it does not generate charge information (eg, data service start time, end time, data service usage, etc.), and eventually charges information on the service target terminal (eg, terminal 1). Because it is not provided by the system, the total amount of data used by the terminal 1 accumulated for a certain period of time (for example, one month for the billing period) based on the charge information of the terminal 1 in the telecommunications charging system is the IP mapping table as the terminal for service. Data usage while stored in (Fig. 5) will not be included.

Therefore, for the service target terminal using the data service using a discount service discount coupon or coupon, a contract with a telecommunication company operating the base station device 100 by companies and businesses promoting the product using the discount service discount coupon or coupon If you are a user of a service target terminal (e.g., terminal 1) using a data service using a coupon discount event or coupon, you can pay through the usage fee discount event or coupon to use the data usage using the data service. You only have to pay the fee based on the total data usage.

As described above, according to the base station apparatus according to the preferred embodiment of the present invention, the terminal that uses the data service using a discount rate event or coupon, that is, a local terminal that enables data transmission / reception to / from a service target terminal without passing through a core network. By applying the breakout function, the effect of simplifying the rate discount method more efficiently is derived in providing the rate discounted data service to the user of the service target terminal.

On the other hand, if the base station apparatus 100 of the present invention is a base station apparatus providing a private network (private LTE network) data service as described above, the destination IP is a private apparatus for the uplink data packet not received from the service target terminal. Depending on whether it is IP, local breakout function may be applied.

Hereinafter, an operation method of the base station apparatus according to the present invention will be described with reference to FIGS. 3 to 4. For convenience of description, description will be made with reference to FIGS. 1 and 2 and FIG. 5 described above.

First, referring to FIG. 3, the control flow of the communication system including the base station apparatus according to the present invention will be described.

The terminal 1 may attempt to connect to a specific IP related to the rate discount service registered to be initially connected (S10), by scanning the rate discount QR code recorded in the rate discount coupon (S20).

In this case, the specific IP related to the rate discount service registered to be initially connected means a specific IP related to the above-mentioned rate discount service, and more preferably, a usage rate discount event or coupon provided by the above-described rate discount service device 300 It may be the IP of the service page that performs the approval procedure for.

At this time, the base station apparatus 100 may identify a terminal (eg, terminal 1) attempting to access with a specific IP related to the rate discount service as a service target terminal (S30).

Then, when the terminal 1 transmits the uplink data packet (S40), the base station apparatus 100 determines whether the source terminal of the received uplink data packet is a service target terminal, that is, whether the uplink data packet is received from the service target terminal. It is determined whether or not (S50).

If, in the first case, the terminal 1 is not identified as the service target terminal, the base station apparatus 100 will determine that this uplink data packet has not been received from the service target terminal (S50 No).

Accordingly, in the first case, the base station apparatus 100 transmits the uplink data packet received from the terminal 1 via the core network 10 as before, to the destination apparatus 200 corresponding to the destination IP of the uplink data packet. ) Will be transmitted (S60). Accordingly, the destination device 200 receives the data packet from the terminal 1 via the core network 10 (S80).

In this first case, in the core network 10, particularly in a specific device (for example, an exchange) in the core network 10, charge information related to the uplink data packet passing through the core network 10 in connection with the terminal 1 is existing. By generating as shown in (S65) and providing it to the telecommunications charging system, the telecommunications charging system accumulates data usage for a certain period (e.g., one month of billing period) based on the charge information of the terminal 1 and charges according to the total data usage To be charged to the user of the terminal.

Then, in the first case, the base station apparatus 100 receives the downlink data packet from the destination apparatus 200 via the core network 10 (S90), and transmits the received downlink data packet to the corresponding terminal 1 (Send) will (S110).

In this first case, in the core network 10, particularly in a specific device (for example, an exchange) in the core network 10, the fee information associated with the downlink data packet passing through the core network 10 in connection with the terminal 1 is existing. By generating as described above (S95) and providing it to the telecommunications charging system, the telecommunications charging system accumulates data usage for a certain period of time (e.g., one month for the billing period) based on the charge information of the terminal 1 and charges according to the total data usage To be charged to the user of the terminal.

However, in the second case in which the terminal 1 is identified as the service target terminal in step S30 as described above, the base station apparatus 100 will determine that the uplink data packet is received from the service target terminal (S50 Yes).

Accordingly, in the second case, the base station apparatus 100 applies the local breakout function to the uplink data packet received from the terminal 1, thereby allowing the uplink data packet received from the service target terminal (eg, the terminal 1) to be a core network. (10) It will be transmitted to the destination device 200 corresponding to the destination IP of the destination, that is, the uplink data packet without passing (S70). Accordingly, the destination device 200 receives the data packet from the terminal 1 without going through the core network 10 (S80).

Then, in the second case, the base station apparatus 100 receives the downlink data packet from the destination apparatus 200 without passing through the core network 10 (S100), and transmits the received downlink data packet to the corresponding terminal 1 ( Transmit) (S110).

After all, the base station apparatus 100 of the present invention, in the second case where the terminal 1 is identified as the service target terminal, applies the local breakout function to the uplink data packet received from the terminal 1 and passes through the core network 10. Without transmitting to the destination device 200 corresponding to the destination IP, and by transmitting the downlink data packet received from the destination device 200 without passing through the core network 10 to the corresponding terminal 1, the core network 10, in particular the core network (10) In a specific device (for example, an exchange), a result of preventing charge information generated by the uplink / downlink data packet passing through the core network 10 in connection with the service target terminal, that is, the terminal 1 is drawn. Pay.

Hereinafter, an operation method of a base station apparatus according to a preferred embodiment of the present invention will be described in detail with reference to FIG. 4.

In the operation method of the base station apparatus 100 according to the present invention, a terminal attempting to access a specific IP, for example, a specific IP related to a rate discount service, is identified as a service target terminal (S200).

For example, the operation method of the base station apparatus 100 according to the present invention is a terminal that attempts to connect to a specific IP related to a rate discount service, that is, an IP of a service page that performs an approval procedure for a use rate discount event or coupon ( Example: Terminal 1) can be identified as a service target terminal.

Hereinafter, for convenience of description, a case where the terminal 1 is identified as a service target terminal will be described.

Accordingly, in the operation method of the base station apparatus 100 according to the present invention, if the terminal 1 is identified as the service target terminal, the source IP, that is, the terminal, from the uplink data packet where the terminal 1 attempts to connect to a specific IP related to the rate discount service The IP of 1 can be obtained and stored in the IP mapping table shown in FIG. 5 as the IP of the service target terminal.

And, the operation method of the base station apparatus 100 according to the present invention, for the terminal 1, after the time point identified as the service target terminal, the rate discount time (for example, 2 hours) or the rate discount data packet amount (for example, 100M) Counting starts (S210).

On the other hand, the operation method of the base station apparatus 100 according to the present invention, when the uplink data packet is received (S220), based on the table shown in Figure 5 for each of the received uplink data packet, that is, IP mapping table, It is determined whether the source terminal of the uplink data packet is a service target terminal, that is, whether the uplink data packet is received from the service target terminal (S230).

More specifically, in the operation method of the base station apparatus 100 according to the present invention, based on the IP mapping table, when the source IP of the received uplink data packet is the IP of the service target terminal (eg, terminal 1), It is determined that the received uplink data packet is received from the service target terminal (eg, terminal 1) (S230 Yes).

On the other hand, in the operation method of the base station apparatus 100 according to the present invention, based on the IP mapping table, when the source IP of the received uplink data packet is not the IP of the service target terminal, the received uplink data packet is It can be determined that it has not been received from the service target terminal (S230 No).

If it is determined that the uplink data packet has not been received from the service target terminal (S230 No), the operation method of the base station apparatus 100 according to the present invention is the core network 10 as previously described for the uplink data packet received this time. ) To the destination device 200 corresponding to the destination IP of the destination, that is, the uplink data packet (S250).

On the other hand, if it is determined that the uplink data packet is received from the service target terminal (eg, terminal 1) (S230 Yes), the operation method of the base station apparatus 100 according to the present invention cores the received uplink data packet. The network 10 is transmitted to the destination device 200 corresponding to the destination IP of the destination, that is, the uplink data packet (S240).

That is, in the operation method of the base station apparatus 100 according to the present invention, by applying a local breakout function to an uplink data packet received from a service target terminal (eg, terminal 1), a service target terminal (eg, terminal 1) ) Is to transmit the uplink data packet received from the destination device 200 corresponding to the destination IP of the uplink data packet without passing through the core network 10.

After all, when applying the local breakout function to provide the existing private network (private LTE network) data service, if the local breakout function was applied depending on whether the destination IP of the uplink data packet is the IP of the private device, otherwise The operating method of the base station apparatus 100 according to the present invention, by applying a local breakout function according to whether the source IP of the uplink data packet is the IP of the service target terminal attempting to use the rate discount service among unspecified terminals, The uplink data packet from the service target terminal may be offloaded so that the base station does not pass through the core network 10.

As described above, the operation method of the base station apparatus 100 according to the present invention transmits the uplink data packet received from the service target terminal (eg, terminal 1) to the destination apparatus 200 without passing through the core network 10 from the base station stage. Accordingly, it leads to a result that charge information is not generated as the uplink data packet passes through the core network 10 in connection with the service target terminal (eg, terminal 1).

On the other hand, the operation method of the base station apparatus 100 according to the present invention is based on the counter initiated in step S210, when the terminal 1 is identified as the service target terminal, that is, the IP of the terminal 1 (for example, 120.120.10.10) is IP mapping. After the data is stored in the table, the counter is terminated as the rate of data discount for the terminal 1 transmitted without passing the rate discount time (for example, 2 hours) or via the core network 10 exceeds the rate discount data packet amount (for example, 100M). It is judged (S260).

Accordingly, the operation method of the base station apparatus 100 according to the present invention stores / maintains the IP of the terminal 1 in the IP mapping table until the counter for the terminal 1 ends (S260 No) as a result of the determination in step S260, When the uplink data packet is received in step S220, the uplink data packet from terminal 1 in step S230 can be determined to be received from the service target terminal.

On the other hand, in the operation method of the base station apparatus 100 according to the present invention, when the counter for terminal 1 is terminated as a result of the determination in step S260 (S260 Yes), the IP of terminal 1 is excluded (deleted) from the IP mapping table ( S270).

As described above, the operation method of the base station apparatus according to the present invention includes a local breakout function that enables data transmission / reception to / from a terminal using a data service using a discount service event or coupon, that is, a service target terminal without passing through a core network. By applying, we derive the effect of simplifying the rate discount method more efficiently in providing the rate discounted data service to the user of the service target terminal.

The method of operating a base station apparatus according to an embodiment of the present invention may be implemented in a 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, or 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 available 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, DVDs, and magnetic media such as floptical disks. -Hardware devices 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 high-level language code that can be executed by a computer using an interpreter, etc., as well as machine language codes produced by a compiler. The hardware device described above may be configured to operate as one or more software modules to perform the operation of the present invention, and vice versa.

The present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above-described embodiments, and the technical field to which the present invention pertains without departing from the gist of the present invention claimed in the claims below. Anyone with ordinary knowledge in the technical idea of the present invention extends to the extent that various modifications or modifications are possible.

According to the operating method of the base station apparatus and the base station apparatus according to the present invention, by applying a local breakout function that enables data transmission / reception to / from a service target terminal without passing through a core network, a fee discount is provided to a user of the service target terminal In that it derives the effect of simplifying the rate discount method more efficiently in providing the data service, it is possible to commercialize or sell the applied device, not just the use of the related technology, as it exceeds the limitations of the existing technology. It is an invention that has industrial applicability because it is not only sufficient but can be practiced clearly in reality.

100: base station device
110: terminal identification unit 120: packet determination unit
130: transmission control unit

Claims (6)

A terminal identification unit that identifies a terminal attempting to connect to a specific IP as a service target terminal;
A packet determination unit to determine whether the terminal is the service target by checking the source terminal of the received uplink packet;
When the source terminal of the uplink packet is not the target terminal of the service, the uplink packet is transmitted to the destination of the uplink packet via a predetermined core network, and the source terminal of the uplink packet is the target terminal of the service. And a packet transmission control unit for transmitting the uplink packet to the destination of the uplink packet without passing through the core network.
The terminal identification unit,
For the terminal, when a predetermined time has elapsed since the point of time identified as the service target terminal, it is excluded from the service target terminal,
The specific IP,
Base station apparatus characterized in that it is the IP of the service page that performs the approval procedure for the usage fee discount event or coupon. According to claim 1,
The terminal identification unit stores the IP of the service target terminal,
The packet determination unit,
If the source IP of the uplink packet is the IP of the service target terminal, the base station apparatus characterized in that it determines that the source terminal of the uplink packet is the service target terminal. According to claim 1,
The terminal identification unit,
If the amount of packets transmitted to the terminal without passing through the core network exceeds a predetermined specific packet amount, the base station apparatus characterized in that it is excluded from the service target terminal. A terminal identification step of identifying a terminal attempting to connect to a specific IP as a service target terminal;
A packet determination step of checking whether the source terminal of the received uplink packet is the service target terminal;
When the source terminal of the uplink packet is not the target terminal of the service, the uplink packet is transmitted to the destination of the uplink packet via a predetermined core network, and the source terminal of the uplink packet is the target terminal of the service. And a packet transmission control step of transmitting the uplink packet to the destination of the uplink packet without going through the core network.
Further comprising the step of excluding, from the service target terminal, when a predetermined time has elapsed since the time point identified as the service target terminal for the terminal,
The specific IP,
Method of operating a base station device, characterized in that the IP of the service page that performs the approval procedure for the discount rate event or coupon. The method of claim 4,
In the terminal identification step, the IP of the service target terminal is stored,
The packet determination step,
When the source IP of the uplink packet is the IP of the service target terminal, the method of operating the base station apparatus, characterized in that it determines that the source terminal of the uplink packet is the service target terminal. The method of claim 4,
When the amount of packets transmitted to the terminal without passing through the core network exceeds a predetermined specific packet amount, the method of operating the base station apparatus further comprising the step of excluding from the service target terminal.

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