KR101309626B1 - Apparatus and method to provide multicast/broadcast service in a mobile communication system - Google Patents

Abstract

The present invention provides a method for providing a multicast / broadcast service of an Internet Protocol (IP) terminal in a mobile communication system, wherein the multicast data packet is replaced when a multicast data packet is generated ( converting the multicast data packet to a femto base station Node B through an uplink, and when the broadcast data packet is generated, converts the broadcast data packet into an alternation broadcast data packet. Converting and transmitting to the femto Node B through the uplink, wherein the alternation multicast data packet is multicasted into a multicast group in which the data packet includes the IP terminal and at least one other IP terminal. Information indicating that the data packet is to be cast; The broadcast data packet includes information indicating that the data packet is a data packet to be broadcast to all IP terminals connected to the femto Node B.

Description

Apparatus and method for providing multicast / broadcast service in mobile communication system {APPARATUS AND METHOD TO PROVIDE MULTICAST / BROADCAST SERVICE IN A MOBILE COMMUNICATION SYSTEM}

The present invention relates to an apparatus and method for providing a multicast / broadcast service in a mobile communication system. In particular, the present invention relates to an apparatus and method for providing a multicast / broadcast service in a mobile communication system including a femto Node B.

A representative example of a mobile communication system is a wideband code division multiple access (WCDMA) communication system, and the WCDMA communication system is a user equipment (UE). UE's are evolving to provide a variety of high-speed, high-capacity services. In particular, in the WCDMA communication system, it is important to service the shadow area in order to increase the overall system capacity and improve the quality of service. In this way, the service of the shadow area is important because it has a very important influence on the expansion of the service area of the base station (Node B, hereinafter referred to as "Node B") and the capacity increase of Node B.

Accordingly, in the WCDMA communication system, various methods for servicing the shadow area have been proposed, and a representative method thereof is a relay or repeater using an interface with a macro Node B. ) And femto Node B using the interface with the core network (CN). Here, the femto Node B is a Node B having the smallest size among the proposed Node Bs, a femto cell which is a small communication area of an office, a residential area, a building, etc., which is independent of a general Node B, that is, a macro Node B. A communication service is provided to a small number of UEs existing in an area. That is, the femto Node B not only can service the shadow area but also reduces the load of the macro Node B, thereby increasing the service capacity of a service provider unlike a repeater sharing the capacity of the macro Node B. You can.

Meanwhile, various methods have been proposed in the WCDMA communication system to provide a multicast / broadcast service. When the multicast / broadcast service providing scheme proposed in the WCDMA communication system is used up to now, it is possible to transmit a multicast / broadcast data packet through the downlink. That is, the femto Node B is capable of transmitting multicast / broadcast data packets to the UEs.

However, when using the multicast / broadcast service providing method proposed in the WCDMA communication system to date, unlike the downlink, it is impossible to transmit the multicast / broadcast data packet through the uplink. . That is, UEs are unable to transmit multicast / broadcast data packets to femto Node B. As such, the reason why UEs are unable to transmit multicast / broadcast data packets to femto Node B is because they do not allow UEs to independently create multicast groups in a WCDMA communication system.

Accordingly, there is a need for a method of providing a multicast / broadcast service to enable the transmission of multicast / broadcast data packets on the uplink in a WCDMA communication system.

An embodiment of the present invention proposes an apparatus and method for providing a multicast / broadcast service in a mobile communication system.

Another embodiment of the present invention proposes an apparatus and method for providing a multicast / broadcast service to enable transmission of uplink multicast / broadcast data packets in a mobile communication system.

Another embodiment of the present invention proposes an apparatus and method for providing a multicast / broadcast service in a mobile communication system supporting a Local Network IP Access (LIPA) method.

Another embodiment of the present invention proposes an apparatus and method for providing a multicast / broadcast service in a mobile communication system including a femto base station Node B without changing a protocol.

The apparatus proposed in the embodiment of the present invention; In an Internet Protocol (IP) terminal in a mobile communication system, when a multicast data packet is generated, the multicast data packet is converted into an alternative multicast data packet and broadcasted. A control unit for converting the broadcast data packet into an alternation broadcast data packet when a data packet is generated, and a femto base station Node B through the uplink with the multicast data packet and the broadcast data packet. And a transmission unit for transmitting the information, wherein the alternation multicast data packet includes information indicating that the data packet is a data packet to be multicast into a multicast group including the IP terminal and at least one other IP terminal. Wherein the alternation broadcast data packet is A per data packet, it characterized in that it includes information indicating that all the IP terminals to broadcast a data packet to be connected to the femto Node B.

The apparatus proposed in another embodiment of the present invention; In a femto base station Node B in a mobile communication system, an alternative multicast data packet is received from an Internet Protocol (IP) terminal through an uplink, and an IP is received. A receiving unit for receiving an alternation broadcast data packet from a terminal, a control unit for converting the replacement multicast data packet into a multicast data packet and converting the replacement broadcast data packet into a broadcast data packet; A transmission unit for transmitting the multicast data packet to IP terminals included in a corresponding multicast group, and transmitting the broadcast data packet to all IP terminals connected to the femto Node B; At least one alternation multicast data packet is a corresponding data packet excluding the IP terminal. Information indicating that the data packet is to be multicasted to another IP terminal, and the alternation broadcast data packet should be broadcasted to all IP terminals connected to the femto Node B except the IP terminal. And information indicating that the data packet is to be performed.

The method proposed in the embodiment of the present invention; A method of providing a multicast / broadcast service of an Internet Protocol (IP) terminal in a mobile communication system, the method comprising: replacing a multicast data packet when a multicast data packet is generated Converting a cast data packet to a femto base station Node B through an uplink and converting the broadcast data packet into an alternation broadcast data packet when a broadcast data packet is generated. Transmitting to the femto Node B through an uplink, wherein the alternation multicast data packet is to be multicasted into a multicast group including the IP packet and at least one other IP terminal. It includes information indicating that the data packet, the alternation broadcast Bit data packet, characterized in that the data packet contains information indicating that all the IP terminals to broadcast a data packet to be connected to the femto Node B.

In another embodiment of the present invention the method proposed; In a method for providing a multicast / broadcast service of a femto base station Node B in a mobile communication system, replacing from an Internet Protocol (IP) terminal through an uplink (alternation) receiving the multicast data packet, converting the replacement multicast data packet into a multicast data packet and transmitting it to IP terminals included in the multicast group; and alternation broadcast from the IP terminal Receiving the data packet, converting the replacement broadcast packet into a broadcast data packet and transmitting the data packet to all IPs connected to the femto Node B. The alternation multicast data packet includes the corresponding data packet. Data packet to be multicast to at least one other IP terminal, except for the IP terminal The alternation broadcast data packet includes information indicating that the data packet is a data packet to be broadcast to all IP terminals connected to the femto Node B except the IP terminal. It features.

The present invention is effective in providing a multicast / broadcast service in a mobile communication system, particularly in a mobile communication system using femto Node B.

In addition, the present invention has the effect of providing a multicast / broadcast service to enable the transmission of uplink multicast / broadcast data packets in a mobile communication system.

In addition, the present invention is effective in providing a multicast / broadcast service in a mobile communication system that supports a Local Network IP Access (LIPA) method in a mobile communication system.

In addition, the present invention has the effect of providing a multicast / broadcast service in a mobile communication system including a femto base station (Node B) without a separate protocol change.

1 is a view schematically showing the structure of a WCDMA communication system according to an embodiment of the present invention;
2 is a diagram illustrating a format of an uplink replacement multicast data packet transmitted from a UE to a femto Node B in a WCDMA communication system according to an embodiment of the present invention.
3 illustrates the format of an uplink alternate broadcast data packet transmitted from a UEs to a femto Node B in a WCDMA communication system according to an embodiment of the present invention.
4 illustrates a format of a downlink multicast data packet transmitted to UEs in a femto Node B of a WCDMA communication system according to an embodiment of the present invention.
5 illustrates a format of a downlink broadcast data packet transmitted to UEs in a femto Node B of a WCDMA communication system according to an embodiment of the present invention.
6 is a flowchart schematically illustrating an operation process of a UE in a WCDMA communication system according to an embodiment of the present invention.
7 is a flowchart illustrating an operation process of a femto Node B in a WCDMA communication system according to an embodiment of the present invention.
8 is a diagram schematically illustrating an internal structure of a femto Node B in a WCDMA communication system according to an embodiment of the present invention.
9 is a diagram schematically showing an internal structure of a UE in a WCDMA communication system according to an embodiment of the present invention;

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following description, a 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.

An embodiment of the present invention proposes an apparatus and method for providing a multicast / broadcast service in a mobile communication system. In another embodiment of the present invention, a terminal assigned an Internet Protocol (IP) address through an uplink in a mobile communication system (hereinafter, referred to as an "IP terminal"). An apparatus for providing a multicast / broadcast service to enable a multicast / broadcast data packet to be transmitted to a femto base station (Node B, hereinafter referred to as 'Node B'); Suggest a method. In another embodiment of the present invention, a mobile terminal supporting a local network Internet Protocol (IP) connection (LIPA: Local Network IP Access, hereinafter referred to as 'LIPA') scheme is supported. An apparatus and method for providing a multicast / broadcast service in a communication system are provided.

Hereinafter, in describing embodiments of the present invention, it is assumed that a mobile communication system is a wideband code division multiple access (WCDMA) communication system, for example. In addition to communication systems, Code Division Multiple Access (CDMA) communication systems, 3rd Generation Partnership Project (3GPP) Long-Term Evolution (LTE) communication systems, and IEEE (Institute) Other mobile communication systems, such as the 802.16 communication system of Electrical and Electronics Engineers, and the Mobile Interoperability for Microwave Access (WiMAX) communication system. In addition, in describing the embodiments of the present invention, an IP terminal is assumed to be a user terminal (UE) as an example (hereinafter referred to as UE). Of course, all terminals may be allocated.

1 is a view schematically showing the structure of a WCDMA communication system according to an embodiment of the present invention.

Referring to FIG. 1, the WCDMA communication system includes a plurality of UEs, for example, N UEs, that is, UE # 1 111-1, UE # 2 111-2, and UE # 3 111-. 3) and… UE # N 111-N, femto Node B 113, router 115, multiple local hosts, e.g., M local hosts, ie local host # 1 117 -1), local host # 2 117-2, local host # 3 117-3,... And a local host #M 117 -M, a public network 119, and a core network 121.

In FIG. 1, only one router, that is, the router 115 is connected to the public network 119, and only one femto Node B, that is, a femto Node B 113, is connected to one router. There is no limit to the number of routers connected to one public network and the number of femto Node Bs connected to one router.

In addition, it is assumed that the WCDMA communication system of FIG. 1 supports the LIPA scheme. In FIG. 1, the UEs and the femto Node B 113 are shown separated from local hosts. However, when the WCDMA communication system uses the LIPA scheme, the UEs and the femto Node B in terms of the router 115 are illustrated. 113 is also determined to be the local host.

On the other hand, in the case of using the multicast / broadcast service providing method proposed in the WCDMA communication system to date, unlike the downlink, it is impossible to transmit a multicast / broadcast data packet through the uplink. That is, the UEs are unable to transmit multicast / broadcast data packets to the femto Node B 113.

However, embodiments of the present invention propose a method of providing a multicast / broadcast service so that uplink multicast / broadcast data packets can be transmitted. That is, when using the multicast / broadcast service provision scheme proposed in the embodiments of the present invention, UEs can transmit an uplink multicast / broadcast data packet to a femto Node B.

In FIG. 1, a structure of a WCDMA communication system according to an embodiment of the present invention has been described. Next, an uplink multi-carrier transmitted from a UE to a femto Node B in a WCDMA communication system according to an embodiment of the present invention will be described with reference to FIG. 2. The format of the cast / broadcast data packet will be described.

2 is a diagram illustrating a format of an uplink replacement multicast data packet transmitted from a UE to a femto Node B in a WCDMA communication system according to an embodiment of the present invention.

Referring to FIG. 2, the uplink replacement multicast data packet includes an Internet Protocol (IP) header field 210 and a payload. Field 220. The IP header field 210 includes a protocol type field 211, a source IP address field 213, and a destination IP address field 215.

The protocol type field 211 is a field indicating a protocol type of the uplink replacement multicast data packet, and a field value of the protocol type field 211 is set to an alternative multicast type because the data packet is a multicast data packet. do. Here, it is assumed that the alternative multicast type is set to a protocol type that is not currently used in the WCDMA communication system between the femto Node B and the UEs, and the alternative multicast type is pre-provisioned between the femto Node B and the UEs. .

The source IP address field 213 is a field indicating an IP address of a source for transmitting the alternate uplink multicast data packet, and a field value of the source IP address field 213 indicates the uplink alternate multicast data packet. It is set to the IP address of the transmitting UE.

The destination IP address field 215 is a field indicating an IP address of a destination where the uplink replacement multicast data packet is to be received, and a field value of the destination IP address field 215 is a unicast IP. It is set to an address.

As such, when the femto Node B receives an uplink replacement multicast data packet having a format as described with reference to FIG. 2, the femto Node B has a field value set in the protocol type field 211 as an alternative multicast type. Therefore, the uplink replacement multicast data packet can be transmitted to UEs included in the corresponding multicast group. Here, the detailed description of the multicast group generation and the UEs included in the multicast group will be omitted.

2 illustrates the format of an uplink replacement multicast data packet transmitted from a UE to a femto Node B in a WCDMA communication system according to an embodiment of the present invention. Next, an embodiment of the present invention will be described with reference to FIG. The format of the uplink replacement broadcast data packet transmitted from the UEs of the WCDMA communication system to the femto Node B will be described.

3 is a diagram illustrating a format of an uplink replacement broadcast data packet transmitted from a UEs to a femto Node B in a WCDMA communication system according to an embodiment of the present invention.

Referring to FIG. 3, the uplink replacement broadcast data packet includes an IP header field 310 and a payload field 320. The IP header field 310 includes a protocol type field 311, a source IP address field 313, and a destination IP address field 315.

The protocol type field 311 is a field indicating a protocol type of the uplink replacement broadcast data packet, and a field value of the protocol type field 311 is set to an alternative broadcast type because the data packet is a broadcast data packet. do. Here, it is assumed that the alternative broadcast type is set to a protocol type that is not currently used in the WCDMA communication system between the femto Node B and the UEs, and the alternative broadcast type is pre-provisioned between the femto Node B and the UEs. .

The source IP address field 313 is a field indicating an IP address of a source for transmitting the uplink replacement broadcast data packet, and a field value of the source IP address field 313 indicates the uplink replacement broadcast data packet. It is set to the IP address of the transmitting UE.

The destination IP address field 315 is a field indicating an IP address of a destination where the uplink replacement broadcast data packet will be received, and the field value of the destination IP address field 315 is set to a unicast IP address. do.

When the femto Node B receives an uplink replacement broadcast data packet having the format described with reference to FIG. 3, the femto Node B has a field value set in the protocol type field 311 as an alternative broadcast type. Therefore, the uplink replacement broadcast data packet may be connected to a femto Node B and transmitted to all UEs.

3 illustrates a format of an uplink alternate broadcast data packet transmitted from a UE to a femto Node B in a WCDMA communication system according to an embodiment of the present invention. Next, an embodiment of the present invention will be described with reference to FIG. A format of a downlink multicast data packet transmitted to UEs in a femto Node B of a WCDMA communication system according to the present invention will be described.

4 is a diagram illustrating a format of a downlink multicast data packet transmitted to UEs in a femto Node B of a WCDMA communication system according to an embodiment of the present invention.

Before describing FIG. 4, when a femto Node B receives an uplink replacement multicast data packet having the format described with reference to FIG. 2, the femto Node B is a field configured in the protocol type field 211. Since the value is an alternate multicast type, the uplink alternate multicast data packet should be transmitted to the UEs included in the multicast group. Accordingly, the femto Node B transmits the uplink replacement multicast data packet received from the UE to the UEs included in the multicast group using the downlink multicast data packet as described in FIG. 4.

Referring to FIG. 4, the downlink multicast data packet includes an IP header field 410 and a payload field 420. The IP header field 410 includes a protocol type field 411, a source IP address field 413, and a destination IP address field 415.

The protocol type field 411 is a field indicating a protocol type of the downlink multicast data packet. The field value of the protocol type field 411 is set to a multicast type because the data packet is a multicast data packet. Here, the multicast type is the same as the multicast type generally used in a WCDMA communication system between femto Node B and UEs.

The source IP address field 413 is a field indicating an IP address of a source for transmitting the downlink multicast data packet, and a field value of the source IP address field 413 is for transmitting the downlink multicast data packet. It is set to the IP address of the UE.

The destination IP address field 415 is a field indicating an IP address of a destination where the downlink multicast data packet is to be received, and a field value of the destination IP address field 415 is set to a multicast IP address. . Here, the multicast IP address is pre-provisioned between the UEs and the femto Node B.

4 illustrates a format of a downlink multicast data packet transmitted to UEs in a femto Node B of a WCDMA communication system according to an embodiment of the present invention. Next, referring to FIG. The format of a downlink broadcast data packet transmitted to UEs in a femto Node B of a WCDMA communication system will be described.

5 is a diagram illustrating a format of a downlink broadcast data packet transmitted to UEs in a femto Node B of a WCDMA communication system according to an embodiment of the present invention.

Before describing FIG. 5, when a femto Node B receives an uplink replacement broadcast data packet having a format as described with reference to FIG. 3, the femto Node B is a field configured in the protocol type field 411. Since the value is an alternate multicast broadcast type, the uplink alternate broadcast data packet is transmitted to all UEs connected to the femto Node B. That is, the femto Node B transmits an uplink alternate broadcast data packet received from a specific UE to all UEs connected to the femto Node B using a downlink broadcast data packet as shown in FIG. 5. .

Referring to FIG. 5, the downlink broadcast data packet includes an IP header field 510 and a payload field 520. The IP header field 510 includes a protocol type field 511, a source IP address field 513, and a destination IP address field 515.

The protocol type field 511 is a field indicating a protocol type of the downlink broadcast data packet, and a field value of the protocol type field 511 is set to a broadcast type since the data packet is a broadcast data packet. Here, the alternative broadcast type is the same as the broadcast type generally used in a WCDMA communication system between femto Node B and UEs.

The source IP address field 513 is a field indicating an IP address of a source for transmitting the downlink broadcast data packet, and a field value of the source IP address field 513 is for transmitting the downlink broadcast data packet. It is set to the IP address of the UE.

The destination IP address field 515 is a field indicating an IP address of a destination where the downlink broadcast data packet is to be received, and a field value of the destination IP address field 515 is set to a broadcast IP address. .

In FIG. 5, a format of a downlink broadcast data packet transmitted to UEs in a femto Node B of a WCDMA communication system according to an embodiment of the present invention has been described. Next, referring to FIG. 6, an embodiment of the present invention is described. The operation of the UE in the WCDMA communication system will be described.

6 is a flowchart schematically illustrating an operation process of a UE in a WCDMA communication system according to an embodiment of the present invention.

Referring to FIG. 6, first, in step 611, if the UE detects that a data packet is generated, the UE proceeds to step 613. In step 613, the UE checks whether the generated data packet is a multicast data packet. If the checked data packet is a multicast data packet, the UE proceeds to step 615. In step 615, the UE generates an uplink replacement multicast data packet and proceeds to step 617. In the uplink replacement multicast data packet, as described in FIG. 2, the field value of the protocol type field is set to the replacement multicast type, and the field value of the source IP address field is set to the IP address of the UE. The field value of the nation IP address field is set to the unicast IP address. In step 617, the UE transmits the generated uplink replacement multicast data packet to the femto Node B.

On the other hand, if the generated data packet is not a multicast data packet as a result of the check in step 613, the UE proceeds to step 619. In step 619, the UE checks whether the generated data packet is a broadcast data packet. If the checked data packet is not a broadcast data packet, the UE proceeds to step 621. In step 621, the UE performs a corresponding operation, that is, a unicast data packet transmission operation.

On the other hand, if the checked data packet is a broadcast data packet in step 619, the UE proceeds to step 623. In step 623, the UE generates an uplink replacement broadcast data packet and proceeds to step 625. In this case, as described in FIG. 3, the uplink alternate broadcast data packet has a field value of the protocol type field set to the alternative broadcast type, a field value of the source IP address field set to the IP address of the UE, and The field value of the nation IP address field is set to the unicast IP address. In step 625, the UE transmits the generated uplink replacement broadcast data packet to the femto Node B.

In FIG. 6, an operation process of a UE in a WCDMA communication system according to an embodiment of the present invention has been described. Next, an operation process of femto Node B in a WCDMA communication system according to an embodiment of the present invention will be described with reference to FIG. 7. Let's do it.

7 is a flowchart illustrating an operation process of a femto Node B in a WCDMA communication system according to an embodiment of the present invention.

Referring to FIG. 7, first, at 711, a femto Node B receives a data packet and proceeds to step 713. In step 713, the femto Node B detects a field value of a protocol type field of the received data packet, and proceeds to step 715. In step 715, the femto Node B checks whether a protocol type of the received data packet is an alternative multicast type. If the protocol type of the received data packet is an alternative multicast type, the femto Node B proceeds to step 717. In step 717, the femto Node B generates a multicast data packet corresponding to the received data packet, that is, the received uplink replacement multicast data packet since the protocol type of the received data packet is an alternative multicast type. Proceed to In the multicast data packet, as described in FIG. 4, the field value of the protocol type field is set to the multicast type, the field value of the source IP address field is set to the IP address of the UE, and the destination IP address field. The field value of is set to the multicast IP address. In step 719, the femto Node B transmits the generated multicast data packet to UEs included in the multicast group.

If the protocol type of the received data packet is not an alternative multicast type, the femto Node B proceeds to step 721. In step 721, the femto Node B checks whether a protocol type of the received data packet is an alternative broadcast type. If the protocol type of the received data packet is not an alternative broadcast type, the femto Node B proceeds to step 723. In step 723, the femto Node B performs an operation corresponding to the corresponding protocol type since the protocol type of the received data packet is not an alternative broadcast type.

On the other hand, if the protocol type of the received data packet is the alternative broadcast type in step 721, the femto Node B proceeds to step 725. In step 725, the femto Node B generates a broadcast data packet corresponding to the received data packet, that is, the received uplink replacement broadcast data packet because the protocol type of the received data packet is an alternative broadcast type. Proceed to In the broadcast data packet, as described in FIG. 5, the field value of the protocol type field is set to the broadcast type, the field value of the source IP address field is set to the IP address of the UE, and the destination IP address field. Is set to the broadcast IP address. In step 727, the femto Node B transmits the generated broadcast data packet to all UEs connected to the femto Node B.

The various protocol types and IP addresses described above will now be described as an example.

First, a multicast data packet will be described.

The field value of the protocol type field included in the multicast data packet is set to User Datagram Protocol (UDP), the field value of the source IP address field is set to the IP address of the UE, and the field value of the destination IP address field. Is set to a multicast IP address included in class D, for example, 239.255.255.250.

Second, the broadcast data packet will be described as follows.

The field value of the protocol type field included in the broadcast data packet is set to UDP, the field value of the source IP address field is set to the IP address of the UE, and the field value of the destination IP address field is included in class D. Broadcast IP address, for example, 255.255.255.255 or 10.10.10.255, the last value is set to a broadcast IP address of 255.

Third, the replacement multicast data packet will be described as follows.

The field value of the protocol type field included in the substitute multicast data packet is set to a value not being used as a protocol type, for example, 200, and the field value of the source IP address field is set to an IP address of the UE. The field value of the IP address field is set to a unicast IP address. Here, the unicast IP address included in the replacement multicast data packet is a value obtained by subtracting a highest value of the multicast IP address, for example, a preset value set in 239 and an example in 200.

Fourth, the alternative broadcast data packet will be described as follows.

The field value of the protocol type field included in the replacement broadcast data packet is set to a value not being used as the protocol type, for example, 201, and the field value of the source IP address field is set to the IP address of the UE. The field value of the IP address field is set to a unicast IP address. Here, the unicast IP address included in the replacement broadcast data packet is a value obtained by subtracting a highest value of the broadcast IP address, a preset value set in 255, for example 200, and an example.

Meanwhile, FIG. 7 describes the operation process of the femto Node B in the WCDMA communication system according to the embodiment of the present invention. Next, the femto Node B in the WCDMA communication system according to the embodiment of the present invention will be described with reference to FIG. 8. The structure will be described.

8 is a diagram schematically illustrating an internal structure of a femto Node B in a WCDMA communication system according to an embodiment of the present invention.

Referring to FIG. 8, the femto Node B includes a receiving unit 811, a control unit 813, a storage unit 815, and a transmitting unit 817. The control unit 813 controls the overall operation of the femto Node B, and in particular, converts the alternative multicast data packets and the alternative broadcast data packets received from the UEs into multicast data packets and broadcast data packets, respectively. Control to perform. Since the femto Node B converts the replacement multicast data packet and the replacement broadcast data packet into the multicast data packet and the broadcast data packet, respectively, are the same as described with reference to FIG. 7, the detailed description thereof will be omitted. .

The receiving unit 811 receives various messages and data packets from the UE or the like under the control of the control unit 813. The storage unit 815 stores various types of information such as the received replacement multicast data packet and the replacement broadcast data packet. The transmitting unit 817 transmits various messages, a multicast data packet and a broadcast data packet to the UE or the like under the control of the control unit 813.

8 illustrates a case in which the receiving unit 811, the control unit 813, the storage unit 815, and the transmitting unit 817 are implemented as separate units, the receiving unit ( It goes without saying that the 811, the control unit 813, the storage unit 815, and the transmission unit 817 can be implemented in one unit.

8 illustrates an internal structure of a femto Node B in a WCDMA communication system according to an embodiment of the present invention. Next, an internal structure of a UE in a WCDMA communication system according to an embodiment of the present invention will be described with reference to FIG. 9. Let's do it.

9 is a diagram schematically illustrating an internal structure of a UE in a WCDMA communication system according to an embodiment of the present invention.

Referring to FIG. 9, the UE includes a receiving unit 911, a control unit 913, a storage unit 915, and a transmitting unit 917. The control unit 913 controls the overall operation of the UE, and in particular, controls to perform the operation of converting each of the generated multicast data packets and broadcast data packets into replacement multicast data packets and replacement broadcast data packets. . The operation of the UE converting each of the multicast data packet and the broadcast data packet into the replacement multicast data packet and the replacement broadcast data packet is the same as described with reference to FIG. 6, and thus a detailed description thereof will be omitted.

The receiving unit 911 receives various messages and data packets from a femto Node B or the like under the control of the control unit 913. The storage unit 915 stores various types of information such as a received multicast data packet and a broadcast data packet. The transmission unit 917 transmits various messages, replacement multicast data packets, and replacement broadcast data packets to a femto Node B or the like under the control of the control unit 913.

Meanwhile, FIG. 9 illustrates a case in which the reception unit 911, the control unit 913, the storage unit 915, and the transmission unit 917 are implemented as separate units, but the reception unit ( The 911, the control unit 913, the storage unit 915, and the transmission unit 917 may be implemented in one unit. Of course, as described in the embodiments of the present invention, the multicast / broadcast service may be implemented. In case of providing the UE, UEs accessing the local network through femto Node B in the WCDMA communication system using the LIPA scheme may be provided with the multicast / broadcast service in the same manner.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

Claims (8)

A method of providing a multicast / broadcast service of an Internet Protocol (IP) terminal in a mobile communication system,
When the multicast data packet is generated, converting the multicast data packet into an alternative multicast data packet and transmitting the multicast data packet to an femto base station Node B through an uplink;
Converting the broadcast data packet into an alternation broadcast data packet and transmitting it to femto Node B through the uplink when a broadcast data packet is generated,
The alternation multicast data packet includes information indicating that the data packet is a data packet to be multicast into a multicast group including the IP terminal and at least one other IP terminal.
The alternation broadcast data packet provides multicast / broadcast service of an IP terminal, wherein the data packet includes information indicating that the data packet is a data packet to be broadcast to all IP terminals connected to the femto Node B. Way.
A method for providing a multicast / broadcast service of a femto base station Node B in a mobile communication system,
When an alternate multicast data packet is received from an Internet Protocol (IP) terminal through an uplink, the alternate multicast data packet is converted into a multicast data packet and the corresponding multicast group is transmitted. Transmitting to IP terminals included in),
Receiving an alternation broadcast data packet from an IP terminal, converting the replacement broadcast packet into a broadcast data packet and transmitting all the IPs connected to the femto Node B;
The alternation multicast data packet includes information indicating that the data packet is a data packet to be multicast to at least one other IP terminal except for the IP terminal.
The alternation broadcast data packet includes information indicating that the corresponding data packet is a data packet to be broadcast to all IP terminals connected to the femto Node B except for the IP terminal. How to provide multicast / broadcast service.
In an Internet Protocol (IP) terminal in a mobile communication system,
When a multicast data packet is generated, the multicast data packet is converted into an alternate multicast data packet. When a broadcast data packet is generated, the broadcast data packet is converted into an alternation broadcast data packet. A control unit to convert,
A transmitting unit for transmitting the multicast data packet and the broadcast data packet to a femto base station Node B via an uplink,
The alternation multicast data packet includes information indicating that the data packet is a data packet to be multicast into a multicast group including the IP terminal and at least one other IP terminal.
The alternation broadcast data packet includes information indicating that the data packet is a data packet to be broadcast to all IP terminals connected to the femto Node B.
In a femto base station Node B in a mobile communication system,
A receiving unit which receives an alternate multicast data packet from an Internet Protocol (IP) terminal via an uplink and receives an alternation broadcast data packet from the IP terminal; ,
A control unit for converting the replacement multicast data packet into a multicast data packet and converting the replacement broadcast data packet into a broadcast data packet;
A transmission unit for transmitting the multicast data packet to IP terminals included in a corresponding multicast group, and transmitting the broadcast data packet to all IP terminals connected to the femto Node B;
The alternation multicast data packet includes information indicating that the data packet is a data packet to be multicast to at least one other IP terminal except for the IP terminal.
The alternation broadcast data packet includes information indicating that the corresponding data packet is a data packet to be broadcast to all IP terminals connected to the femto Node B except for the IP terminal.
The method of claim 1,
The multicast group is an IP terminal that is provided with a multicast service through the uplink with the IP terminal among all the IP terminals connected to femto Node B provides a multicast / broadcast service of the IP terminal Way.
The method of claim 2,
The multicast group is a multicast / broadcast service of femto Node B, which is an IP terminal that receives a multicast service through the uplink together with the IP terminal among all IP terminals connected to femto Node B. How to Provide.
The method of claim 3,
The multicast group is an IP terminal characterized in that the IP terminal receives a multicast service through the uplink with the IP terminal of all the IP terminals connected to femto Node B.
5. The method of claim 4,
The multicast group is femto Node B, characterized in that the IP terminal receives a multicast service through the uplink with the IP terminal of all the IP terminals connected to femto Node B.

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