KR101100206B1 - Packet transmission / reception method applied to mobile communication system - Google Patents

Abstract

The present invention provides a method for transmitting a MAC layer packet through a traffic channel in a mobile communication system, the method comprising: transmitting a preamble indicating that a packet is transmitted using multiple carriers, and information and a pay format of a forward traffic channel. The present invention relates to a packet transmission method comprising transmitting a MAC layer packet including information to a mobile station to receive a loaded security layer packet. When transmitting a packet using multiple carriers, the length of the MAC index Even if e is longer, there is an effect that a packet can be transmitted without changing the preamble structure used in the related art.

HRPD system, MAC layer packet, Multi-User MAC Layer Packet, MAC index

Description

Packet transmission and reception method applied to mobile communication system {Method for Transmitting and Receiving a Packet}

1 is a structural diagram of a first embodiment showing a Multi-User MAC Layer Packet transmitted over a forward traffic channel.

2 is a structural diagram of a second embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel.

3 is a structural diagram of a third embodiment showing a Multi-User MAC Layer Packet transmitted over a forward traffic channel.

4 is a structural diagram of a fourth embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel.

5 is a structural diagram of a fifth embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel.

6 is a structural diagram of a sixth embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel.

The present invention relates to a MAC layer packet transmission and reception method, and more particularly, to a multi-user MAC layer packet transmission and reception method for multi-carrier transmission.

High Rage Packet Data (HRPD) is a standard of wireless access technology optimized for high speed and high capacity data transmission. The HRPD system transmits data to a mobile station by applying Code Division Multiple Access (CDMA) technology and Time Division Multiplexing (TDM) technology. Therefore, the HRPD system can provide rich multimedia contents in various fields such as wireless Internet access, real-time traffic information, wireless live broadcasting, movies, and games due to improved data transmission speed and capacity.

In the HRPD system, the base station assigns a MAC Index to each mobile station through a TrafficChannelAssignment Message. In the forward link, a preamble is first transmitted before transmitting a MAC layer packet to a traffic channel. Then, the preamble is generated using the MAC index.

The preamble MAC index used when transmitting a Single User MAC Layer Packet informs an address as to which mobile station the transmitted Single User MAC Layer packet should be sent. Thus, for a single user MAC layer packet, the MACIndex of the mobile station can be known through the preamble MAC index.

Meanwhile, a preamble MAC index used when transmitting a multi-user MAC layer packet has information about a transmission format of the multi-user MAC layer packet. The multi-user MAC layer packet includes at least one Security Layer packet addressed to each mobile station, wherein the MAC index of the mobile station corresponding to each Security Layer packet is the multi-user MAC layer. It is included in a PacketInfo field forming a header of a packet.

In order to increase data throughput in a mobile communication system, the length of the MAC index transmitted through the preamble is increased when the forward bandwidth and the reverse bandwidth are increased by an integer multiple of 1.25 MHz (1X) using a multi-carrier. Need to be increased. That is, since a 1x HRPD system uses a 7-bit long MAC index, it can have 128 MAC indexes. However, since the Nx HRPD system requires more than 128 MAC indexes, it is necessary to increase the length of the MAC index to 8 bits or more. That is, as the length of the MAC index is increased as a multi-carrier is used, there is a problem in that the MAC index cannot be transmitted using the current preamble.

It is an object of the present invention to provide a method for more efficiently transmitting and receiving MAC layer packets using multiple carriers without changing the conventional preamble structure.

According to an aspect of the present invention, there is provided a method for transmitting a MAC layer packet through a traffic channel in a mobile communication system, the method comprising: transmitting a preamble indicating that a packet is transmitted by using multiple carriers; And transmitting the Mac layer packet including information about the transport format and information about the mobile station that will receive the payloaded Security Layer packet.

In addition, the present invention relates to a method for receiving a MAC layer packet through a traffic channel in a mobile communication system, the method comprising receiving a preamble indicating that a packet is transmitted using multiple carriers, and a transmission format of a forward traffic channel. And receiving the Mac layer packet including information and information about the mobile station that will receive the payloaded Security Layer packet.

The present invention also provides a method for transmitting a MAC layer packet through a traffic channel in a mobile communication system, comprising: transmitting a preamble indicating that a multi-user MAC layer packet is transmitted and a single carrier Transmitting a MAC layer packet including a first MAC layer payload to be transmitted to a mobile station receiving the MAC layer packet using a second layer, and a second MAC layer payload to be transmitted to a mobile station receiving the MAC layer packet using multiple carriers. It is made, including.

The above-mentioned objects, features and advantages will become more apparent from the following detailed description in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a structural diagram of a first embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel. According to the example of FIG. 1, the multi-user MAC layer packet includes a MAC layer header 11, a MAC header delimiter 12, and a MAC layer including n security layer packets. Payload 13, pad 15 for matching Mac layer packet length, and Mac layer trailer 16 are included.

Meanwhile, the MAC layer header includes Packet Info fields 111a-111n and Length fields 112a-112n corresponding to each security layer packet, and each Packet Info field includes a format field 1111 and a MAC index field ( 1112). The format field 1111 has a length of 1 bit and indicates a format of a connection layer packet constituting a security layer packet. For example, if the security layer packet consists of format A connection layer packets, it is set to '0', and if the security layer packet consists of format B connection layer packets, it is set to '1'. In addition, the MAC index field 1112 has a length of 7 bits and indicates a mobile station to which each Security Layer packet is to be transmitted.

2 is a structural diagram of a second embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel.

When transmitting a packet using a multi-carrier, the base station needs to inform the mobile station that a multi-user MAC layer packet of the type shown in FIG. 2 is transmitted. In order to transmit the above information, a preamble MAC index value is used. That is, by setting the preamble MAC index value to a specific value not used until now, it can be informed that the packet to be transmitted is a packet having a form as shown in FIG. 2 transmitted using a multicarrier.

Meanwhile, even in the case of a single user simple MAC layer packet or a single user multiple MAC layer packet, a preamble may be used to indicate that the packet is transmitted using multiple carriers. At this time, the value used and the value used for the multi-user MAC layer packet transmission may be set to the same value or may be set to a different value. After the base station transmits the preamble having the above information, it transmits the MAC layer packet of the form as shown in FIG.

The MAC layer header 21 of FIG. 2 includes a transport format field 211, Packet Info fields 212a to 212n and Length fields 213a to 213n corresponding to each security layer packet, and each Packet Info The field includes a format field 2121 and a MAC index field 2122.

The transport format field 211 includes information about the transport format of the forward traffic channel. That is, the transport format field includes information about a physical layer packet size and a nominal transmit duration.

The physical layer packet size indicates the total number of bits of the physical layer packet in which the corresponding MAC layer packet is transmitted, and the nominal transmission interval indicates the maximum number of slots in which the physical layer packet is transmitted. The nominal data rate is determined by dividing the physical layer packet size by the nominal transmission interval. For example, if the transport format field 211 means a transport format (512, 4), the nominal data rate is 76.8 kbps. In the transmission formats (a, b), a means physical layer packet size (bits), and b means nominal transmit duration (slots). The actual transmit duration may be less than the nominal transmit duration, so the data rate of the actual packet may be greater than the nominal data rate.

In the example of FIG. 2, the length of the transport format field 211 may be set differently according to the type of the transport format. Preferably, the minimum length is set to 3 bits, and considering the octet alignment, the bit length may be set to 8 bits.

Table 1 shows an example of a mapping relationship between a transport format field value and a transport format of each value when the length of the transport format field 211 is 8 bits.

Transmission Format (Physical Layer Packet Size, Nominal Transmit Duration) '00000000' (128, 4), (256, 4), (512, 4), (1204, 4) '00000001' (2048, 4) '00000010' (3072, 2) '00000011' (4096, 2) '00000100' (5120, 2) '00000101' ~ '11111111' Reserved

Table 2 is another example showing a mapping relationship between a transport format field value and a transport format of each value when the transport format field 21 has a length of 8 bits.

Transmission Format (Physical Layer Packet Size, Nominal Transmit Duration) '00000000' (128, 4) '00000001' (256, 4) '00000010' (512, 4) '00000011' (1204, 4) '00000100' (2048, 4) '00000101' (3072, 2) '00000110' (4096, 2) '00000111' (5120, 2) '00001000' ~ '11111111' Reserved

Meanwhile, the PacketInfo field 212 of FIG. 2 includes a format field 2121 and a MAC index field 2122. The format field 221 has a length of 1 bit and indicates a format of a connection layer packet constituting a security layer packet. For example, if the security layer packet consists of format A connection layer packets, it is set to '0', and if the security layer packet consists of format B connection layer packets, it is set to '1'. In addition, the MAC index field 2122 has a length of 8 bits or more and indicates a mobile station to which each Security Layer packet is to be transmitted. Meanwhile, the Length field 213 includes information on the length of each security layer packet transmitted in the corresponding MAC layer packet.

Since the MAC Index field 2122 is 8 bits or more, a first PAD field 22 is added to maintain an octet unit. On the other hand, the delimiter field 23 is set to a specific value when the sum of the lengths of the security layer packet, the MAC layer header, and the Mac trailer is smaller than the length of the corresponding MAC layer packet, so that the MAC layer header 21 and the MAC layer pay are set. MAC layer payload 24 can be distinguished. For example, the specific value may be '00000000'.

The MAC trailer 28 may have a 2-bit length and have a different value depending on the type of MAC layer packet. For example, the value is set to '01' or '11' for a Single User Simplex MAC Layer Packet, and for a Single User Multiplex MAC Layer Packet, 10 ', or' 00 'for multi-user MAC layer packets. In addition, a second pad 27 is added to adjust the length of the MAC layer packet.

3 is a structural diagram of a third embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel.

Similar to the case of the second embodiment, when transmitting a packet using multiple carriers, the base station needs to inform the mobile station that a multi-user MAC layer packet of the form shown in FIG. 3 is transmitted. have. In order to transmit the above information, a preamble MAC index value is used. That is, by setting the preamble MAC index value to a specific value not used until now, it can be informed that the packet to be transmitted is a packet having a form as shown in FIG. 3 transmitted using a multicarrier.

Meanwhile, even in the case of a single user simple MAC layer packet or a single user multiple MAC layer packet, a preamble may be used to indicate that the packet is transmitted using multiple carriers. At this time, the value used and the value used for the multi-user MAC layer packet transmission may be set to the same value or may be set to a different value. After the base station transmits the preamble having the above information, the base station transmits the MAC layer packet of the form shown in FIG. 3.

The MAC layer header 31 of FIG. 3 includes a transport format field 311, Packet Info fields 312a to 312n and Length fields 313a to 313n corresponding to each security layer packet, and each Packet Info. The field includes a format field 3121 and a Mac index field 3122.

The transport format field 211 includes information about the transport format of the forward traffic channel. That is, the transport format field includes information about a physical layer packet size and a nominal transmit duration.

The physical layer packet size indicates the total number of bits of the physical layer packet in which the corresponding MAC layer packet is transmitted, and the nominal transmission interval indicates the maximum number of slots in which the physical layer packet is transmitted.

In the example of FIG. 3, the length of the transport format field 311 may be set differently according to the type of the transport format. Preferably, the minimum length is set to 3 bits, and considering the octet alignment, the bit length may be set to 8 bits. On the other hand, the mapping relationship between the transport format field values and the transport formats that each value represents is shown in Tables 1 and 2.

Meanwhile, the PacketInfo field 312 of FIG. 3 includes a format field 3121 and a MAC index field 3122. Similar to the second embodiment, the format field 321 has a length of 1 bit and indicates a format of a connection layer packet constituting a security layer packet.

In the present embodiment, the MAC index field 3122 has a length of 7 bits, and transmits the MAC layer packet of the form according to the present embodiment only when the MAC index has a value of 128 or more. That is, before the MAC layer packet according to the present embodiment is transmitted, the preamble MAC index indicates that the MAC layer packet to be transmitted is a MAC layer packet of the present embodiment transmitted using multiple carriers, and the MAC index of the MAC layer packet is transmitted. (MACIndex) sends the value corresponding to the Mac index-128. In this case, since the length of the MAC index field 3122 is fixed to 7 bits, the MAC layer header 31 matches the octet unit.

The MAC index indicates, as in the second embodiment, the mobile station to which each Security Layer packet is to be transmitted. Meanwhile, the Length field 313 includes information about the length of each security layer packet transmitted in the corresponding MAC layer packet.

On the other hand, the delimiter field 32 is set to a specific value when the sum of the lengths of the security layer packet, the MAC layer header, and the Mac trailer is smaller than the length of the corresponding MAC layer packet, so that the MAC layer header 31 and the MAC layer pay are set. MAC layer payload 33 can be distinguished. For example, the specific value may be '00000000'.

The MAC trailer 35 may have a 2-bit length and have different values according to the type of MAC packet. For example, the value is set to '01' or '11' for a Single User Simplex MAC Layer Packet, and for a Single User Multiplex MAC Layer Packet, 10 ', or' 00 'for multi-user MAC layer packets. In addition, a pad 34 for adjusting the length of the MAC layer packet is added.

4 is a structural diagram of a fourth embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel. In the example of FIG. 4, the multi-user MAC layer packet when the MAC index is 8 bits in length and the length field representing the length of the security layer packet is 7 is illustrated.

In order to transmit a packet of the form as shown in FIG. 4, a preamble MAC index having information that a packet to be transmitted is a multi-user MAC layer packet should be transmitted in advance. That is, after transmitting information that the packet to be transmitted is a multi-user MAC layer packet in advance, the corresponding multi-user MAC layer packet is transmitted. Meanwhile, a MAC index corresponding to each security layer packet is included to indicate a mobile station to which a plurality of security layer packets payloaded in the multi-user MAC layer packet are to be transmitted.

In Figure 4, fields 41-44 are for mobile stations using a single carrier, and fields 45-48 are for mobile stations using multiple carriers.

In FIG. 4, the format field 4111 has a length of 1 bit and indicates a format of a connection layer packet constituting a security layer packet. For example, if the security layer packet consists of format A connection layer packets, it is set to '0', and if the security layer packet consists of format B connection layer packets, it is set to '1'. In addition, the MAC index field 4112 has a length of 7 bits and indicates a mobile station to which each Security Layer packet is to be transmitted. That is, since it is a MAC index value for a mobile station that does not support multiple carriers, it has a length of 7 bits.

The length field 412 is included as many as the security layer packets transmitted in the corresponding MAC layer packet, and indicates the length of each security layer packet. The delimiter field 42 is set to a specific value when the sum of the lengths of the security layer packet, the MAC layer header, and the MAC trailer is smaller than the length of the corresponding MAC layer packet, so that the MAC layer header 41 and the MAC layer payload ( MAC Layer Payload) 43 can be distinguished. For example, the specific value may be '00000000'. In addition, a pad 44 is added to adjust the length of the MAC layer packet.

As described above, fields 45 to 48 are for mobile stations using multiple carriers, and as shown in Fig. 4, the MAC layer packet includes the first header part, the second header part, and the like. K header part. The security layer packet corresponding to each header part constitutes the second payload part 45. The header for the security layer packet transmitted on the multi-carrier includes a MAC index 471, a format field 472, and a Length field 473.

As described above, the MAC index 471 exists as many as the number of multi-carrier security layer packets transmitted in the MAC layer packet, and indicates a mobile station to which a corresponding multi-carrier security layer packet should be transmitted. Meanwhile, the Format field 472 indicates the format of the connection layer packet constituting the security layer packet for the multicarrier. If the security layer packet is configured as a format A connection layer packet, the format field 472 is set to '0' and the security layer packet. If configured as a Format B link layer packet, set to '1'. In addition, the Length field 473 indicates the length of each security layer packet payloaded to the second payload unit 45.

In the embodiment of FIG. 4, the MAC index 471 has a length of 8 bits, the format field 472 has a length of 1 bit, and the Length 473 field has a length of 7 bits. Thus, the length in octets can be adjusted.

On the other hand, when the length of the MAC index is greater than 8 (m), the length of the format field is kept to 1 bit, and the length of the length field is set to (15-m). You can also fit.

In another embodiment, the order of each field constituting the header for the security layer packet transmitted through the multicarrier may be different from that of FIG. 4. For example, the format field, the MAC index, and the Length field may be configured in order.

The second delimiter field 46 is set to a specific value when the sum of the lengths of the security layer packet, the MAC layer header, and the MAC trailer is smaller than the length of the corresponding MAC layer packet, and sets the MAC layer header 47k for the multi-carrier. The second MAC layer payload unit 45 can be distinguished. For example, the specific value may be '00000000'. And, the Mac trailer 48 can be set to '00'.

5 is a structural diagram of a fifth embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel. In the example of FIG. 5, the multi-user MAC layer packet when the MAC index is 8 bits in length and the length field representing the length of the security layer packet is 8 is illustrated.

Similar to the case of the fourth embodiment, in order to transmit a packet of the form as shown in FIG. That is, after transmitting information that the packet to be transmitted is a multi-user MAC layer packet in advance, the corresponding multi-user MAC layer packet is transmitted. Meanwhile, a MAC index corresponding to each security layer packet is included to indicate a mobile station to which a plurality of security layer packets payloaded in the multi-user MAC layer packet are to be transmitted.

In Figure 5, fields 51-54 are for mobile stations using a single carrier, and fields 55-59 are for mobile stations using multiple carriers.

In FIG. 5, the format field 5111 has a length of 1 bit and indicates a format of a connection layer packet constituting a security layer packet. For example, if the security layer packet consists of format A connection layer packets, it is set to '0', and if the security layer packet consists of format B connection layer packets, it is set to '1'. In addition, the MAC index field 5112 has a length of 7 bits and indicates a mobile station to which each Security Layer packet is to be transmitted. That is, since it is a MAC index value for a mobile station that does not support multiple carriers, it has a length of 7 bits.

The length field 512 is included as many as the security layer packets transmitted in the corresponding MAC layer packet, and indicates the length of each security layer packet. The delimiter field 52 is set to a specific value when the sum of the lengths of the security layer packet, the MAC layer header, and the Mac trailer is smaller than the length of the corresponding MAC layer packet, so that the MAC layer header 51 and the MAC layer payload ( MAC Layer Payload) 53 can be distinguished. For example, the specific value may be '00000000'. In addition, a pad 54 for adjusting the length of the MAC layer packet is added.

As described above, fields 55 to 59 are for a mobile station using multiple carriers, and as shown in FIG. 5, the MAC layer packet includes the first header part 58a and the second header part in order from the front of the MAC trailer. 58b, ... kth header portion 58k. The security layer packet corresponding to each header part constitutes the second payload part 56. The header for the security layer packet transmitted through the multicarrier includes a MAC index 581 and a Length field 582.

As described above, the MAC index 581 is equal to the number of multi-carrier security layer packets transmitted in the MAC layer packet, and indicates a mobile station to which a corresponding multi-carrier security layer packet should be transmitted. Meanwhile, the Format field 55 indicates the format of the connection layer packet constituting the multi-carrier security layer packet. If the security layer packet is configured as a format A connection layer packet, the format field 55 is set to '0' and the security layer packet is set. If configured as a Format B link layer packet, set to '1'. In the present embodiment, unlike the embodiment shown in FIG. 4, the format field 55 is included between the fields 51 to 54 and the second payload unit 56 for the mobile station using a single carrier. . Therefore, even if the length of the MAC index 581 for the mobile stations using the multicarrier is 8 bits, the header 58 for the mobile stations using the multicarrier can be aligned in octet units. In addition, the Length field 582 indicates the length of each security layer packet payloaded to the second payload unit 56.

The second delimiter field 57 is set to a specific value when the sum of the lengths of the security layer packet, the MAC layer header, and the MAC trailer is smaller than the length of the corresponding MAC layer packet, and sets the MAC layer header 58k for the multi-carrier. A second MAC layer payload 56 may be distinguished. For example, the specific value may be '00000000'. And, the Mac trailer 59 can be set to '00'.

6 is a structural diagram of a sixth embodiment showing a multi-user MAC layer packet transmitted through a forward traffic channel. In the example of FIG. 6, the multi-user MAC layer packet is illustrated when the MAC index is 8 bits in length and the length field indicating the length of the security layer packet is 8 bits.

Similar to the case of the fifth embodiment, in order to transmit the packet of the form as shown in FIG. That is, after transmitting information that the packet to be transmitted is a multi-user MAC layer packet in advance, the corresponding multi-user MAC layer packet is transmitted. Meanwhile, a MAC index corresponding to each security layer packet is included to indicate a mobile station to which a plurality of security layer packets payloaded in the multi-user MAC layer packet are to be transmitted.

In Figure 6, fields 61-64 are for mobile stations using a single carrier, and fields 65-70 are for mobile stations using multiple carriers.

In FIG. 6, the format field 6111 has a length of 1 bit and indicates a format of a connection layer packet constituting a security layer packet. For example, if the security layer packet consists of format A connection layer packets, it is set to '0', and if the security layer packet consists of format B connection layer packets, it is set to '1'. In addition, the MAC index field 6112 has a length of 7 bits and indicates a mobile station to which each Security Layer packet is to be transmitted. That is, since it is a MAC index value for a mobile station that does not support multiple carriers, it has a length of 7 bits.

The length field 612 includes as many security layer packets as the MAC layer packets and indicates the length of each security layer packet. The delimiter field 62 is set to a specific value when the sum of the lengths of the security layer packet, the MAC layer header, and the MAC trailer is smaller than the length of the corresponding MAC layer packet, so that the MAC layer header 61 and the MAC layer payload ( MAC Layer Payload) 53 can be distinguished. For example, the specific value may be '00000000'. In addition, a first pad 64 is added to adjust the length of the MAC layer packet.

As described above, fields 65 to 70 are for mobile stations using multiple carriers, and as shown in FIG. 69b, ... includes the k-th header part 69k. The security layer packet corresponding to each header part constitutes the second payload part 65. The header for the security layer packet transmitted through the multicarrier includes a MAC index 691 and a Length field 692.

As described above, the MAC index 581 is equal to the number of multi-carrier security layer packets transmitted in the MAC layer packet, and indicates a mobile station to which a corresponding multi-carrier security layer packet should be transmitted. On the other hand, the Format field 68 indicates the format of the connection layer packet constituting the security layer packet for the multicarrier. If the security layer packet consists of a format A connection layer packet, it is set to '0' and the security layer packet. If configured as a Format B link layer packet, set to '1'. In this embodiment, similar to the embodiment shown in Fig. 5, it is included in front of the MAC layer header for a mobile station using multiple carriers.

Meanwhile, a second pad 67 is included to match the octet unit for the format fields 68a to 68k. Therefore, even if the length of the MAC index 692 for the mobile stations using the multicarrier is 8 bits, the header unit 69 for the mobile stations using the multicarrier can be aligned in octet units. In addition, the Length field 692 indicates the length of each security layer packet payloaded to the second payload unit 65.

The second delimiter field 66 is set to a specific value when the sum of the lengths of the security layer packet, the MAC layer header, and the MAC trailer is smaller than the length of the corresponding MAC layer packet, so that the second pad 67 and the second pad 67 are set to a specific value. MAC layer payload 65 can be distinguished. For example, the specific value may be '00000000'. And, the Mac trailer 70 can be set to '00'.

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.

According to the present invention, when a packet is transmitted using multiple carriers, even if the length of the MAC index is long, the packet can be transmitted without changing the preamble structure currently used.

Claims (25)

A method for transmitting a MAC layer packet through a forward traffic channel by a base station in a mobile communication system, Transmitting a preamble to a mobile station informing that the MAC layer packet is transmitted using multiple carriers on the forward traffic channel; And Sending the MAC layer packet comprising a header and a payload to the mobile station, The header includes a transport format field and a MAC index field, the payload includes at least one Security Layer packet, and the transport format field includes information about a transport format of the forward traffic channel. And the MAC index field includes information about a mobile station to which each of the at least one security layer packet is to be transmitted. The method of claim 1, The MAC layer packet is a multi-user MAC layer packet, characterized in that the packet transmission method. delete The method of claim 2, And the MAC index field has a length of 8 bits or more. The method of claim 2, And the MAC index field has a length of 7 bits. The method of claim 5, The MAC index value is larger than 128, and the MAC index field has a value corresponding to the MAC index value-128. The method of claim 1, The transport format field, characterized in that the physical layer packet size (Physical Layer Packet Size) information and the Nominal Transmit Duration information, characterized in that the packet transmission method. The method of claim 7, wherein A mapping relationship between a transport format field value included in the transport format field and a transport format that each value represents is shown in the table. Transmission Format (Physical Layer Packet Size, Nominal Transmit Duration) '00000000' (128, 4), (256, 4), (512, 4), (1204, 4) '00000001' (2048, 4) '00000010' (3072, 2) '00000011' (4096, 2) '00000100' (5120, 2) '00000101' ~ '11111111' Reserved Packet transmission method, characterized in that according to. The method of claim 7, wherein A mapping relationship between a transport format field value included in the transport format field and a transport format that each value represents is shown in the table. Transmission Format (Physical Layer Packet Size, Nominal Transmit Duration) '00000000' (128, 4) '00000001' (256, 4) '00000010' (512, 4) '00000011' (1204, 4) '00000100' (2048, 4) '00000101' (3072, 2) '00000110' (4096, 2) '00000111' (5120, 2) '00001000' ~ '11111111' Reserved Packet transmission method, characterized in that according to. delete A method for a mobile station to receive a MAC layer packet through a forward traffic channel in a mobile communication system, Receiving a preamble from a base station informing that the MAC layer packet is transmitted using multiple carriers on the forward traffic channel; And Receiving from the base station the MAC layer packet comprising a header and a payload, The header includes a transport format field and a MAC index field, the payload includes at least one Security Layer packet, and the transport format field includes information about a transport format of the forward traffic channel. And the MAC index field includes information on a mobile station to which each of the at least one security layer packet is to be transmitted. The method of claim 11, The MAC layer packet is a multi-user MAC layer packet, characterized in that the packet receiving method. delete 13. The method of claim 12, The MAC index field has a length of 8 bits or more. 13. The method of claim 12, And the MAC index field has a length of 7 bits. The method of claim 15, The MAC index value is greater than 128, and the MAC index field has a value corresponding to the MAC index value-128. A method of transmitting a multi-user MAC layer packet through a forward traffic channel by a base station in a mobile communication system, Transmitting a preamble to a mobile station indicating that the multi-user MAC layer packet is transmitted through the forward traffic channel; And Sending the multi-user Mac layer packet comprising a first Mac layer payload and a second Mac layer payload to the mobile station, wherein The first MAC layer payload is a payload for a mobile station that receives the multi-user MAC layer packet using a single carrier, and the second MAC layer payload receives the multi-user MAC layer packet using a multi-carrier. And a payload for the mobile station. The method of claim 17, And wherein said multi-user MAC layer packet comprises a first part comprising said first MAC layer payload and a second part comprising said second MAC layer. The method of claim 18, And wherein said second part comprises headers corresponding to each of at least one security layer packet constituting said second Mac layer payload. The method of claim 19, Each of the headers includes a Mac index field, a format field, and a Length field, The MAC index includes information on a mobile station to which a multi-carrier security layer packet corresponding to each of the headers is to be transmitted, and the format field includes a connection layer constituting the multi-carrier security layer packet. Connection layer), wherein the length field includes length information of the security layer packet for the multi-carrier. The method of claim 20, The MAC index has a length of 8 bits, characterized in that the packet transmission method. The method of claim 19, Each of the headers includes a Mac index field and a Length field, and at least one format field is configured between the first payload and the second payload, The MAC index includes information on a mobile station to which a multi-carrier security layer packet corresponding to each of the headers is to be transmitted, and the Length field includes length information of the multi-carrier security layer packet. And the at least one format field includes information on the format of a connection layer packet constituting the multi-carrier security layer packet. The method of claim 22, And a pad for fitting the format field in octets between the first payload and the at least one format field. The method of claim 19, Each of the headers includes a Mac index field and a Length field, and at least one format field is configured between the second payload and the header, The MAC index includes information on a mobile station to which a multi-carrier security layer packet corresponding to each of the headers is to be transmitted, and the Length field includes length information of the multi-carrier security layer packet. And the at least one format field includes information on the format of a connection layer packet constituting the multi-carrier security layer packet. The method of claim 24, And a pad for fitting the format field in octets between the second payload and the at least one format field.

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