KR101345526B1 - Apparatus and method for transmitting/receiving data in a communication system - Google Patents

Abstract

The present invention provides a method for transmitting and receiving data of a mobile station in a communication system, the method comprising: receiving a first data packet from a base station; and a first acknowledgment (ACK) packet confirming receipt of the first data packet. Detecting a difference between a confirmation number and a second confirmation number included in a second ACK packet confirming reception of a second data packet received before the first data packet; A method of transmitting and receiving data of a mobile station including transmitting to a base station.

BW-REQ, ACK Packet, BW-REQ-ACK

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus and method for transmitting / receiving data in a communication system,

The present invention relates to a communication system, and more particularly, to an apparatus and method for transmitting and receiving data in a communication system.

The resources available to the communication system are limited. Therefore, researches for using the resource efficiently have been actively conducted. In order to efficiently use limited resources, it is necessary to prevent unnecessary allocation of resources, and to quickly reallocate preallocated resources and reallocate them for other services.

On the other hand, Transmission Control Protocol (TCP), which is referred to as 'TCP', is the most widely used protocol for reliable data transmission. Upon reception, an acknowledgment (ACK: ACK) message confirming receipt of the data packet is transmitted to the base station (BS). And when the mobile station transmits the ACK packet to the base station, it requires resources, i.e. bandwidth, by the ACK packet transmission.

Next, a procedure of receiving a data packet in a general communication system using TCP and transmitting an ACK packet according to the data packet reception will be described with reference to FIG. 1.

1 is a diagram illustrating a procedure for transmitting an ACK packet according to data packet reception in a general communication system using TCP.

Referring to FIG. 1, the communication system includes a base station 100 and a mobile station 110. The base station 100 transmits a data packet to the mobile station 110 (step 101). The mobile station 110 receiving the data packet requests a bandwidth to the base station 100 (BW-REQ: BandWidth REQuest, hereinafter). The BW-REQ message transmits an ACK packet indicating that the mobile station 110 has received a data packet from the base station 100. A message requesting bandwidth allocation required for transmission to 100.

Upon receiving the BW-REQ message, the base station 100 transmits an uplink map (hereinafter referred to as 'UL-MAP') to the mobile station 110 to allocate the bandwidth required by the mobile station 110. In addition, the mobile station 110 transmits an ACK packet to the base station 100 using the bandwidth allocated through the UL-MAP. (Step 107) In this case, the base station 100 within a preset time in the system If the ACK packet is not received from the mobile station 110, the data packet transmitted in step 101 is retransmitted to the mobile station 110. Next, the BW-REQ message transmitted by the mobile station 110 to the base station 100 in step 103 will be described with reference to FIG. 2.

2 is a diagram schematically illustrating a general BW-REQ message format.

Referring to FIG. 2, the general BW-REQ message includes a header type (HT) field 201, an encoding (EC) field 203, a type field 205, and a bandwidth. It includes request (Bandwidth Request) fields 207 and 209, connection identifier (CID) fields 211 and 213, and a header check sequence (HCS) header check sequence (HCS) field. Here, the bandwidth request fields 207 and 209 include bandwidth amount information to be requested. Next, the ACK packet transmitted from the mobile station 110 to the base station 100 in step 107 will be described with reference to FIG. 3.

3 is a diagram schematically illustrating an ACK packet format in a general communication system.

Referring to FIG. 3, the ACK packet includes a 20-byte Internet Protocol (IP) header section 300 and a 20-byte TCP header section ( 320). The IP header unit 300 includes a version field 301, a header length field 303, a type of service field 305, and a total length field. 307, an identifier (ID: identification) field 309, a flag field 311, a fragment offset field 313, and a TTL ( Time To Live field 315, protocol field 317, header checksum field 319, source IP address field 321, destination IP It includes an address (destination IP address) field 323.

The TCP header unit 320 may include a source port number field 325, a destination port number field 327, a sequence number field 329, and a confirmation number. (ack_num: acknowledgment number, hereinafter referred to as 'ack_num') A field 331, a header length field 333, a reserved field 335, a URG field 337, and an ACK field 339 ), PSH field 341, RST field 343, SYN field 345, FIN field 347, window size field 349, TCP checksum field 351 and an urgent pointer field 353.

Here, the ID field 309 and the header check sum field 319 included in the IP header unit 300, the ack_num field 331 and the TCP check sum field 351 included in the TCP header unit 320 are included. The remaining fields have a fixed value while the TCP session is open. In addition, the header check sum field 319 and the TCP check sum field 351 do not have a fixed value, but may be directly calculated by the base station.

As described above, when the mobile station receives a data packet from the base station, the mobile station transmits an ACK packet according to the reception of the data packet to the base station. However, in order for the mobile station to transmit an ACK packet to the base station, resources required for transmitting the ACK packet must be allocated from the base station. Accordingly, there is a problem in that a delay occurs due to a procedure of transmitting a bandwidth request message to the base station and allocating a bandwidth according to the bandwidth request. In addition, since the ACK packet has a value that does not change while the TCP session is open and a value that can be directly calculated by the base station, there is no need to transmit the field corresponding to this value every time, but all fields of the ACK packet are transmitted every time without consideration. As a result, there is a problem in that overhead increases.

Accordingly, the present invention provides an apparatus and method for transmitting a mobile station including ACK packet information in a BW-REQ message in a communication system.

The present invention also provides an apparatus and method for a base station receiving a BW-REQ message including ACK packet information and restoring the ACK packet in a communication system.

The method of the present invention provides a method for transmitting and receiving data of a mobile station in a communication system, the method comprising: receiving a first data packet from a base station; and a first acknowledgment (ACK) packet confirming receipt of the first data packet. Detecting a difference between a first confirmation number to be included in a second confirmation number included in a second ACK packet confirming reception of a second data packet received before the first data packet, and the detection A method of transmitting and receiving data of a mobile station comprising transmitting a difference value to the base station. .

According to another aspect of the present invention, there is provided a data transmission / reception method of a base station in a communication system, comprising: a first acknowledgment number to be included in a first acknowledgment (ACK) packet confirming reception of a first data packet from a mobile station; Receiving a difference value from a second confirmation number included in a second ACK packet confirming reception of a second data packet received before the data packet, and increasing the second confirmation number by the received difference value Detecting the first confirmation number, increasing the second identifier included in the second ACK packet by 1, detecting the first identifier included in the first ACK packet, and detecting the detected first confirmation And restoring the first ACK packet using the number and the first identifier.

 The apparatus of the present invention is a mobile station for transmitting and receiving data in a communication system, comprising: a receiving unit for receiving a first data packet from a base station, and a first acknowledgment packet for confirming reception of the first data packet. A control unit for detecting a difference value between a first confirmation number to be performed and a second confirmation number included in a second ACK packet confirming reception of a second data packet received before the first data packet, and the detected difference A mobile station including a transmitter for transmitting a value to the base station.

Another device of the invention is. A base station transmitting and receiving data in a communication system, comprising: a first acknowledgment number to be included in a first acknowledgment (ACK) packet confirming receipt of a first data packet from a mobile station, and a first acknowledgment received before the first data packet. A receiving unit receiving a difference value from a second confirmation number included in a second ACK packet confirming receipt of a second data packet, and increasing the second confirmation number by the received difference value to detect the first confirmation number And increasing the second identifier included in the second ACK packet by 1 to detect the first identifier included in the first ACK packet, and using the detected first confirmation number and the first identifier. A base station including a control unit for restoring a 1 ACK packet.

As described above, according to the present invention, by transmitting ACK packet information in a BW-REQ message in a communication system, an ACK packet can be transmitted without a process of requesting a resource for transmitting an ACK packet and a process of allocating the request resource. There is an advantage that it can. In addition, the BW-REQ message includes only essential information of the ACK packet field, that is, a field value that cannot be calculated and is changed and is included in the BW-REQ message.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only parts necessary for understanding the operation according to the present invention will be described, and the description of other parts will be omitted so as not to obscure the gist of the present invention.

The present invention proposes an apparatus and method for transmitting a mobile station including ACK packet information in a BW-REQ message in a communication system. In addition, the present invention proposes an apparatus and a method for a base station to receive a BW-REQ message including the ACK packet information and restore the ACK packet in a communication system.

First, prior to entering the description of the present invention to briefly describe the ACK packet described in Figure 3 of the background art. The ACK packet includes a 20 byte IP header section 300 and a 20 byte TCP header section 320, and most of the fields included in each header section are fixed while the TCP session is open. Has a value. Accordingly, the base station stores the fixed values of the information and then changes the fields having a variable value among the ACK packets, that is, the ID field 309, the header check sum field 319, the ack_num field 331, and the TCP. The ACK packet can be easily recovered using only the checksum field 351, and the header checksum field 319 and the TCP checksum field 351 can be calculated by the base station.

Next, the BW-REQ-ACK message newly proposed by the present invention will be described with reference to FIG. 4. In the following embodiment of the present invention, in order to distinguish the BW-REQ message newly proposed by the present invention from the general BW-REQ message used in the prior art, the BW-REQ- message newly proposed by the present invention is BW-REQ-. This is called an ACK message.

4 is a diagram schematically illustrating a BW-REQ-ACK message format newly proposed by the present invention.

Referring to FIG. 4, the BW-REQ-ACK message is referred to as a header type field 401, an encoding field 403, a type field 405, and a message type (MT). Field 407, ack_num difference value fields 409 and 411, connection identifier fields 413 and 415, and header check sequence field 417.

Here, the MT 407 field is a field indicating whether the BW-REQ-ACK message is to be used as a bandwidth request message type used in the prior art or as a bandwidth request message type newly proposed by the present invention. Accordingly, when the MT 407 field is set to '1', it indicates that the bandwidth request message is newly used in the present invention, that is, the bandwidth request message is used to include ACK packet information according to the reception of the data packet. ) Field is set to '0', indicating that the field is used in a general form, that is, in a form including bandwidth information required by the bandwidth request message.

In the ack_num difference value fields 409 and 411 corresponding to the MT 407 field set to '1', it is assumed that a previous BW-REQ-ACK message, that is, a current time point is t- 1) ACK packet included in the ack_num field value of the ACK packet included in the BW-REQ-ACK message transmitted at the time and the current BW-REQ-ACK message, that is, the BW-REQ-ACK message transmitted at the current time t Contains information on the difference between the ack_num field values.

That is, when the mobile station receives the data packet from the base station, the mobile station generates and transmits a BW-REQ-ACK message including the ACK packet information to be transmitted according to the data packet reception. When the base station receives the BW-REQ-ACK message, the base station restores the ACK packet according to the information included in the BW-REQ-ACK message. Next, a process of generating a BW-REQ-ACK message newly proposed by the mobile station in the communication system according to an embodiment of the present invention will be described with reference to FIG. 5.

5 is a flowchart illustrating a process of generating a BW-REQ-ACK message by a mobile station in a communication system according to an embodiment of the present invention.

Referring to FIG. 5, in step 501, the mobile station receives a data packet from the base station and proceeds to step 503. In step 503, the remaining field values except for the ID field 309, the header check sum field 319, the ack_num field 331, and the TCP check sum field 351 in the ACK packet to be transmitted in response to the data packet reception In step 511, it is checked whether the field is changed or not.

In step 511, the mobile station indicates the amount of bandwidth to be requested to the base station in the bandwidth request fields 207 and 209, generates a BW-REQ message including the bandwidth request fields 207 and 209, and proceeds to step 513. In step 513, the mobile station transmits the generated BW-REQ message to the base station. In step 515, the mobile station allocates bandwidth required for ACK packet transmission from the base station through UL-MAP and proceeds to step 517. In step 517, the mobile station transmits an ACK packet to the base station using the allocated bandwidth. Here, steps 511 to 517 represent a BW-REQ message transmission process according to a general scheme.

On the other hand, in step 503, the mobile station proceeds to step 505 if the remaining field values except for the identifier field, header check total field, receipt number field, and TCP check total field are not changed in the ACK packet. In step 505, the mobile station detects a difference between the ack_num field value of the ACK packet previously transmitted, that is, at time (t-1), and the ack_num field value that is currently being transmitted, that is, at time t, and proceeds to step 507. In step 507, the mobile station displays the detected ack_num difference value in the ack_num difference value fields 409 and 411, and then generates a BW-REQ-ACK message including the ack_num difference value fields 409 and 411. Proceed to In step 509, the mobile station transmits the generated BW-REQ-ACK message to the base station. In this case, steps 505 to 509 indicate a BW-REQ-ACK message transmission process according to the method proposed by the present invention.

In FIG. 5, a process of generating a BW-REQ-ACK message including a difference between the ack_num field value of the previously transmitted ACK packet and the ack_num field value of the currently transmitted ACK packet has been described as an example, but the difference between the ack_num field value is described. The value may be a difference between two consecutive ACK packets as well as a plurality of ACK packets. That is, when generating a BW-REQ-ACK message, the mobile station detects an ACK packet having the largest ack_num among a plurality of ACK packets, and then ack_num field value of the previously transmitted ACK packet and ack_num of the detected ACK packet. The difference between the field values can be used. Next, the base station receives the BW-REQ-ACK message from the mobile station in the communication system according to the embodiment of the present invention with reference to FIG. 6 and FIG. 7 and considers the received BW-REQ-ACK message information. The restoration process will be described.

In particular, in FIG. 6, a base station receiving a BW-REQ-ACK message generated by a mobile station including a difference value of ack_num field values of two consecutive ACK packets is determined by considering a BW-REQ-ACK message information. The first embodiment of restoration will be described. In FIG. 7, a base station receiving a BW-REQ-ACK message generated by a mobile station including a difference value between ack_num having the largest value among a plurality of ACK packets and ack_num field value of a previous ACK packet is received by the BW-REQ-ACK. A second embodiment of recovering an ACK packet in consideration of message information will be described.

6 is a flowchart illustrating a process of restoring an ACK packet by a base station in a communication system according to a first embodiment of the present invention.

Referring to FIG. 6, in step 601, the base station determines whether a bandwidth request message is received from a mobile station, and when receiving the bandwidth request message, proceeds to step 603. In step 603, the base station determines whether the MT field exists in the bandwidth request message received from the mobile station. If the MT field does not exist, the base station determines that the bandwidth request message received from the mobile station is a BW-REQ message. Proceed to step. In step 613, the base station allocates bandwidth to the mobile station in consideration of the BW-REQ message information. In step 615, the base station receives an ACK packet from the mobile station.

On the other hand, in step 603, if the MT field is present in the bandwidth request message received from the mobile station, the base station determines that the bandwidth request message received from the mobile station is a BW-REQ-ACK message and proceeds to step 605. In step 605, the base station checks whether the MT field of the BW-REQ-ACK message is set to '1', proceeds to step 607 if the MT field is '1', and if the MT field is '0', step 613 Proceed to step.

In step 607, the base station detects the current ack_num value in consideration of the ack_num difference value field value of the BW-REQ-ACK message and proceeds to step 609. That is, the base station increases the ack_num value corresponding to the BW-REQ-ACK message received previously (t-1) by the value of the ack_num difference value field of the currently received (B) BW-REQ-ACK message. t) Ack_num value corresponding to the received BW-REQ-ACK message is determined. In step 609, the base station increases the ACK packet ID by 1 each time the BW-REQ-ACK message is received, and proceeds to step 611. In step 611, the base station restores the ACK packet using the detected ack_num, the ACK packet ID, and other information previously stored in the system.

7 is a flowchart illustrating a process of restoring an ACK packet by a base station in a communication system according to a second embodiment of the present invention.

Referring to FIG. 7, in step 701, the base station determines whether a bandwidth request message is received from a mobile station. If the base station receives the bandwidth request message, the base station proceeds to step 703. In step 703, the base station determines whether the MT field exists in the bandwidth request message received from the mobile station. If the MT field does not exist, the base station determines that the bandwidth request message received from the mobile station is a BW-REQ message. Proceed to step. In step 715, the base station allocates bandwidth to the mobile station in consideration of the BW-REQ message information. In step 717, the base station receives an ACK packet from the mobile station.

In step 703, if the MT field is present in the bandwidth request message received from the mobile station, the base station determines that the bandwidth request message received from the mobile station is a BW-REQ-ACK message and proceeds to step 705. In step 705, the base station determines whether the MT field of the BW-REQ-ACK message is set to '1'. If the MT field is '1', the base station proceeds to step 707. If the MT field is '0', the base station determines 715. Proceed to step.

In step 707, the base station detects a current ack_num value in consideration of the ack_num difference value field value of the BW-REQ-ACK message and proceeds to step 709. In step 709, the base station detects the same value as the detected current ack_num value in the expected_ack_num array, detects the index of the corresponding value, and proceeds to step 711. Here, the expected_ack_num array means that the ack_num is calculated in advance when the base station transmits a data packet to the mobile station, and the calculated ack_num value is generated to be an element of the array. The base station defines an index of ack_num for a data packet initially transmitted to the mobile station as 1, and increases the index by 1 for subsequent transmission data packets. In step 711, the base station detects the current ACK packet ID by increasing the previous ACK packet ID value by the detected index value and proceeds to step 713. In step 713, the base station restores the ACK packet using the detected ack_num, the ACK packet, and other information previously stored in the system.

1 is a diagram illustrating a procedure for transmitting an ACK packet according to data packet reception in a general communication system using TCP.

2 schematically illustrates a general BW-REQ message format.

3 schematically illustrates an ACK packet format in a general communication system.

4 is a diagram schematically illustrating a BW-REQ-ACK message format newly proposed in the present invention.

5 is a flowchart illustrating a process of generating a BW-REQ-ACK message by a mobile station in a communication system according to an embodiment of the present invention.

6 is a flowchart illustrating a process of restoring an ACK packet by a base station in a communication system according to a first embodiment of the present invention.

7 is a flowchart illustrating a process of restoring an ACK packet by a base station in a communication system according to a second embodiment of the present invention.

Claims (12)

In a communication system for transmitting and receiving data in a mobile station, Receiving a first data packet from a base station; A first acknowledgment number to be included in a first acknowledgment (ACK) packet acknowledging receipt of the first data packet, and a second acknowledgment packet acknowledging receipt of a second data packet received before the first data packet. Detecting a difference from the included second identification number; And transmitting the detected difference value to the base station. The method of claim 1, The field corresponding to the first and second confirmation numbers is a field having a variable value among the fields included in the first and second ACK packets, and is transmitted every time the first and second ACK packets are transmitted. Mobile station data transmission and reception method. The method of claim 1, And transmitting the difference value between the first confirmation number and the second confirmation number to the base station by including the difference value in the bandwidth request message requesting bandwidth allocation. In the communication system for transmitting and receiving data in the base station, A first acknowledgment number to be included in a first acknowledgment (ACK) packet confirming reception of the first data packet from the mobile station, and a second ACK acknowledging reception of the second data packet received before the first data packet. Receiving a difference value from the second confirmation number included in the packet, Increasing the second confirmation number by the received difference value to detect the first confirmation number; Increasing the second identifier included in the second ACK packet by 1 to detect the first identifier included in the first ACK packet; And restoring the first ACK packet using the detected first confirmation number and the first identifier. 5. The method of claim 4, The field corresponding to the first and second confirmation numbers is a field having a variable value among the fields included in the first and second ACK packets, and is received every time when the first and second ACK packets are received. Data transmission and reception method of the base station. 5. The method of claim 4, And receiving a difference value between the first confirmation number and the second confirmation number from the mobile station through a bandwidth request message requesting bandwidth allocation. A mobile station for transmitting and receiving data in a communication system, A receiving unit which receives the first data packet from the base station, A first acknowledgment number to be included in a first acknowledgment (ACK) packet confirming receipt of the first data packet, and a second ACK packet acknowledging reception of the second data packet received before the first data packet. A control unit for detecting a difference value from the second confirmation number included in the control unit; And a transmitter for transmitting the detected difference value to the base station. 8. The method of claim 7, The field corresponding to the first and second confirmation numbers is a field having a variable value among the fields included in the first and second ACK packets, and is transmitted every time the first and second ACK packets are transmitted. Lee Dong-guk. 8. The method of claim 7, And the transmitting unit transmits the difference value between the first confirmation number and the second confirmation number to the base station by including it in a bandwidth request message for requesting bandwidth allocation. In the base station for transmitting and receiving data in a communication system, A first acknowledgment number to be included in a first acknowledgment (ACK) packet confirming reception of the first data packet from the mobile station, and a second ACK acknowledging reception of the second data packet received before the first data packet. A receiving unit which receives a difference value from the second confirmation number included in the packet, The first confirmation number is detected by increasing the second confirmation number by the received difference value, and the first identifier included in the first ACK packet is increased by increasing the second identifier included in the second ACK packet by one. And a control unit for restoring the first ACK packet using the detected first confirmation number and the first identifier. The method of claim 10, The field corresponding to the first and second confirmation numbers is a field having a variable value among the fields included in the first and second ACK packets, and is received every time when the first and second ACK packets are received. Base station. The method of claim 10, And the receiving unit receives a difference value between the first confirmation number and the second confirmation number from the mobile station through a bandwidth request message requesting bandwidth allocation.

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