KR20050008443A - Multicast Transmission Method in GEM mode and Frame Handling Method for it - Google Patents

Abstract

PURPOSE: A multicast transmission method in a GEM(GTC Encapsulation Method) mode of a GPON(Gigabit-capable Passive Optical Network) and a frame processing method thereof are provided to enable a multicast transmission in a GEM mode of a GPON, thereby increasing a bandwidth by effectively transmitting a multicast frame. CONSTITUTION: An OLT receives frames from ONTs(61), and intercepts an IGMP frame by retrieving MAC addresses of the received frames(62). The OLT reconfirms that the intercepted frame is the IGMP frame(63), and confirms whether a multicast group address included in the IGMP frame is registered in an MIB of the OLT(64). If so, the OLT confirms whether stored MIB information is identical with an ONT number which transmits the IGMP frame(66). If not, the OLT assigns a registered multicast port ID, and registers new MIB information(67). A message for assigning the new multicast port ID is transmitted to the corresponding ONT to set a GEM multicast connection(68).

Description

Multicast Transmission Method in GEM Mode of Gigabit Passive Optical Subscriber Network and Its Frame Processing {Multicast Transmission Method in GEM mode and Frame Handling Method for it}

The present invention relates to a Gigabit-capable Passive Optical Network (hereinafter referred to as "GPON").

Recently, various network structures and evolutionary measures have been proposed for constructing subscriber networks from telephone stations to buildings and homes. Examples include x-Digital Subscriber Line (xDSL), Hybrid Fiber Coax (HFC), Fiber To The Building (FTTB), Fiber To The Curb (FTTC), and Fiber To The Home (FTTH). Among these, FTTx (x = B, C, H) may be classified into an active FTTx implemented by an active optical network (hereinafter referred to as an “AON”) configuration and a passive FTTx implemented by a PON configuration. have.

At this time, the PON involved in the implementation of the passive FTTx has a point-to-multipoint topology made by passive devices, and thus, is an economical optical subscriber network implementation plan in the future. Is being presented. In other words, the PON is a 1 × N passive optical splitter (one optical line termination) and a plurality of optical network units (hereinafter referred to as “ONUs”). Optical Distribution Network (hereinafter referred to as " ODN ") to form a distributed topology of a tree structure. In the description of the present invention, ONU means the same network termination device as ONT. That is, in the following description of the present invention, even if ONU and ONT are used interchangeably, it is clear that they are the same network termination device.

1 is a diagram illustrating an exemplary embodiment of a conventional PON. Typically, a PON includes one OLT and a plurality of ONUs. In the example of FIG. 1, three ONUs 12a, 12b, and 12c are connected to one OLT 10 through an ODN 16. It was.

In the form of such a PON, an Asynchronous Transfer Mode Passive Optical Network (hereinafter referred to as “ATM-PON”) was first developed and standardized. The standardization content is ITU-T (International). It is described in ITU-T G.982, ITU-T G.983.1 and ITU-T G.983.3, which are documented in the Telecommunication Union-Telecommunication section.

Unlike the broadband passive optical network (hereinafter referred to as "BPON") based on the G.983 series, which has been standardized as described above, the GPON, which is the subject of the present invention, operates based on ATM. GEM (GPON Encapsulation Method), which handles variable-length packets such as time division multiplex (TDM) and Ethernet (Ethernet) services, as well as cell-based transmission (aka ATM) GEM mode) at the same time. At this time, the ATM mode is transmitted by mapping the transmission data to the GTC frame on a cell basis, and the GEM mode is transmitted by mapping the transmission data to the GTC frame on a GEM frame basis. Accordingly, the operation of ATM mode is being standardized based on the operation of ITU-T I.610 ATM or ITU-T G.983.1 ATM PON. However, in the case of GEM mode, detailed standardization is supported.

2 illustrates a protocol stack structure of a typical GPON. Referring to FIG. 2, a protocol stack of a GPON includes a protocol layer 100 interfacing with a higher layer, a GTC layer 200, and a GPON physical media dependent (GPM) layer 300, and a protocol layer 100. ) Includes an Asynchronous Transfer Mode (ATM) client 110, an ONT Management Control Interface (OMCI) 120, a GEM client 130, and a Physical Layer Operation Administration Maintenance (PLOAM) 140 module.

Here, OMCI is drafted or published in G.gpon.omci, and is a protocol for managing and controlling ONU. OMCI is classified into ATM mode OMCI and GEM mode OMCI. ATM mode OMCI is based on the definition in G.983.2. GEM mode OMCI uses the same payload structure as the GEM frame header and ATM mode. It is proposed. Here, the main OMCI message content includes service configuration, virtual path identifier (VPI) / virtual channel identifier (VCI) assignment, or data path configuration for allocating a port ID.

The GPON protocol having such a configuration multiplexes the upper frame to the GTC frame in the GTC layer 200, and among these, the ATM client 110 supports the ATM mode transmission method, and the GEM client 130 the GEM It supports mode transmission method.

The ATM client 110 maps the transmission data to the GTC frame in fixed length cells in the ATM mode. In this case, if a space having a length shorter than the cell length (usually 53 bytes) is left in the GTC frame, the transmitted data is mapped to the next frame and transmitted. Therefore, in case of ATM mode, there is no case of splitting cells.

However, since the GEM frame is a variable length packet, when the GEM client 130 maps the GEM frame to the GTC frame, the GEM frame 130 may divide and transmit the GEM frame to efficiently use the bandwidth.

For example, when the GEM client 130 receives user data from a higher layer, the GEM client 130 may determine the spatial information (eg, length) of the GTC frame currently waiting from the GTC layer 200. Based on the information, the current user data is divided into multiple GEM frames or one GEM frame without division, and then the GEM frame is transmitted to the GTC layer. Then, the GTC layer 200 maps the GEM frame to the currently waiting GTC frame and transmits it. In addition, the receiving side reassembles the GEM frame thus divided in the GEM layer 20 and delivers the same to the upper layer.

On the other hand, data transmission in the network includes a unicast transmission method for "1: 1 transmission", a broadcast transmission method for "1: all node transmission", and "1: specific multiple nodes for specific subscribers". There are three data transmission methods of multicast transmission method of "transmission". In general, the unicast transmission method and the broadcast transmission method are basically provided, but the multicast transmission method requires a protocol for multicast transmission and support in a corresponding network.

GPON, which is the object of the present invention, also provides support for the unicast transmission method and the broadcast transmission method. The multicast transmission method supports the multicast transmission method in the same manner as the ATM-PON in the ATM mode, but in the GEM mode. There is still no way to support the method. 3 illustrates a transmission process of a multicast frame in a GEM mode in a current GPON.

3 is a diagram illustrating an operation of a transmission method for an existing multicast frame in the GEM mode in GPON.

As shown in FIG. 3, it is assumed first that members of the multicast group M registered in the router 31 are hosts a, b, and c. In this case, when the multicast frame generated is delivered to each multicast member host through the GEM mode of GPON which does not support multicast, the following operation is performed.

For Ethernet service in GPON, one or more ports are allocated between the OLT 32 and the ONT (ONU) connected to the OLT 32 and distinguished from each other by a port-ID. Accordingly, as shown in FIG. 3, the OLT 32 needs to decide on which port to transmit the multicast frame. As a result, the port IDs of P1, P2, and P3 are recognized as ports registered in the multicast group. Accordingly, a multicast frame is transmitted to each recognized port.

In more detail, the multicast frame 301 transmitted from the router 31 for ONTs registered as a member of the multicast group in the router 31 that supports the multicast transmission scheme using an IGMP packet in advance. Is passed to the OLT 32. The OLT 31 creates and transmits a multicast frame for each ONT using the port IDs of the ONTs registered as members of the multicast group.

Herein, the operation of the OLT 32 will be described with reference to FIG. 3, where the OLT 32 is configured for each ONT for ONTs 1 to 3 (33-1, 33-2, 33-3) registered as members of the multicast group. The received multicast frame is transmitted using the port IDs (P1, P2, and P3). That is, the multicast frame 301 transmitted to each of the port IDs 302, 303, and 304 corresponding to the ONTs 1 to 3 (33-1, 33-2, 33-3) is pasted, and each ONT is transmitted. They may perform a corresponding multicast transmission for ONTs registered as members in a multicast group by receiving a packet corresponding to their port ID.

As such, the existing multicast transmission according to the GEM mode in the GPON does not take advantage of the multicast transmission and can only be handled in the same manner as a set of multiple unicast transmissions.

As a result, the number of frames actually transmitted via GPON is three according to the example of FIG. 3 (which is obviously variable according to the number of ONTs belonging to the multicast group according to the example of FIG. 3). Sending the same frame three times results in a waste of bandwidth.

As described above, since the multicast transmission scheme is not supported in the GEM mode of the conventional GPON, when the multicast frame is transmitted, the number of members of the multicast group is copied so that bandwidth is wasted.

The present invention has been proposed to solve the above problems, and provides a multicast transmission method and a frame processing method in a GEM mode of a gigabit passive optical subscriber network to enable multicast transmission in a GEM mode of a GPON. The purpose is.

1 is an embodiment configuration diagram showing an example of a conventional PON.

2 shows a protocol stack structure of a typical GPON.

3 is a diagram illustrating an operation of a transmission method for an existing multicast frame in GEM mode in GPON.

4 is an exemplary operation diagram of a multicast frame method in a GEM mode of a GPON according to the present invention;

5 is a structural diagram of one embodiment of a Management Information Base (MIB) stored in an OLT in accordance with the present invention.

6 is a flowchart illustrating a method for processing a frame for multicast transmission in an OLT of a GPON according to the present invention.

7 is a flowchart of another embodiment of a frame processing method for multicast transmission in an OLT of a GPON according to the present invention;

8 is an exemplary diagram illustrating a problem of an uplink signal in operation of a transmission method for a multicast frame in a GEM mode of a GPON according to the present invention.

9 is an exemplary diagram of an uplink signal in operation of a transmission method for a multicast frame in a GEM mode of a GPON according to the present invention.

In order to achieve the above object, the present invention provides a multicast transmission method in a GTC Encapsulation Method (GEM) mode of a gigabit-capable PON (Optical Network), ONT (Optical Network) to be registered in the multicast group Termination (1) is the first step of registering to the multicast group by using an Internet Group Management Protocol (IGMP) frame, and OLT (Optical Line Termination) gives a multicast port ID to the multicast group and the multicast group A multicast connection establishment process in a GEM mode including a second process of allocating the multicast port ID to registered ONTs, and the OLT assigns the multicast port ID to a message for the multicast group from a router. Assigning and transmitting the third process, and the ONT included in the OLT allocates the message to which the multicast port ID is assigned to the ONT. Multicast message transmission in the GEM mode including a fourth process of filtering by using the determined port ID.

In addition, the present invention is a frame processing method in OLT (Optical Line Termination) for multicast transmission in a GTC Encapsulation Method (GEM) mode of a Gigabit-capable PON (Gigabit-capable PON), the OLT, A first process of receiving a frame from an ONT belonging to the OLT and intercepting an IGMP frame by using a media access control (MAC) address of the received frame, the multicast group address included in the IGMP frame is included in the OLT. A second step of confirming whether the address is registered, a third step of confirming whether the ONT number is the same as the ONT number registered in the OLT if the registered address is a result of the checking of the second step; A fourth step of assigning a new multicast port ID to the multicast group address and registering the information in the OLT if it is not a registered address. And a fifth step of assigning a multicast port ID registered in the multicast group address to the ONT and registering the information in the OLT when the ONT numbers are different from each other. And a sixth step of transmitting a message for allocating the multicast port ID registered in the fourth step or the fifth step to the ONT.

The present invention also provides a multicast transmission method in a GTC Encapsulation Method (GEM) mode of a Gigabit-capable PON. A first process of registering to the multicast group using an Internet Group Management Protocol (OPT) frame, and an optical line termination (OLT) assigns a multicast port ID to the multicast group and applies the ONTs registered to the multicast group A multicast connection establishment process in a GEM mode including a second process of allocating the multicast port ID through an OMCI message, and the OLT grants a multicast port ID to a message for the multicast group from a router. And a third process of transmitting a message to which the multicast port ID is assigned by the ONT included in the OLT. Using the ID, it includes a multicast message transmission process in the GEM modes comprising a fourth step of filtering.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, in description of this invention, ONU means the same network end device as ONT. That is, in the following description of the present invention, even if ONU and ONT are used interchangeably, it is clear that they are the same network termination device.

In the present invention, in order to enable multicast transmission in the GEM mode of GPON, multicast management information of Layer 3 is required in the GEM mode. Therefore, IGMP packets carrying multicast information in Layer 3 are intercepted in GEM mode so that the information can be shared. Therefore, in general, a port ID is assigned for each ONT (ONU), while a port ID is assigned for each multicast group to support multicast. Thus, assigning a "multicast port ID" to a multicast group and the ONTs store the port ID of the forwarded packet by storing each corresponding port ID and the "multicast port ID" of the multicast group to which each ONT has subscribed. Compares the port ID (including the port ID assigned to the ONT and the multicast port ID to which it subscribes). If the port ID matches, the packet is accepted (if not), the packet is discarded (Discard).

As described above, the multicast frame processing method in the GEM mode of the GPON according to the present invention will be described in detail with reference to FIGS. 4 to 6.

4 is an exemplary operation diagram of a multicast frame method in a GEM mode of a GPON according to the present invention.

As shown in FIG. 4, it is assumed first that the members of the multicast group M registered in the router 41 are hosts a and b. In this case, when the generated multicast frame is delivered to each multicast member host (a, b) through the GEM mode of the GPON according to the present invention, the following operation is performed.

In the GEM mode for Ethernet service in GPON, one or more ports are allocated between the OLT 42 and the ONT (ONU) connected to each other, and each port is distinguished from each other by a port ID. Therefore, as shown in FIG. 4, the OLT 42 needs to decide on which port to transmit the multicast frame. In the present invention, a multicast port ID is assigned to a multicast group, and a multicast packet using the multicast port ID is generated and transmitted for a multicast frame. That is, the OLT 42 according to the present invention shown in FIG. 4 includes not only the port IDs P1, P2, and P3 of the ONTs 43-1, 43-2, and 43-3 included in the OLT, but also registered multis. The multicast port ID (P4) of the cast group is allocated to store the information. When a multicast frame is received, the stored multicast port ID is allocated and transmitted.

As such, when the multicast packet 405 + 401 using the multicast port ID P4 405 is transmitted, the ONT 1 43-1 and the ONT 2 43-2 each have their own port ID P1 (402). In addition to P2 403, P4 405, which is a multicast port ID, is also received. Therefore, the received multicast packet 405 + 401 is accepted. On the other hand, since ONT 3 (43-3) does not have a multicast port ID of P4 (405) because it is not a host registered in the multicast group, multicast packet (405 + 401) is forwarded but ONT 3 (43-). 3) and port ID (including multicast port ID) do not match and are not accepted.

For the operation according to the present invention, the OLT 42 needs to know whether to register the multicast of the ONT 43-1, 43-2, 43-3, and the ONT 43-1, 43-2, 43-. 3) must know the registered multicast group and corresponding multicast port ID information.

In order to process such information, the OLT requires an operation as shown in FIGS. 5 to 6.

FIG. 5 is a diagram illustrating an embodiment of a management information base (MIB) stored in an OLT according to the present invention. FIG. 6 is a diagram illustrating a method for processing a frame for multicast transmission in an OLT of a GPON according to the present invention. It is a flow chart.

First, referring to the structural diagram of FIG. 5, the OLT according to the present invention stores information about a multicast group in a MIB, which is a database of information about a management object. The stored information includes a multicast group address 51 capable of identifying a multicast group, an ONT number 52 indicating an ONT registered in the multicast group, and a multicast port ID of the multicast group. It comprises 53.

6 will be described below with reference to FIGS. 4 to 5.

First, in order to configure a multicast network, a network host must register with a router of a network supporting multicast. To this end, the host ONT 1 (43-1) and ONT 2 (43-2) transmits an IGMP frame for registering to the multicast group to the router 41.

The OLT 42 receives the frames from the ONTs 43-1, 43-2, and 43-3 (61), and intercepts the IGMP frame by searching using the MAC address of the received frame (62). Here, the intercepted IGMP frame is found by identifying all the frames whose Media Access Control (MAC) address value of the Ethernet frame starts with "0x01005e". Here, "0x01005e" is the content of the Ethernet standard for the IGMP frame, and the GPON to which the present invention is applied does not affect the content of the present invention even if it is specified as another address value.

If the intercepted frame is again an IGMP frame (63), if it is not an IGMP frame, the frame processing process for multicast transmission is terminated. On the other hand, if the intercepted frame is confirmed again as an IGMP frame (63), if it is an IGMP frame, it is determined whether the multicast group address included in the IGMP frame is already registered in the MIB in the OLT 42 (64).

As a result of the check 64, if it is not a registered address, a new multicast port ID is allocated and new MIB information as shown in FIG. 5 is registered (65).

If the check result 64 is a registered address, the stored MIB information and the ONT number 52 that transmitted the IGMP frame are the same (66). If the ONT number 52 is the same, the frame for multicast transmission is the same. Terminate the process. On the other hand, if the ONT number 52 is not the same, an existing registered multicast port ID 53 included in the stored MIB information is allocated and new MIB information including the new ONT number 52 is registered (67). .

Then, according to the registration of the new MIB information as in step 65 or step 67, a message for allocating a new multicast port ID 53 is transmitted to the ONT to establish a GEM multicast connection (68).

Referring to the operation example of FIG. 4 by way of example, host a (ie, ONT 1) attempts to register to multicast group MG1 using an IGMP frame at router 41. The OLT 42 intercepts and compares the multicast group MG1 address included in the IGMP frame with the stored MIB {multicast group address, ONT number, multicast port ID}.

Since it has not been previously registered, a new registration is made and a new multicast port ID is assigned to P4 405, and registered in MIB {MG1, ONT 1, P4}. The OLT 42 transmits a message for allocating the newly allocated multicast group ID to the ONT 1 43-1 to perform the GEM multicast setting process.

Meanwhile, the host b (that is, ONT 2) also transmits an IGMP frame to the router 41 to register with the multicast group MG1. The OLT 42 intercepts this frame, reads out the information, and compares it with the stored MIB. At this time, since P4 405, which is a multicast port ID, is already assigned to ONT 1 43-1 for the multicast group MG1, P4, which is the same multicast port ID, for ONT 2 43-2. 405 is allocated to add and register MIB information {MG1, ONT2, P4}. The OLT 42 transmits a message for allocating the newly allocated multicast group ID to the ONT 2 43-2 to perform the GEM multicast setting process.

When the multicast frame 401 corresponding to the multicast group MG1 is transmitted from the router 41, the OLT 42 grants P4 405, which is a multicast port ID, according to the MIB information, thereby turning on the ONT 43. -1, 43-2, 43-3).

Each ONT filters the GEM frame received from the OLT 42 using the multicast port ID assigned through the GEM multicast configuration. That is, the frame transmitted using the multicast port ID 405 in FIG. 4 is received by the ONT 1 (43-1) / ONT 2 (43-2) and forwarded to the upper level, and the ONT 3 (43-3) is Since the multicast port ID 405 is not allocated, the multicast port ID 405 is filtered out.

The multicast frame transmitted to the host registered in the multicast group using this embodiment is not copied and transmitted as many as the number of ports from the OLT to the corresponding unicast port as in the conventional technique, and is assigned to the multicast port ID. Can be sent only once.

7 is a flowchart illustrating another embodiment of a method for processing a frame for multicast transmission in an OLT of a GPON according to the present invention.

As shown in FIG. 7, in order to construct a multicast network, a host of a network must register with a router of a network supporting multicast. To this end, the host ONT 1 (43-1) and ONT 2 (43-2) transmits an IGMP frame for registering to the multicast group to the router 41.

The OLT 42 receives the frames from the ONTs 43-1, 43-2, and 43-3 (71), and intercepts the IGMP frame through a search using the MAC address of the received frame (72). Here, the intercepted IGMP frame is found by identifying all the frames whose Media Access Control (MAC) address value of the Ethernet frame starts with "0x01005e". Here, "0x01005e" is the content of the Ethernet standard for the IGMP frame, and the GPON to which the present invention is applied does not affect the content of the present invention even if it is specified as another address value.

When the intercepted frame is again confirmed as an IGMP frame (73), if it is not an IGMP frame, the frame processing process for multicast transmission is terminated. On the other hand, if the intercepted frame is confirmed again as an IGMP frame (73), if it is an IGMP frame, it is checked whether the multicast group address included in the IGMP frame is already registered in the MIB in the OLT 42 (74).

As a result of the check 74, if it is not a registered address, a new multicast port ID is allocated and new MIB information as shown in FIG. 5 is registered (75).

If the check result 74 is a registered address, the stored MIB information and the ONT number 52 that transmitted the IGMP frame are the same (76). If the ONT number 52 is the same, the frame for multicast transmission is the same. Terminate the process. On the other hand, if the ONT number 52 is not the same, an existing registered multicast port ID 53 included in the stored MIB information is allocated and new MIB information including the new ONT number 52 is registered (77). .

According to the registration of the new MIB information, as in step 75 or step 77, OMCI forwards a message for allocating a new multicast port ID 53 to the corresponding ONT to establish a GEM multicast connection (78).

Using another embodiment, multicast frames transmitted to a host registered in a multicast group are not copied by the number of ports from the OLT to the corresponding unicast port as in the conventional art, and are allocated to the multicast group. It can only be sent once using the port ID.

However, as shown in FIG. 4, there is no problem when a multicast frame is transmitted using the multicast port ID P4. However, the multicast port ID assigned to ONT is used for the uplink transmission signal from ONT to OLT. This is a problem when delivered. This will be described with reference to FIGS. 8 and 9.

First, FIG. 8 is an exemplary diagram illustrating a problem of an uplink signal in the operation of a transmission method for a multicast frame in a GEM mode of a GPON according to the present invention.

As shown in FIG. 8, when each ONT responds to the multicast frame transmitted through the multicast port ID P4, the uplink is transmitted using the port ID of P4. It is not known at the top of which ONT the signal comes from.

That is, in the case of having a multicast port ID (P4) at the same time as the respective port IDs (P1, P2), such as ONT 1 (43-1) and ONT 2 (43-2), respectively in the case of a general unicast frame By using a port ID for distinguishing the communication, there is no fear of not distinguishing each other. However, in the case of having the same multicast port ID (P4), a problem arises in that the same ID (P4) is used as an uplink signal.

Accordingly, the present invention proposes to operate as shown in FIG.

9 is an exemplary diagram of an uplink signal in operation of a transmission method for a multicast frame in a GEM mode of a GPON according to the present invention.

As shown in FIG. 8, when each ONT responds to the multicast frame transmitted through the multicast port ID P4, the corresponding uplink signal is transmitted upward using the port ID of P4. In order to solve this problem, the multicast port ID is used only for the downlink signal because it cannot be known from which ONT.

That is, the response message for the signal transmitted through the multicast port ID is to use the port ID for each ONT to solve the problem according to the uplink signal.

This will be described with reference to FIG. 9.

Like the ONT 1 (43-1) and the ONT 2 (43-2) has a multicast port ID (P4) at the same time as the respective port ID (P1, P2), and if there is a transmission of a multicast frame to them described above As shown, it is transmitted using a multicast port ID. In the case of forwarding the response message, even if the downlink port ID is the multicast port ID P4, the upstream port ID is the port ID P1 of each ONT 43-1 and 43-2. P2) is used.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

As described above, the present invention does not provide a method for supporting multicast in the GEM mode of GPON, and solves the problem of copying the number of ports associated with multicast frame transmission, thereby efficiently transmitting the multicast frame. This has the effect of increasing the bandwidth.

Claims (14)

In the multicast transmission method in the GTC (GTC Encapsulation Method) mode of a gigabit passive optical subscriber network (Gigabit-capable PON), A first step in which an optical network termination (ONT) wanting to register to a multicast group registers to the multicast group using an Internet Group Management Protocol (IGMP) frame, and an optical line termination (OLT) is multiplied Assigning a multicast port ID and assigning the multicast port ID to ONTs registered in the multicast group; A third step in which the OLT assigns and transmits a multicast port ID to a message for the multicast group from a router, and the ONT included in the OLT assigns the message to which the multicast port ID is assigned to the ONT. A multicast message transmission process in a GEM mode including a fourth process of filtering by using the determined port ID Multicast transmission method in the GEM mode of a gigabit passive optical subscriber network comprising a. The method of claim 1, wherein the OLT, A method of multicast transmission in a GEM mode of a gigabit passive optical subscriber network, by intercepting an IGMP frame for registering in the multicast group, and obtaining information on the multicast group and ONT registered in the multicast group. . The method according to claim 1 or 2, wherein the OLT, Gigabit passive optical, characterized in that the multicast address indicating the multicast group, the ONT number registered to the multicast group, and the multicast port ID assigned to the multicast group registered and stored as a MIB (Management Information Base) Multicast transmission method in GEM mode of subscriber network. The method of claim 1, wherein the port ID used for filtering the fourth process, And a multicast port ID of the multicast group registered by the ONT and a port ID basically assigned to the ONT. In the frame processing method in Optical Line Termination (OLT) for multicast transmission in GTC Encapsulation Method (GEM) mode of Gigabit-capable PON (Gigabit-capable PON), A first step of the OLT receiving a frame from an ONT belonging to the OLT and intercepting an IGMP frame using a media access control (MAC) address of the received frame; A second step of confirming whether the multicast group address included in the IGMP frame is an address registered in the OLT, A third step of confirming whether the ONT number is the same as the ONT number registered in the OLT if it is a registered address as a result of the checking of the second step; A fourth step of assigning a new multicast port ID to the multicast group address and registering the information in the OLT if it is not a registered address as a result of the checking of the second step; A fifth step of assigning a multicast port ID registered in the multicast group address to the ONT and registering the information in the OLT when the ONT numbers are different from each other as a result of the checking of the third step; Frame in the OLT for multicast transmission in the GEM mode of GPON comprising the sixth step of transmitting a message for assigning the multicast port ID registered in the fourth step or the fifth step to the ONT to the ONT. Treatment method. The method of claim 5, wherein And a seventh step of terminating the frame processing method in the OLT when the ONT numbers are the same as a result of the checking of the third process. The method according to claim 5 or 6, The information registered in the OLT in the fourth process and the fifth process, A multicast group address for identifying the multicast group, an ONT number indicating an ONT registered in the multicast group, and the multicast port ID assigned to the multicast group; Frame processing method in OLT for multicast transmission in multimode. The method according to claim 5 or 6, The method for processing a frame in OLT for multicast transmission in a GEM mode of a GPON, characterized in that the message for assigning the multicast ID in the sixth step using an OMCI (ONT Management Control Interface) message. 8. The method of claim 7, wherein the multicast port ID is used only for the downlink signal from the OLT to the ONT, and is basically assigned to the ONT without using a multicast port ID for the uplink signal from the ONT to the OLT. Frame processing method in OLT for multicast transmission in GEM mode of GPON, characterized by using a port ID. In the multicast transmission method in the GTC (GTC Encapsulation Method) mode of a gigabit passive optical subscriber network (Gigabit-capable PON), A first step in which an optical network termination (ONT) wanting to register to a multicast group registers to the multicast group using an Internet Group Management Protocol (IGMP) frame, and an optical line termination (OLT) is multiplied to the multicast group Assigning a multicast port ID and assigning the multicast port ID through an OMCI message for ONTs registered in the multicast group; A third step in which the OLT assigns and transmits a multicast port ID to a message for the multicast group from a router, and the ONT included in the OLT assigns the message to which the multicast port ID is assigned to the ONT. A multicast message transmission process in a GEM mode including a fourth process of filtering by using the determined port ID Multicast transmission method in the GEM mode of a gigabit passive optical subscriber network comprising a. The method of claim 10, wherein the OLT, A method of multicast transmission in a GEM mode of a gigabit passive optical subscriber network characterized by intercepting an IGMP frame for registering in the multicast group, and obtaining information on the multicast group and ONT registered in the multicast group. . The method of claim 10 or 11, wherein the OLT, Gigabit passive optical, characterized in that the multicast address indicating the multicast group, the ONT number registered to the multicast group, and the multicast port ID assigned to the multicast group registered and stored as a MIB (Management Information Base) Multicast transmission method in GEM mode of subscriber network. The method of claim 10, wherein the port ID used for the filtering of the fourth process, And a multicast port ID of the multicast group registered by the ONT and a port ID basically assigned to the ONT. 14. The method of claim 13, wherein the multicast port ID is used only for downlink signals from the OLT to the ONT, and is basically assigned to the ONT without using a multicast port ID for the uplink signal from the ONT to the OLT. A multicast transmission method in a GEM mode of a gigabit passive optical subscriber network, characterized by using an existing port ID.