KR101389075B1 - Apparatus and method for generating mac pdu in mobile communication system - Google Patents

Abstract

A method for generating a MAC protocol data unit (PDU) in a transmitter of a mobile communication system, the method comprising the steps of: identifying a LCID (Logical Channel Identification) of each MAC SDU; Checking the size of the set length field and setting the size of the Length field for each MAC SDU (Service Data Unit), and generating a MAC header having the LCID and the set length field for each MAC SDU And generating a MAC PDU by multiplexing the generated MAC header and the MAC SDU in the order of alignment, checking the size of the predetermined length field according to each LCID, and determining the size of the length field for each MAC SDU A process of checking the total length of the MAC PDU to be generated, a process of checking the length of each MAC SDU to be multiplexed, a process of sorting in order of length, and a process of sorting the first MAC SDU The size of the length field of the MAC PDU is set to be the smallest natural number that can represent the total length of the MAC PDU, and the size of the length field of the corresponding MAC SDU is set in the sorted order To the smallest natural number among the sizes capable of expressing the length of the MAC SDU of the sequence.

(MAC), a MAC header, a Length field, a MAC protocol data unit (PDU), a MAC SDU (Service Data Unit)

Description

[0001] APPARATUS AND METHOD FOR GENERATING MAC PDU IN MOBILE COMMUNICATION SYSTEM [0002]

1 is a diagram illustrating a role of a MAC in a general LTE mobile communication system,

2 is a diagram showing an embodiment of a configuration of a MAC PDU in an LTE mobile communication system,

3 is a diagram illustrating a configuration of an apparatus for generating a MAC protocol data unit in a transmitter of a mobile communication system according to an exemplary embodiment of the present invention;

4 is a diagram illustrating a configuration of a receiving terminal apparatus for receiving and processing a MAC protocol data unit in a mobile communication system according to an exemplary embodiment of the present invention;

FIG. 5 is a flowchart illustrating a process of generating a MAC protocol data unit including a MAC header having a length field of a different size according to an LCID in a transmitter of a mobile communication system according to an exemplary embodiment of the present invention.

FIG. 6 is a flowchart illustrating a process of detecting a MAC header having a length field of a different size according to an LCID from a MAC protocol data unit received by a receiving end of a mobile communication system according to an exemplary embodiment of the present invention.

FIG. 7 is a flowchart illustrating a process of generating a MAC protocol data unit including a MAC header having a variable length field in a transmitter of a mobile communication system according to an exemplary embodiment of the present invention; FIG.

8 is a flowchart illustrating a process of detecting a MAC header having a variable length field from a MAC protocol data unit received by a receiving end of a mobile communication system according to an exemplary embodiment of the present invention.

9 is a flowchart illustrating a process of generating a MAC protocol data unit including a MAC header having a variable length field in a transmitter of a mobile communication system according to an exemplary embodiment of the present invention.

10 is a flowchart illustrating a process of detecting a MAC header having a variable length field from a MAC protocol data unit received by a receiving end of a mobile communication system according to an exemplary embodiment of the present invention,

11 is a diagram illustrating a configuration of a MAC protocol data unit generated according to a preferred embodiment of the present invention.

The present invention relates to an apparatus and method for generating a MAC protocol data unit (PDU) in a mobile communication system, and more particularly, to a method and apparatus for generating a MAC protocol data unit And reducing the size of the header of the MAC PDU.

Today, mobile communication systems are evolving from high-speed, high-quality wireless data packet communications systems for providing data services and multimedia services away from providing initial voice-oriented services. Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, in which: FIG. 1 is a block diagram of a mobile communication system according to a first embodiment of the present invention; The UMTS (Universal Mobile Telecommunication Service) system, which is a third generation mobile communication system, is capable of transmitting packet-based text, digitized voice, video and multimedia data at a high speed of 2 Mbps or higher, Provide consistent service. The UMTS system uses a packet switched connection concept using a packet protocol such as an Internet Protocol (hereinafter referred to as 'IP'), and is always accessible to any other end in the network.

The 3rd Generation Partnership Project (3GPP) responsible for the standardization of the UMTS system is under discussion on LTE (Long Term Evolution) as the next generation mobile communication system of the UMTS system. LTE is a technology that implements high-speed packet-based communication of about 100 Mbps, and various measures are being discussed. For example, there are discussions to reduce the number of nodes located on the communication path by simplifying the structure of the network, and to make wireless protocols as close as possible to the wireless channel.

FIG. 1 illustrates a role of a MAC in a general LTE mobile communication system.

Referring to FIG. 1, a Radio Link Control (RLC) layer 102 and 104 construct RLC SDUs (Service Data Units) received from an upper layer into one RLC PDU, (106).

From the viewpoint of the MAC layer 106, the RLC PDU can be interpreted as a MAC SDU. The MAC layer 106 constructs a MAC header and composes one MAC PDU. The MAC PDU may include MAC SDUs for controlling transmission / reception of data between the transmitter and the receiver, as well as the MAC SDUs descrambled by the RLC layers 102 and 104. The MAC SDU for control may include one MAC PDUs may be transmitted together with MAC SDUs for data transmission, or may be embedded solely in a MAC PDU and transmitted. Therefore, the MAC PDU header should be configured to distinguish between a MAC SDU for transmitting data and a MAC SDU for control.

The MAC layer 106 generates an MAC PDU including the configured MAC PDU header and transmits the MAC PDU to a physical layer protocol (PHY) layer 108. The PHY layer 108 transmits the received MAC PDU to the PHY layer 110 of the receiving end and the PHY layer 110 transmits the received MAC PDU to the MAC layer 112 of the receiving end.

Upon receiving the MAC PDU, the MAC layer 112 reads the MAC PDU header included in the received MAC PDU, separates the included MAC SDU, and provides the separated MAC SDU to the corresponding RLC layers 114 and 116.

2 is a diagram showing an embodiment of a configuration of a MAC PDU in an LTE mobile communication system. Referring to FIG. 2, the MAC PDU includes a MAC header 200 and payloads 209, 210, and 211 including one or more MAC SDUs.

The MAC header 200 includes LCID (Logical Channel Identification) fields 201, 204, and 207, E fields 202, 205, and 208, and a Length field 203, and 206, respectively.

The LCID fields 201, 204, and 207 are fields for refining each MAC SDU received from a plurality of logical channels. A MAC SDU for transmitting data through the LCID fields 201, 204, and 207, SDU. That is, it is possible to distinguish between a MAC SDU for transmitting data and a MAC SDU for control as shown in Table 1 below.

LCID Contents 00000 ~ 01111 DTCH # 1 ~ # 6 10000 ~ 10001 DCCH # 1 to # 2 10010 to 11101 Reserved 11110 MAC control SDU 11111 Padding

The E fields 202, 205, and 208 are indicators indicating whether there are more MAC SDUs multiplexed in the MAC header. That is, if the E fields 202, 205, and 208 are 0, it means the last MAC SDU, and if 1, the MAC SDU is multiplexed.

The length fields 203 and 206 are fields having information on the size of a MAC SDU corresponding to each of the length fields 203 and 206, and the length fields 203 and 206 should be at least large enough to express the size of a MAC SDU.

2, the LCID field 201, the E field 202 and the length field 203 in the MAC header 200 are information related to the first MAC SDU 209, and in the MAC header 200, The LCID field 204 of the MAC header 200, the E field 205 and the length field 206 are information related to the second MAC SDU 210 and the LCID field 207, the E field 208, Is information related to the third MAC SDU 211.

At this time, it is notable that the length field for the third MAC SDU 211 is omitted. This is because the length of the entire MAC PDU is known in advance and can be estimated by subtracting the length of the MAC SDU stored in the length field of each MAC SDU in the entire length.

Since the receiving end receiving the MAC PDU must be able to distinguish each field in order to read the MAC header, each field of the MAC header generally has a fixed size for each field. Among them, the length field expects 15 bits as a length field in the current LTE standard to express the size of the largest MAC SDU. However, a MAC PDU including a plurality of MAC SDUs having a small size allocates a fixed length field of 15 bits in order to distinguish a MAC SDU having a small size, thereby wasting resources.

An object of the present invention is to provide an apparatus and method for generating a MAC PDU having an optimized MAC header in a mobile communication system.

It is another object of the present invention to provide an apparatus and method for generating a MAC PDU that generates a MAC header having a size of a predetermined length field according to an LCID (Logical Channel Identification) when generating a MAC header in a mobile communication system, And a method.

It is another object of the present invention to provide a method and apparatus for generating a MAC header in a mobile communication system by changing a size of a predetermined length field according to an LCID and finally positioning a MAC SDU having the longest length field, An MAC PDU for generating a MAC header, and an apparatus and method for receiving the MAC PDU.

It is another object of the present invention to provide a method and apparatus for sorting MAC SDUs to be multiplexed in order of magnitude when generating a MAC header in a mobile communication system and allocating a size of a length field for the first MAC SDU to a size And a MAC PDU for generating a MAC header by allocating a size of a length field to a size capable of expressing a length of a previous MAC SDU from a second MAC SDU, and an apparatus and method for receiving the MAC PDU .

It is another object of the present invention to arrange MAC SDUs to be multiplexed in order of magnitude when setting up a MAC header in a mobile communication system and to set the size of the length field of each MAC SDU in turn. At this time, an apparatus and method for generating a MAC PDU for generating a MAC header by setting a size of a length field of the corresponding MAC SDU to a size capable of expressing a sum of lengths of MAC SDUs for which a size of a length field is not set, And a method.

According to a first aspect of the present invention, there is provided a method for generating a MAC protocol data unit (PDU) in a transmitter of a mobile communication system, Determining a size of a length field for each MAC SDU (Service Data Unit) by checking the size of a predetermined length field according to each LCID, checking the LCID (Logical Channel Identification) Generating a MAC header having an LCID and a set length field for each MAC SDU, and generating a MAC PDU by multiplexing the generated MAC header and the MAC SDU in an ordered sequence, The process of determining the size of the predetermined length field and setting the size of the length field for each MAC SDU includes checking the total length of the MAC PDU to be generated and checking the length of each MAC SDU to be multiplexed And setting the size of the length field of the first MAC SDU to the smallest natural number that can represent the total length of the MAC PDUs in the sorted order, And setting the size of the length field of the corresponding MAC SDU set from the MAC SDU to the smallest natural number among the sizes that can express the length of the MAC SDU of the previous order in the ordered order.

According to a second aspect of the present invention, there is provided a method of generating a MAC protocol data unit (PDU) in a transmitter of a mobile communication system, the method comprising: The length of each MAC SDU (Service Data Unit) to be multiplexed, and the size of the length field of the first MAC SDU in the aligned order, PDUs of the first MAC SDU and a size of a length field of the corresponding MAC SDU to be set from the second MAC SDU in the sorted order, And setting a length field of the MAC SDU to be multiplexed, generating a MAC header in consideration of the order of sorting; And generating the MAC PDU by multiplexing the generated MAC header and the MAC SDU to be multiplexed in the order of alignment

According to a third aspect of the present invention, there is provided a method for generating a MAC protocol data unit (PDU) in a transmitter of a mobile communication system, the method comprising: The length of each MAC SDU (Service Data Unit) to be multiplexed is checked, and the length of the MAC SDU is aligned with the length of the MAC SDU, PDU is set to the smallest natural number that can represent a value obtained by subtracting the length of all the MAC SDUs previously set in the sequence from the total length of the PDUs and the length field of the MAC SDU to be multiplexed, And generating MAC PDUs by multiplexing the generated MAC header and the MAC SDUs to be multiplexed in the order of sorting.

According to a fourth aspect of the present invention, there is provided an apparatus for generating a MAC protocol data unit (PDU) in a transmitter of a mobile communication system, the apparatus comprising: A Radio Link Control (RLC) for outputting a Service Data Unit (PDU), a Logical Channel Identification (LCID) and length information for the MAC SDU, and an LCID for the receiving SDU (Sevice Data Unit) A header generator for generating a MAC header having a variable length field using the length information; and a multiplexer for multiplexing the MAC header and the MAC SDUs according to the control of the header generator to generate and output a MAC PDU, The header generation unit checks the total length of MAC PDUs to be generated, checks the length of each MAC SDU to be multiplexed, arranges the lengths in descending order of length, The size of the length field of the first MAC SDU is set to the smallest natural number that can represent the total length of the MAC PDU, and the size of the length field of the MAC SDU, which is set from the second MAC SDU in the sorted order, A MAC PDU is generated by setting a length field of a MAC SDU by setting the MAC SDU length to a smallest natural number that can express the length of a MAC SDU in a previous sequence, and generating a MAC header in consideration of the order of alignment.
According to a fifth aspect of the present invention, there is provided an apparatus for generating a MAC protocol data unit (PDU) in a transmitter of a mobile communication system, the apparatus comprising: A Radio Link Control (RLC) unit for outputting a Service Data Unit (PDU), an LCID (Logical Channel Identification) and a length information for the MAC SDU, and the LCID and the length information for the MAC SDU And a multiplexer for generating and outputting a MAC PDU by multiplexing the MAC header and the MAC SDUs under the control of the header generator, The header generation unit checks the total length of the MAC PDUs to be generated, checks the length of each of the MAC SDUs to be multiplexed, arranges them in descending order of length, Setting a length field of the MAC SDU to be multiplexed by setting the size of this field to the smallest natural number among the sizes that can represent a value obtained by subtracting the length of all the MAC SDUs set in the previous order from the total length of the MAC PDUs, And generates a MAC header in consideration of the ordered order.
According to a sixth aspect of the present invention, there is provided a method for generating a MAC protocol data unit (PDU) in a transmitter of a mobile communication system, A process of confirming an LCID (Logical Channel Identification), a process of setting a size of a length field for each MAC SDU (Service Data Unit) by checking the size of a predetermined length field according to each LCID, Generating a MAC header having an LCID for the SDU and a set length field, and generating a MAC PDU by multiplexing the generated MAC header and the MAC SDU in an ordered sequence, Checking the size of the field and setting the size of the length field for each MAC SDU includes checking the total length of the MAC PDU to be generated and checking the length of each MAC SDU to be multiplexed The size of the length field of each MAC SDU is calculated from the total length of each MAC SDU according to the order in which the lengths are arranged in a descending order and the order in which the sizes of all MAC SDUs And setting it to a small natural number.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Further, if it is determined that the gist of the present invention may be unnecessarily blurred, detailed description thereof will be omitted.

The present invention reduces the size of a header field included in a MAC PDU when generating a MAC protocol data unit (PDU) in a mobile communication system, The present invention relates to an apparatus and method for generating a MAC protocol data unit optimized for a MAC protocol data unit, and the apparatus of the present invention will be described below with reference to FIGS. 3 and 4. FIG.

3 is a diagram illustrating a configuration of an apparatus for generating a MAC protocol data unit in a transmitter of a mobile communication system according to an exemplary embodiment of the present invention. 3, an apparatus for generating a MAC PDU according to the present invention includes a multiplexer 300, radio link controllers (RLC) 302, 304 and 306, a MAC controller 308, And a header generation unit 310. [

The RLCs 302, 304, and 306 transmit MAC SDUs to be transmitted to the multiplexer 300 and provide LCID information and length information for the MAC SDUs to be transmitted to the header generating unit 310. If there is a MAC SDU for MAC protocol control, the MAC controller 308 transmits the MAC SDU to the multiplexer 300 and transmits the LCID information and the length information for the MAC SDU for the control to the header generator 310, .

The header generating unit 310 generates a header having a variable length field for each MAC SDU using the LCID information and length information of the MAC SUD received from the RLCs 302, 304, and 306 and the MAC controller 308, And outputs the generated MAC header to the multiplexer 300 and controls the order of the MAC SDUs included in the generation of the MAC PDU through the multiplexer 300.

When the MAC header is generated in the header generation unit 310, the length field having a variable size of the MAC SDU may be set to a size of a predetermined length field according to the LCID, or may be multiplexed with the entire length of a MAC PDU to be generated The size of the length field can be set using the correlation between the lengths of the MAC SDUs. Each setting method will be described in detail below with reference to Figs. 5, 7, and 9.

The multiplexer 300 generates MAC PDUs by multiplexing the MAC header and the MAC SDUs received in the order of the control of the header generator 310.

4 is a diagram illustrating a configuration of a receiving terminal apparatus for receiving and processing a MAC protocol data unit in a mobile communication system according to an exemplary embodiment of the present invention. Referring to FIG. 4, a receiver for receiving a MAC PDU according to the present invention includes a header detector 400, an SDU detector 402, an RLC 404, and a MAC controller 406.

Upon receiving the MAC PDU, the header detector 400 estimates the size of the variable length field. And provides the SDU detector 402 with the LCID of each of the MAC SDUs multiplexed and included in the received MAC PDU and the length information of the MAC SDU defined in the length field.

The size of the variable length field estimated for extracting the MAC SDU multiplexed in the header detector 400 may be set to the size of a predetermined length field according to the LCID, Or may be set to the size of the length field using the correlation between the lengths of the MAC SDUs to be multiplexed. A method of estimating the size of the variable length field will be described in detail below with reference to FIGS. 6, 8, and 10. FIG.

The SDU detector 402 extracts a MAC SDU from the received MAC PDU using the LCID information of the MAC SDU and length information of the MAC SDU provided from the header detector 400, And provides the extracted MAC SDU to the MAC controller 406 if the extracted MAC SDU is a MAC SDU to be controlled.

Hereinafter, a method of generating a MAC protocol data unit in which the header field of the MAC PDU is optimized by reducing the length field of the MAC header according to the present invention will be described below.

5 is a flowchart illustrating a process of generating a MAC protocol data unit including a MAC header having a length field of a different size according to an LCID in a transmitter of a mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 5, the transmitter for generating the MAC PDU according to the present invention detects the occurrence of the MAC PDU generation event in step 500, checks each LCID of the MAC SDU to be transmitted in step 502, and proceeds to step 504 And sets the size of the length field for each MAC SDU by checking the size of the predetermined length field according to each LCID. In step 506, the MAC SDU having the largest size of the set length field is searched for and the MAC The header information for the SDU is placed at the end of the header to be generated and the MAC header is generated in which the length field for the last largest MAC SDU is omitted in step 508. In step 510, The MAC PDU is generated by multiplexing a MAC header and a MAC SDU to be transmitted.

5, the size of the length field is preset according to the LCID because the type of the MAC SDU can be known by the LCID and the maximum length of the MAC SDU can be estimated for each type of the MAC SDU.

6 is a flowchart illustrating a process of detecting a MAC header having a length field of a different size according to an LCID from a MAC protocol data unit received by a receiving end of the mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 6, the receiver receiving the MAC PDU generated through the procedure of FIG. 5 according to the present invention receives the MAC PDU in step 600, and proceeds to step 602. In step 602, In step 604, the size of the predetermined length field is checked according to the LCID. In step 606, it is determined whether there are more unconfirmed multiplexed MAC SDUs. The step 606 is repeated until the information of all the MAC SDUs defined in the MAC header is confirmed.

If it is determined in step 606 that there is no multiplexed MAC SDU that is not acknowledged, that is, if all the MAC SDUs defined in the MAC header have been checked, the receiver proceeds to step 608, And extracts the MAC SDU from the received MAC PDU using the information of the MAC PDU. In step 610, the MAC SDU extracted according to the LCID of each MAC SDU is processed.

7 is a flowchart illustrating a process of generating a MAC protocol data unit including a MAC header having a variable length field in a transmitter of a mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 7, the transmitter for generating an MAC PDU according to the present invention detects the occurrence of an event of generating an MAC PDU in step 700, and proceeds to step 702 to check the total length of a MAC PDU to be generated. The total length of the MAC PDUs may be the sum of the lengths of the MAC SDUs to be provided through the scheduler or to be multiplexed. In step 704, the transmitter checks the lengths of the MAC SDUs to be multiplexed and arranges them in descending order of length.

The transmitter then proceeds to step 706 to determine the size of the length field of each MAC SDU to be multiplexed to be included in the MAC header.

If it is determined in step 706 that the corresponding MAC SDU is the first MAC SDU to be sorted, the transmitter proceeds to step 708 where the size of the length field of the corresponding MAC SDU is represented by the smallest natural number In step 712, it is determined whether there are more MAC SDUs to be multiplexed.

If it is determined in step 706 that the corresponding MAC SDU is not the aligned first MAC SDU, the transmitter proceeds to step 710 and determines whether the size of the length field of the corresponding MAC SDU is greater than the size of the MAC SDU It is set to the smallest natural number, and the process proceeds to step 712. In step 706, step 712 is repeated until the length field of all MAC SDUs is set.

In step 714, the transmitter generates a MAC header in consideration of the order in step 704. In step 716, the transmitter generates a MAC PDU by multiplexing the generated MAC header and a MAC SDU to be transmitted.

As shown in FIG. 7, since the size of the length field for sorting the MAC SDUs in the order of length and the total length of the MAC PDUs is set as the length field for the first MAC SDU, If the size of the length field is set to a size capable of expressing the length of the immediately preceding MAC SDU when the size of the length field is set, the size of the length field can be set to be variable. Therefore, resource waste due to the length field can be reduced. The reason for setting the size of the length field through the rule is that when the receiving end checks the MAC header, it is necessary to know the range defining the length of each MAC SDU.

An embodiment for setting the size of the length field of each MAC SDU in the MAC header configuration will be described below with reference to the example of the MAC PDU of FIG. 11 is a diagram illustrating a configuration of a MAC protocol data unit generated according to a preferred embodiment of the present invention.

In FIG. 7, an example of setting the length field size of each MAC SDU included in the process of generating a MAC header is set using FIG. 11 (a).

Referring to FIG. 11A, it can be seen that the MAC SDUs included in the MAC SDU are arranged in order of increasing length through step 704. That is, the MAC SDU 1102 of 100 bytes, the MAC SDU 110 of 90 bytes, the MAC SDU 1104 of 90 bytes, the MAC SDU 1105 of 60 bytes, the MAC SDU 1106 of 20 bytes, and the MAC SDU 1107 of 10 bytes .

At this time, the size of the entire MAC PDU is 379 bytes, which is the value already allocated by the MAC scheduler, and the receiving side can receive the size of the MAC PDU separately from the MAC PDU through the physical layer.

Since the size of the first MAC SDU 1102 is included in the MAC PDU, the size of the first MAC SDU 1102 can not be larger than 379 bytes, which is the size of the MAC PDU. In step 708, the size of the length field corresponding to the first MAC SDU 1102 may be 379, which is the size of the MAC PDU. That is, the size of the length field corresponding to the first MAC SDU 1102 is the length of the smallest natural number X satisfying 2 ^X > 379. As a result, the size of the length field of the first MAC SDU 1102 is 9 bits.

Since the MAC PDUs are sorted in descending order of magnitude and information of the multiplexed MAC SDUs can be known, the size of the second MAC SDU 1103 is larger than 100 bytes, which is the size of the MAC SDU 1102 multiplexed immediately before none. The size of the length field corresponding to the re-MAC SDU 1103 may be expressed as 100, which is the size of the MAC SDU 1102 multiplexed immediately before. That is, the size of the length field corresponding to the second MAC SDU 1103 is the length of the smallest natural number X that satisfies 2 ^X > 100. As a result, the size of the length field of the second MAC SDU 1103 is 7 bits.

The MAC SDU 1105 has 7 bits, the MAC SDU 1106 has 6 bits, and the MAC SDU 1107 has a length field size of 4 bits in the same manner in step 710, I have. At this time, the length field of the last MAC SDU 1107 may be omitted.

8 is a flowchart illustrating a process of detecting a MAC header having a variable length field from a MAC protocol data unit received by a receiver of a mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 8, in step 800, the receiver for receiving the MAC PDU generated through the process of FIG. 7 according to the present invention receives the MAC PDU in step 800. In step 802, In step 804, it is determined whether the information of the corresponding MAC SDU to check the field length is the first MAC SDU of the MAC header.

If it is determined in step 804 that the corresponding MAC SDU is the first MAC SDU, the receiver proceeds to step 806 and sets the length field of the corresponding MAC SDU to the smallest natural number that can represent the total length of the received MAC PDU. In step 810, information on the length field confirmed for the size setting of the length field of the next MAC SDU is checked to check the length of the corresponding MAC SDU. In step 812, information on the MAC SDU multiplexed in the MAC header Is present.

If it is determined in step 804 that the corresponding MAC SDU is not the first MAC SDU, the receiver proceeds to step 808 and determines the size of the length field of the corresponding MAC SDU as the size of the last MAC SDU It is set as a small natural number, and the process proceeds to step 810. [ In step 804, step 812 is repeated until the length field of all MAC SDUs in the MAC header of the received MAC PDU is checked.

If it is determined in step 812 that there is no multiplexed MAC SDU that has not been acknowledged, that is, if all the MAC SDUs defined in the MAC header have been checked, the receiver proceeds to step 814, Field to extract the MAC SDU from the received MAC PDU, and proceeds to step 816 and processes the extracted MAC SDU according to the LCID of each MAC SDU.

9 is a flowchart illustrating another process of generating a MAC protocol data unit including a MAC header having a variable length field in a transmitter of a mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 9, the transmitter for generating an MAC PDU according to the present invention detects the occurrence of an MAC PDU generation event in step 900, and checks the total length of a MAC PDU to be generated in step 902. FIG. The total length of the MAC PDUs may be the sum of the lengths of the MAC SDUs to be provided through the scheduler or to be multiplexed. In step 904, the transmitter checks the lengths of the MAC SDUs to be multiplexed and arranges them in descending order of length.

Then, the transmitter proceeds to step 906 to set the size of the length field of each MAC SDU to be multiplexed to be included in the MAC header. The size of the length field of the MAC SDU corresponds to the size of the length field The MAC PDU size is set to the smallest natural number that can be expressed by subtracting the length of the set MAC SDU. In step 908, it is checked whether there are more MAC SDUs to be multiplexed do. Step 906 is repeated.

In step 910, the transmitter generates a MAC header in consideration of the ordered sequence in step 904. In step 912, the transmitter generates a MAC PDU by multiplexing the generated MAC header and a MAC SDU to be transmitted.

As shown in FIG. 9, the MAC SDUs are arranged in order of length, and the size of the length field of the MAC SDU is represented by the size of the total length of the MAC PDU minus the length of the MAC SDU, The reason for setting the smallest natural number among the MAC SDUs is that when the MAC PDUs are sorted in the order of size, the remaining value of the total length of the MAC PDU minus the length of the MAC SDU, Is greater than or equal to the length. Therefore, when the size of the length field is variably set as described above, the waste of resources due to the length field can be reduced.

Then, an example of setting the length field size of each MAC SDU included in the MAC header generation process in FIG. 9 is set using FIG. 11 (b), as follows.

Referring to FIG. 11B, it can be seen that the MAC SDUs are arranged in descending order of length through step 904. That is, the MAC SDU 1151 of 1500 bytes, the MAC SDU 1153 of 300 bytes, the MAC SDU 1154 of 90 bytes, and the MAC SDU 1155 of 80 bytes are arranged in this order.

At this time, the size of the entire MAC PDU is 1978 bytes, which is the value already allocated by the MAC scheduler, and the receiving side can receive the size of the MAC PDU separately from the MAC PDU through the physical layer.

Since the size of the first MAC SDU 1102 is included in the MAC PDU, it can not be larger than the size of the MAC PDU of 1978 bytes. In step 906, the size of the length field corresponding to the first MAC SDU 1152 may be expressed as 1978, which is the size of the MAC PDU. That is, the size of the length field corresponding to the first MAC SDU 1152 is the smallest natural number X that satisfies 2 ^X > 1978, which is the size of the length field. As a result, the size of the length field of the first MAC SDU 1152 is 11 bits.

Since the MAC PDUs are sorted in descending order of magnitude and the information of the multiplexed MAC SDUs can be known, the size of the second MAC SDU 1153 is determined to be 1978 bytes, which is the total size of the MAC PDUs, ), Which is 1500bytes, minus the size of the data. In step 906, the size of the length field corresponding to the re-MAC SDU 1153 can be expressed as 1978 bytes-1500 bytes = 478 bytes. That is, the size of the length field corresponding to the second MAC SDU 1153 is the length of the smallest natural number X that satisfies 2 ^X > 478. As a result, the size of the length field of the second MAC SDU 1153 is 9 bits.

If the MAC SDU 1154 is set to the smallest natural number that can represent a value obtained by subtracting the length of the MAC SDU previously set in the length field from the total length of the MAC PDU in the same manner in step 906, 8 bits, and the MAC SDU 1155 has a length field size of 7 bits. At this time, the length field of the last MAC SDU 1155 may be omitted.

10 is a flowchart illustrating another process of detecting a MAC header having a variable length field from a MAC protocol data unit received by a receiving end of the mobile communication system according to an exemplary embodiment of the present invention.

Referring to FIG. 10, the receiver receiving the MAC PDU generated through the process of FIG. 9 according to the present invention receives the MAC PDU in step 1000, and proceeds to step 1002 where the MAC PDU received through the physical layer In step 1004, the length field of the corresponding MAC SDU to be checked is set to the smallest natural number among the sizes that can represent a value obtained by subtracting the length of the MAC SDU already confirmed from the total length of the MAC PDUs ,

In step 1006, information of the length field confirmed for the size setting of the length field of the next MAC SDU is checked to check the length of the corresponding MAC SDU, and in step 1008, information of the MAC SDU multiplexed in the MAC header Check if it exists. In step 1004, step 1008 is repeated until the length field of all MAC SDUs in the MAC header of the received MAC PDU is checked.

If it is determined in step 1008 that there are no multiplexed MAC SDUs that are not acknowledged, that is, information of all MAC SDUs defined in the MAC header is checked, the receiver proceeds to step 1010 to check the length of each MAC SDU Field to extract the MAC SDU from the received MAC PDU, and proceeds to step 1012 and processes the extracted MAC SDU according to the LCID of each MAC SDU.

Hereinafter, it will be described with reference to FIG. 11 how MAC PDU generation according to the configuration method of the MAC SDU included in the MAC PDU according to the present invention is effective.

Referring to FIG. 11, (a) shows that the sizes of multiplexing MAC SDUs are substantially similar. In this case, the method of FIG. 7, which sets the size of the length field to a size that can represent the length of the previous MAC SDU, is effective in reducing the size of the length field. On the other hand, (b) shows a case in which the difference in size of the MAC SDUs to be multiplexed is large. In this case, the method of FIG. 9 in which the size of the length field is set to a size capable of expressing the length of the non- It can be said to be effective.

Obviously, there are many ways within the scope of the claims to modify these embodiments. In other words, there can be many other ways in which the invention may be practiced without departing from the scope of the following claims.

As described above, the present invention includes a Radio Link Control (RLC) for outputting a MAC SDU (Service Data Unit) to be transmitted, an LCID (Logical Channel Identification) and length information for the MAC SUD, A header generator for generating a MAC header having a variable length field using the LCID and the length information for the SUD; and a multiplexer for multiplexing the MAC header and the MAC SDUs under control of the header generator, And a demultiplexer including a header detector for detecting the MAC header and an SDU detector for receiving the MAC PDU and generating a MAC protocol data unit in a mobile communication system including a multiplexer The present invention relates to an apparatus and method for receiving a MAC protocol data unit in a system, It is effective to reduce the size of the AC header.

Claims (19)

A method for generating a MAC protocol data unit (PDU) at a transmitter of a mobile communication system, Checking the LCID (Logical Channel Identification) of each of the MAC SDUs, Determining a size of a predetermined length field according to each LCID and setting a size of a length field for each MAC SDU (Service Data Unit) Generating a MAC header having an LCID and a set length field for each MAC SDU; And generating an MAC PDU by multiplexing the generated MAC header and the MAC SDU in an ordered sequence, The process of determining the size of the predetermined length field according to each LCID and setting the size of the length field for each MAC SDU, Determining a total length of a MAC PDU to be generated; Determining lengths of MAC SDUs to be multiplexed and arranging them in descending order of length; Setting a size of a length field of a first MAC SDU in a sorted order to a smallest natural number that is capable of expressing a total length of a MAC PDU; And setting the size of the length field of the corresponding MAC SDU to be set from the second MAC SDU in the sorted order to the smallest natural number among the sizes that can express the length of the MAC SDU of the previous order in the ordered order. Gt; MAC PDU < / RTI > The method according to claim 1, The process of verifying the total length of the MAC PDU comprises: And checking the total length of the MAC PDU through the physical layer. The method according to claim 1, Setting a size of a length field of a corresponding MAC SDU to be set from a second MAC SDU in an ordered sequence to a smallest natural number among sizes that can express the length of a MAC SDU in a previous order, And setting a length of a MAC SDU of a previous sequence in an ordered sequence using a size of a length field of a MAC SDU of a previous sequence in an ordered sequence. delete A method for generating a MAC protocol data unit (PDU) at a transmitter of a mobile communication system, Determining a total length of a MAC PDU to be generated; Checking the lengths of MAC SDUs (Service Data Units) to be multiplexed and arranging them in descending order of length, Setting a size of a length field of a first MAC SDU to a smallest natural number that can represent a total length of an MAC PDU in an ordered sequence; Setting a size of a length field of a corresponding MAC SDU to be set from a second MAC SDU in a sorted order to a smallest natural number among sizes capable of expressing a length of a MAC SDU in a previous order in a sort order; If all the length fields of the MAC SDU to be multiplexed are set, generating a MAC header by considering the order of sorting; And generating a MAC PDU by multiplexing the generated MAC header and the MAC SDU to be multiplexed in an ordered sequence. 6. The method of claim 5, Upon receiving the MAC PDU at the receiving end, Receiving a total length of the MAC PDU; Setting a size of a length field of a MAC SDU first located in a MAC header of the MAC PDU to a smallest natural number representing a total length of the received MAC PDU; Further comprising the step of setting a size of a length field of a MAC SDU located second after the MAC header to be the smallest natural number that can express the length of the immediately preceding MAC SDU, . The method according to claim 6, The receiving of the total length of the MAC PDU comprises: And a total length of the MAC PDUs is received through a physical layer. The method according to claim 6, The process of setting the size of the length field of the MAC SDU located second after the MAC header to the smallest natural number that can express the length of the immediately preceding MAC SDU, And checking and setting the length of the immediately preceding MAC SDU using the size of the length field set immediately before. A method for generating a MAC protocol data unit (PDU) at a transmitter of a mobile communication system, Determining a total length of a MAC PDU to be generated; Checking the lengths of MAC SDUs (Service Data Units) to be multiplexed and arranging them in descending order of length, Setting the size of the MAC SDU Length field to the smallest natural number among the sizes that can represent a value obtained by subtracting the length of all the MAC SDUs previously set in the order from the total length of the MAC PDUs according to the sorted order; , If all the length fields of the MAC SDU to be multiplexed are set, generating a MAC header by considering the order of sorting; And generating a MAC PDU by multiplexing the generated MAC header and the MAC SDU to be multiplexed in an ordered sequence. 10. The method of claim 9, Upon receiving the MAC PDU at the receiving end, Receiving a total length of the MAC PDU; Setting a length field of a corresponding MAC SDU to be checked in a MAC header of the MAC PDU as a minimum natural number that can represent a value obtained by subtracting a length of a MAC SDU already confirmed from the total length of the MAC PDU; And checking the length of the MAC SDU using the size of the set length field. 11. The method of claim 10, The receiving of the total length of the MAC PDU comprises: And a total length of the MAC PDUs is received through a physical layer. An apparatus for generating a MAC protocol data unit (PDU) at a transmitter of a mobile communication system, A radio link controller (RLC) for outputting a MAC SDU (Service Data Unit) to be transmitted, an LCID (Logical Channel Identification) and length information for the MAC SDU, A header generating unit for generating a MAC header having a variable length field using the LCID and the length information of the received SDU (Sevice Data Unit) And a multiplexer for multiplexing the MAC header and the MAC SDUs under the control of the header generator to generate and output a MAC PDU, Wherein the header generating unit comprises: The total length of the MAC PDUs to be generated is checked, the lengths of the MAC SDUs to be multiplexed are checked, and the sizes of the lengths of the first MAC SDUs are sorted in order of increasing length. And the size of the length field of the MAC SDU set from the second MAC SDU in the sorted order is set to the smallest natural number among the sizes capable of expressing the length of the MAC SDU in the previous order in the sorted order To set a length field of the MAC SDU, and generates a MAC header in consideration of the order of alignment. 13. The method of claim 12, The apparatus for generating the MAC PDU includes: Further comprising: a MAC controller for generating a MAC SDU for control, outputting a MAC SDU for the control to the multiplexer, and providing LCID and length information for the MAC SDU for the control to the header generator, To the MAC PDU. 13. The method of claim 12, Wherein the header generating unit comprises: And a size of a length field for the MAC SDU is set by confirming a size of a predetermined length field according to the LCID. An apparatus for generating a MAC protocol data unit (PDU) at a transmitter of a mobile communication system, A radio link controller (RLC) for outputting a MAC SDU (Service Data Unit) to be transmitted, an LCID (Logical Channel Identification) and length information for the MAC SDU, A header generator for generating a MAC header having a variable length field using the LCID and the length information of the MAC SDU to be received; And a multiplexer for multiplexing the MAC header and the MAC SDUs under the control of the header generator to generate and output a MAC PDU, The header generation unit checks the total length of the MAC PDUs to be generated, identifies the lengths of the MAC SDUs to be multiplexed, arranges them in descending order of length, arranges the size of the length field of the MAC SDUs in the sorted order, The length field of the MAC SDU to be multiplexed is set to be the smallest natural number among the sizes that can represent a value obtained by subtracting the length of all the MAC SDUs set in the previous order from the total length of the MAC SDUs, And generates an MAC PDU. 16. The method of claim 15, The apparatus for generating the MAC PDU includes: Further comprising: a MAC controller for generating a MAC SDU for control, outputting a MAC SDU for the control to the multiplexer, and providing LCID and length information for the MAC SDU for the control to the header generator, To the MAC PDU. 16. The method of claim 15, Wherein the header generating unit comprises: And a size of a length field for the MAC SDU is set by confirming a size of a predetermined length field according to the LCID. A method for generating a MAC protocol data unit (PDU) at a transmitter of a mobile communication system, Checking the LCID (Logical Channel Identification) of each of the MAC SDUs, Determining a size of a predetermined length field according to each LCID and setting a size of a length field for each MAC SDU (Service Data Unit) Generating a MAC header having an LCID and a set length field for each MAC SDU; And generating an MAC PDU by multiplexing the generated MAC header and the MAC SDU in an ordered sequence, The process of determining the size of the predetermined length field according to each LCID and setting the size of the length field for each MAC SDU, Determining a total length of a MAC PDU to be generated; Determining lengths of MAC SDUs to be multiplexed and arranging them in descending order of length, And setting the size of the length field of each MAC SDU to the smallest natural number among the sizes that can represent a value obtained by subtracting the length of all the MAC SDUs set in the previous order from the total length of the MAC PDUs according to the sorted order The MAC PDU comprising: 19. The method of claim 18, The process of verifying the total length of the MAC PDU comprises: And receiving the total length of the MAC PDU through the physical layer and confirming the total length of the MAC PDU.

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