KR20120010022A - Method and apparatus for transmitting and receiving uplink resource allocation information in wireless communication system - Google Patents

Abstract

PURPOSE: A trnasceiving method of uplink resource allocation information and apparatus thereof in a wireless communication system are provided to rapidly interrupt uplink transmission in case a terminal does not receive uplink resource allocation information. CONSTITUTION: If there is error in the reception of uplink data burst, a base station transmits resource allocation information for retransmission of data before next PA(Persistent Allocation)(602). In case UL data burst is unable to receive until next PA allocation point of time, the base station releases the periodic PA(606, 608).

Description

Method and apparatus for transmitting and receiving uplink resource allocation information in a wireless communication system {METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING UPLINK RESOURCE ALLOCATION INFORMATION IN WIRELESS COMMUNICATION SYSTEM}

The present invention relates to a wireless communication system, and more particularly, to a method and apparatus for transmitting and receiving resource allocation information for allocating uplink (UL) resources.

The 4th Generation (hereinafter referred to as '4G') communication system provides users with services of various quality of service (QoS) using a transmission rate of about 100 Mbps. There is active research going on. The representative communication system is a system of the IEEE (Institute of Electrical and Electronics Engineers) 802.16 series. IEEE 802.16 system orthogonal frequency division multiplexing (hereinafter referred to as 'OFDM') / Orthogonal Frequency Division Multiple Access to support a broadband transmission network in the physical channel (Physical Channel) Access, hereinafter referred to as 'OFDMA'.

In a broadband wireless communication system such as an IEEE 802.16 system, a base station (BS) allocates resources to each mobile station (MS) for transmitting and receiving data. The base station transmits a downlink (DL) channel to a message (eg, a map (MAP) message) including a resource allocation IE indicating a resource allocation result such as a location and size of an allocated resource, a modulation scheme, a coding rate, and the like. Send to each terminal through. In general, a message indicating a resource allocation result for uplink communication and a message indicating a resource allocation result for downlink communication are separately configured, and a unit of control information required for one resource allocation is a resource allocation IE (Information Element). It is called.

Resource allocation is performed on resources within a certain period. In this case, since resources for general data packets are allocated every predetermined interval, a resource allocation IE for this is transmitted every predetermined interval. However, in the case of a service in which packets are periodically generated, for example, a Voice over Internet Protocol (VoIP) service, transmitting a resource allocation IE every time a packet is transmitted generates waste of unnecessary resources. Therefore, for a connection with a periodic traffic pattern and a fixed payload size, such as VoIP service, a Persistent Allocation (PA) scheme is applied, which reduces the overhead caused by transmission of resource allocation IE by fixedly allocating resources. do.

According to the fixed allocation scheme, the base station transmits a resource allocation IE indicating a resource allocation (or deallocation) for the initial transmission and only a permanent allocated resource at the time of reallocation, and thereafter without the resource allocation IE. Only data is sent. Even if the resource allocation IE is not received, the terminal continues to use the fixed allocated resource until the allocation cancellation information or the allocation change information is received. According to this fixed allocation scheme, when there is a change in an existing allocated resource, a resource allocation IE should be transmitted to reallocate a new fixed resource. When the allocation cancellation information of the VoIP service is received, de-allocation of the fixed allocated resource occurs.

As such, the fixed allocation scheme transmits information for resource allocation only at the base station side during allocation (or release) and reassignment. Until then, packet loss due to failure to satisfy a delay bound for a hybrid automatic retransmission request (HARQ) operation may occur, thereby degrading the quality of service.

In addition, if the terminal does not receive the information indicating the reassignment of resources without error, the position of the HARQ data burst transmitted in the uplink (UL) may be wrong, and eventually cause serious interference to other users' HARQ data burst There has been a problem that can be.

The present invention provides a method and apparatus for solving a problem caused by a reception error of information for allocating and / or reallocating radio resources.

The present invention provides a method and apparatus by which a base station can determine whether a terminal has correctly received information on allocation and / or reallocation of radio resources.

The present invention provides a method and apparatus for feeding back whether a terminal correctly receives information for reallocation of a fixed resource.

According to a preferred embodiment of the present invention, a method for transmitting uplink (UL) resource allocation information in a wireless communication system,

Transmitting resource allocation information for reassignment of fixed allocation (PA) transmission to the terminal, receiving a UL data burst from the terminal according to the resource allocation information, and failing to successfully decode the UL data burst In this case, the method includes transmitting a negative acknowledgment (NACK) corresponding to the UL data burst and resource allocation information for retransmission. The resource allocation information for retransmission includes an indication field set to a value indicating that decoding of the UL data burst has failed after transmitting the resource allocation information for reassignment.

According to another embodiment of the present invention, a method for receiving uplink (UL) resource allocation information in a wireless communication system,

Transmitting an uplink (UL) data burst to a base station, receiving a negative acknowledgment (NACK) corresponding to the UL data burst and resource allocation information for retransmission, and before transmitting the UL data burst Checking whether resource allocation information for reassignment corresponding to a UL data burst has been received; and the indication field included in the resource allocation information for retransmission transmits the resource allocation information for the reassignment; Checking whether the data burst is set to a predetermined value indicating that the decoding of the data burst has failed; and if the resource allocation information for reallocation is not received and the indication field is set to the predetermined value, the UL Stopping the retransmission of the data burst.

An apparatus according to a preferred embodiment of the present invention, in the base station for transmitting uplink (UL) resource allocation information in a wireless communication system,

A transceiver for transmitting resource allocation information for reassignment of fixed allocation (PA) transmission to a terminal and receiving a UL data burst from the terminal according to the resource allocation information, and if the UL data burst is not successfully decoded, And a controller for controlling the transceiver to transmit a negative acknowledgment (NACK) corresponding to the UL data burst and resource allocation information for retransmission together. The resource allocation information for retransmission includes an indication field set to a value indicating that decoding of the UL data burst has failed after transmitting the resource allocation information for reassignment.

According to another embodiment of the present invention, an apparatus in a terminal for receiving uplink (UL) resource allocation information in a wireless communication system,

A transceiver for transmitting an uplink (UL) data burst to a base station, and receiving a negative acknowledgment (NACK) corresponding to the UL data burst and resource allocation information for retransmission, and the UL data before transmitting the UL data burst Determining whether the resource allocation information for reassignment corresponding to the burst has been received, and the indication field included in the resource allocation information for the retransmission decodes the UL data burst after transmitting the resource allocation information for the reassignment. If the resource allocation information for reallocation is not received and the indication field is set to the predetermined value, retransmission of the UL data burst is stopped. A controller for controlling the transceiver to control the transceiver.

According to another embodiment of the present invention, a method for transmitting uplink (UL) resource allocation information in a wireless communication system,

Receiving a UL data burst from a terminal according to resource allocation information for reassignment of fixed allocation (PA) transmission, determining whether a reception error occurs in the UL data burst, and receiving error in the UL data burst If it occurs, transmitting resource allocation information for retransmission before a next allocation period, and if the UL data burst is not successfully received until the next allocation period, releasing the periodic allocation of the PA transmission. .

An apparatus according to another embodiment of the present invention is a device in a base station for transmitting uplink (UL) resource allocation information in a wireless communication system,

A transceiver for receiving a UL data burst from a terminal according to resource allocation information for reassignment of fixed allocation (PA) transmission, and determining whether a reception error has occurred in the UL data burst, and if a reception error has occurred in the UL data burst And controlling the transceiver to transmit resource allocation information for retransmission before a next allocation period, and if the reception of the UL data burst is not successful until the next allocation period, the controller releasing the periodic allocation of the PA transmission. do.

The present invention minimizes uplink interference by stopping the uplink transmission that affects other terminals more quickly when the terminal does not normally receive the uplink resource allocation information without significantly increasing the amount of information of the resource allocation information. .

1 is a flowchart illustrating transmission of resource allocation information and data bursts according to fixed allocation in a wireless communication system.
2 is a diagram illustrating a message flow for resource reallocation according to an embodiment of the present invention.
3 is a flowchart illustrating the operation of a base station according to an embodiment of the present invention;
4 is a flowchart illustrating the operation of a terminal according to an embodiment of the present invention.
5 is a diagram illustrating a message flow for resource reallocation according to another embodiment of the present invention.
6 is a flowchart illustrating an operation of a base station for performing scheduling to minimize interference due to an error in reallocation resource allocation information according to another embodiment of the present invention.
7 is a block diagram showing the structure of a base station according to a preferred embodiment of the present invention.
8 is a block diagram showing the structure of a terminal according to a preferred embodiment of the present invention.

Hereinafter, exemplary 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 of the present invention will be described, and other background art will be omitted so as not to distract from the gist of the present invention.

In this specification, reference will be made to a communication standard based on IEEE 802.16e and 16m in describing resource allocation in a wireless communication system and corresponding error control operation. However, the resource allocation and the error control operation according to the present invention are not limited to a specific communication protocol or system configuration, and various modifications can be made without departing from the gist of the present invention. Obviously, it is obvious to those skilled in the art.

1 is a flowchart illustrating transmission of resource allocation information and data bursts according to fixed allocation in a wireless communication system. Here, as an example, the flow of reallocation of fixed resources will be illustrated. However, it should be noted that the present invention is not limited by these examples.

Referring to FIG. 1, in step 102, a base station performs UL UL Advanced MAP IE (UL PA A-MAP IE), which includes resource allocation information for reallocation of fixed allocation (PA) transmission. send. In step 104, the UE determines that a decoding error occurs as a result of receiving and decoding the UL PA A-MAP IE. Because of the decoding error, the UE does not recognize that the information for reassignment of the PA transmission has been transmitted. In step 106, the UE transmits a UL data burst using previous resource allocation information.

The base station attempts to decode the UL data burst through the reallocated resource by the UL PA A-MAP IE in step 102, and the base station fails to decode because there is no data transmitted from the reallocated resource. . Accordingly, in step 108, the base station transmits a negative acknowledgment (NACK) on the UL data burst to the terminal through a HARQ feedback channel (FBCH).

If the index of the HARQ feedback channel has not been changed during the reassignment of the PA transmission, the terminal receives the HARQ feedback channel to recognize the NACK. When the HARQ feedback channel index is changed during the reallocation of the PA transmission, the UE may recognize the NACK because the HARQ feedback channel is scrambled with a user-specific code according to the implementation of the UE. In response to the NACK, the UE still retransmits the UL data burst according to previous resource allocation information in step 110. In step 112, the base station fails to decode data again and transmits an HARQ NACK. As such, the base station repeats the reception of the UL data burst and the transmission of the NACK up to the maximum number of retransmissions without being aware of an error in the reception of the resource allocation information.

When resources are reallocated to the terminal as described above, previous resources of the terminal may be reallocated to other terminals. If the terminal repeatedly transmits the data burst through the wrong resource without receiving the resource allocation information normally, serious interference is caused to the other terminal. This interference situation may occur continuously until the maximum number of retransmissions.

One of the solutions for solving the interference situation is that the UE feeds back whether the resource allocation information is received. That is, when receiving the resource allocation information, the terminal feeds back to the base station whether the resource allocation information is received (ACK or NACK) by using an uplink HARQ feedback channel.

The base station receiving the NACK may instruct the terminal to skip the retransmission of the data burst or may simply retransmit the resource allocation information at the time of retransmission. Since the base station knows that the terminal did not correctly receive the information on the reassignment, the base station may transmit information about the reassignment after a certain period.

Although this method can minimize interference to other terminals, there is a burden of indicating an index of HARQ feedback channel in resource allocation information (UL PA A-MAP IE). If the number of HARQ feedback channels in the cell is large, the size of the field for indicating should be increased. Furthermore, such an indication may not be possible when the size of resource allocation information, such as IEEE 802.16m, is fixed.

An embodiment of the present invention to be described later provides a method for minimizing the size of the indication field added in the resource allocation information. As another embodiment, a method for minimizing the above-mentioned interference problem through a scheduling scheme is proposed.

As a first embodiment, when requesting retransmission of a UL data burst, the base station always transmits resource allocation information, and sets a specific field (hereinafter referred to as 'A field') in the resource allocation information. This is a method for minimizing the size of bits added to the resource allocation information.

2 illustrates a message flow for resource reallocation according to an embodiment of the present invention. Here, as an example, the flow of reallocation of fixed resources will be illustrated. However, it should be noted that the present invention is not limited by this example and may be applied to the case of initial allocation other than fixed allocation transmission and other types of transmission and resource allocation.

Referring to FIG. 2, in step 202, the base station transmits a UL PA A-MAP IE including resource allocation information for reassignment of fixed allocation (PA) transmission to the terminal. In step 204, the UE determines that a decoding error has occurred as a result of receiving and decoding the UL PA A-MAP IE. Because of the decoding error, the UE does not recognize that the information for reassignment of the PA transmission has been transmitted. In step 206, the UE transmits the UL data burst using the previous resource allocation information.

In step 208, the base station attempts to decode the UL data burst through the reassigned resources by the UL PA A-MAP IE in step 202, and since there is no data transmitted from the reassigned resources, the base station is decoded. Will fail. Accordingly, in step 210, the base station transmits a negative acknowledgment (NACK) for the UL data burst to the terminal through the HARQ feedback channel (FBCH). At this time, the base station transmits the UL basic allocation A-MAP IE (UL-AQ IE) including the resource allocation information for retransmission while transmitting the NACK as HARQ feedback. The UL basic allocation A-MAP IE is a pre-specified specification for indicating that a reception error of a UL data burst has occurred after transmission of resource allocation information for reallocation (e.g., PA A-MAP IE for reallocation). Field, that is, A field. As an example, the A field is configured with 1 bit and is always set to '1' or a specific value when an error occurs when the corresponding UL data burst is received after reallocation resource allocation information is transmitted. In all other cases the A field is set to '0'.

In step 212, the UE receives the UL basic allocation A-MAP IE together with the NACK, and checks the value of the A field included in the UL basic allocation A-MAP IE. If the A field is set to '1' or a predetermined value when the UE does not receive resource allocation information for reallocation, the UE stops performing retransmission for the UL data burst any more. Stop. This is because it is determined that the resource allocation known to the terminal may cause interference to other terminals. This may solve a serious problem that may cause interference to other terminals as soon as possible.

3 is a flowchart illustrating the operation of a base station according to an embodiment of the present invention.

Referring to FIG. 3, in step 302, the base station transmits resource allocation information for reallocation of resources, and attempts to receive a UL data burst at a data transmission timing corresponding to transmission of the resource allocation information in step 304. If the reception of the UL data burst fails, in step 306, the base station sets the A field to a predetermined value, for example '1', to indicate that the resource allocation information has been transmitted, and in step 308, the UL data. Retransmission resource allocation information including the A field is transmitted together with the NACK at the feedback timing corresponding to the transmission of the burst. The retransmission resource allocation information may indicate the same resource allocation as the resource allocation information in step 302 or may indicate a new resource allocation.

Meanwhile, if the UL data burst is normally received, the base station transmits an ACK at a corresponding feedback timing in step 310. In this case, when the base station wants to reassign resources or retransmit resource allocation information, corresponding resource allocation information may be transmitted together with the ACK. At this time, the resource allocation information includes an A field set to '0'.

4 is a flowchart illustrating an operation of a terminal according to an embodiment of the present invention.

Referring to FIG. 4, in step 402, the UE transmits a UL data burst through a known resource, and in step 404, resource allocation information for NACK and HARQ retransmission at a feedback timing corresponding to the transmission of the UL data burst. UL basic assignment A-MAP IE) is received together. If the resource allocation information for retransmission is not received together with the NACK, the corresponding operation is performed in step 406. For example, if only NACK is received, the UE retransmits the UL data burst through the already known resource. On the other hand, if ACK is received, the UE starts to transmit a new UL data burst.

On the other hand, if the resource allocation information for retransmission is received together with the NACK, in step 408, the UE checks whether the resource allocation information is received at a corresponding timing before transmitting the UL data burst. Since the transmission timing of the UL data burst corresponding to the reception of the resource allocation information is determined according to a predetermined timing rule, the terminal may check the corresponding timing immediately before transmitting the UL data burst according to the timing rule. If the corresponding resource allocation information was previously received, the UE ignores the A field included in the HARQ retransmission resource allocation information in step 410 and retransmits the UL data burst in step 412 according to the resource allocation of step 402. do. This is because the terminal determines that the resource used for the transmission of the UL data burst in step 402 is the correct resource allocated by the base station.

If the resource allocation information is not received at the previous corresponding timing in step 408, the terminal determines whether the A field included in the retransmission resource allocation information is '1' in step 414. If it is not '1', it means that the base station has never transmitted resource allocation information before. In step 416, the UE retransmits the UL data burst according to the retransmission resource allocation information. On the other hand, if the A field is '1', it means that the base station has previously transmitted resource allocation information but the terminal has not normally received. In step 418, the terminal retransmits the UL data burst through the known resource. Stop. After the retransmission is stopped, a predetermined operation may be performed. As an example, in step 418, the UE may start a new transmission according to the resource indicated by the resource allocation information for retransmission.

As a second embodiment, if a reception error does not occur in the reassignment resource allocation information, but an error occurs when the base station receives the UL data burst, the base station may perform the HARQ retransmission process of the UL data burst without problems.

5 illustrates a message flow for resource reallocation according to another embodiment of the present invention. Here, as an example, the flow of reallocation of fixed resources will be illustrated. However, it should be noted that the present invention is not limited by this example and may be applied to the case of initial allocation other than fixed allocation transmission and other types of transmission and resource allocation.

Referring to FIG. 5, in step 502, the base station transmits a UL PA A-MAP IE including resource allocation information for reassignment of fixed allocation (PA) transmission to the terminal. In step 504, the UE successfully decodes the UL PA A-MAP IE without error and transmits a UL data burst according to the resource allocation indicated by the UL PA A-MAP IE in step 506.

In step 508, the base station receives and decodes the UL data burst at the data transmission timing corresponding to the transmission of the UL PA A-MAP IE. If decoding of the UL data burst fails, in step 510, the base station transmits a NACK for the UL data burst to the terminal through a HARQ feedback channel. At this time, the base station transmits a UL basic allocation A-MAP IE including resource allocation information for retransmission together with the NACK. The UL basic allocation A-MAP IE includes an A field set to '1' to indicate that a reception error of the UL data burst has occurred after the reassignment of resource allocation information.

In step 512, the UE receives the UL basic allocation A-MAP IE with a NACK. Since the terminal has received the UL PA A-MAP IE without error in step 502, the UL basic allocation A for the UL basic allocation A-MAP IE for retransmission of the UL data burst corresponding to the UL PA A-MAP IE. Ignore the A field in the MAP IE. Therefore, the terminal can terminate and perform the retransmission process without any problem.

In IEEE 802.16m, UL basic allocation A-MAP IE is defined as resource allocation information for retransmission. When considering the UL basic allocation A-MAP IE, one of reserved bits may be used as the A field by defining one of the reserved bits as the A field or adding a new function for a specific case to another field already specified. For example, the Preferred Matrix Index (PMI) indicator included in the UL default allocation A-MAP IE to support Multiple Input Multiple Output (MIMO) is a field that is meaningless (not functional) for PA transmission. When using the UL basic assignment A-MAP IE for retransmission, the PMI indicator may be used as the A field.

6 is a flowchart illustrating an operation of a base station for performing scheduling to minimize interference due to an error in reallocation resource allocation information according to another embodiment of the present invention. In this case, it is assumed that the PA transmission periodically allocates resources for every initial transmission, and data transmission in UL is assumed to use a synchronous HARQ scheme.

Referring to FIG. 6, in step 602, the base station determines whether an error occurs when receiving an UL data burst. If an error occurs, the base station determines in step 604 the next PA allocation (periodic allocation for initial transmission, that is, according to the allocation period). Previously, resource allocation information for retransmission is transmitted. The content of the retransmission resource allocation information may be the same as or different from the initial resource allocation. As such, the base station terminates the situation as soon as possible when the terminal is transmitting data in the wrong position by transmitting the resource allocation information again when an error of the UL data burst occurs.

In step 606, the base station determines whether the reception of the UL data burst has not succeeded until the next PA allocation time point, and if it does not succeed, in step 608 deallocate the periodic allocation of the PA. This prevents the problem of the same error occurrence from occurring in subsequent bursts of data.

The base station cannot know whether the terminal has received the reallocation resource allocation information without error. Therefore, in the above-described embodiment, when an error occurs in the UL data burst, regardless of whether the terminal receives the reassignment resource allocation information or not, the terminal transmits the resource allocation information for retransmission so that the terminal can accurately recognize the resource allocation.

7 is a block diagram showing the structure of a base station according to a preferred embodiment of the present invention, the base station includes a controller 702, a memory 706 and a transceiver 704.

Referring to FIG. 7, the controller 702 performs resource allocation in consideration of state information collected from terminals in a cell, and performs resource allocation information and HARQ feedback to be transmitted to each terminal according to at least one of the above-described embodiments. Etc. are generated and transmitted to each terminal through the transceiver 704, and the UL data burst received through the transceiver 704 is decoded to perform an associated operation. The memory 706 stores and manages program code and parameters needed for operation in the controller 702. The transceiver 704 exchanges messages between each terminal using a transmission scheme and channel promised between each terminal under the control of the controller 706.

8 is a block diagram showing the structure of a terminal according to a preferred embodiment of the present invention, the terminal includes a controller 802, a memory 806 and a transceiver 804.

Referring to FIG. 8, the transceiver 804 receives resource allocation information and HARQ feedback from a base station, provides the controller 802, and transmits a UL data burst generated by the controller 802 to the base station. The controller 802 receives and interprets the resource allocation information and the HARQ feedback, and controls the transceiver 804 by determining whether to continue or stop retransmission of the UL data burst with reference to the resource allocation information and the HARQ feedback. . The memory 806 stores and manages program code and parameters needed for operation in the controller 802.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the scope of the following claims, but also by the equivalents of the claims.

Claims (14)

In the method for transmitting uplink (UL) resource allocation information in a wireless communication system,
Transmitting resource allocation information for reassignment of fixed allocation (PA) transmission to the terminal;
Receiving a UL data burst from the terminal according to the resource allocation information;
If the UL data burst is not successfully decoded, transmitting a negative acknowledgment (NACK) corresponding to the UL data burst and resource allocation information for retransmission;
Here, the resource allocation information for retransmission includes an indication field set to a value indicating that decoding of the UL data burst has failed after transmitting the resource allocation information for reassignment. Way.
The resource allocation as claimed in claim 1, wherein the indication field indicates that the terminal stops retransmission of the UL data burst when the terminal does not normally receive the resource allocation information for reallocation. How to send information.
The method of claim 1, further comprising: releasing the periodic allocation of the PA transmission if the UL data burst is not successfully received until a next allocation period after transmitting the resource allocation information for retransmission. A method of transmitting resource allocation information characterized by the above-mentioned.
In the method for receiving uplink (UL) resource allocation information in a wireless communication system,
Transmitting an uplink (UL) data burst to a base station,
Receiving both a negative acknowledgment (NACK) corresponding to the UL data burst and resource allocation information for retransmission;
Confirming whether resource allocation information for reallocation corresponding to the UL data burst has been received before the transmission of the UL data burst;
Checking whether an indication field included in the resource allocation information for retransmission is set to a predetermined value indicating that decoding of the UL data burst has failed after transmitting the resource allocation information for reassignment;
Stopping retransmission of the UL data burst when the resource allocation information for reallocation is not received and the indication field is set to the predetermined value.
5. The method of claim 4, further comprising: retransmitting the UL data burst, ignoring the indication field, if the resource allocation information for reallocation is normally received.
5. The method of claim 4, wherein if the resource allocation information for reassignment is not received and the indication field is not set to the predetermined value, retransmitting the UL data burst according to the resource allocation information for the retransmission. The method of claim 1, further comprising resource allocation.
An apparatus in a base station for transmitting uplink (UL) resource allocation information in a wireless communication system,
A transceiver for transmitting resource allocation information for reassignment of fixed allocation (PA) transmission to a terminal and receiving a UL data burst from the terminal according to the resource allocation information;
A controller for controlling the transceiver to transmit a negative acknowledgment (NACK) corresponding to the UL data burst and resource allocation information for retransmission together when the UL data burst has not been successfully decoded,
Here, the resource allocation information for retransmission includes an indication field set to a value indicating that decoding of the UL data burst has failed after transmitting the resource allocation information for reassignment. Device.
8. The resource allocation method of claim 7, wherein the indication field indicates that the terminal stops retransmission of the UL data burst when the terminal does not normally receive resource allocation information for reallocation. Device for transmitting information.
The method of claim 7, wherein the controller,
And after the resource allocation information for retransmission is transmitted, if the UL data burst is not successfully received until a next allocation period, the allocation of the resource allocation information is released.
An apparatus in a terminal for receiving uplink (UL) resource allocation information in a wireless communication system,
A transceiver for transmitting an uplink (UL) data burst to a base station and receiving both a negative acknowledgment (NACK) corresponding to the UL data burst and resource allocation information for retransmission;
It is determined whether resource allocation information for reassignment corresponding to the UL data burst has been received before the transmission of the UL data burst, and an indication field included in the resource allocation information for retransmission includes resource allocation for the reassignment. After transmitting the information, check whether the UL data burst is set to a predetermined value indicating that the decoding has failed, and resource allocation information for reallocation is not received, and the indication field is set to the predetermined value. And a controller for controlling the transceiver to stop retransmission of the UL data burst, if any.
The method of claim 10, wherein the controller,
And when the resource allocation information for reallocation is normally received, controlling the transceiver to ignore the indication field and retransmit the UL data burst.
The method of claim 10, wherein the controller,
If the resource allocation information for the reassignment is not received and the indication field is not set to the predetermined value, the transceiver is controlled to retransmit the UL data burst according to the resource allocation information for the retransmission. A device for receiving resource allocation information.
In the method for transmitting uplink (UL) resource allocation information in a wireless communication system,
Receiving a UL data burst from a terminal according to resource allocation information for reallocating fixed allocation (PA) transmission;
Determining whether a reception error occurs in the UL data burst;
When a reception error occurs in the UL data burst, transmitting resource allocation information for retransmission before a next allocation period;
And if the reception of the UL data burst is unsuccessful by the next allocation period, releasing the periodic allocation of the PA transmission.
An apparatus in a base station for transmitting uplink (UL) resource allocation information in a wireless communication system,
A transceiver for receiving a UL data burst from a terminal according to resource allocation information for reallocating fixed allocation (PA) transmission;
It is determined whether a reception error occurs in the UL data burst, and when a reception error occurs in the UL data burst, the transceiver is controlled to transmit resource allocation information for retransmission before a next allocation period, and until the next allocation period. And a controller for releasing the periodic allocation of the PA transmission if the reception of the UL data burst is unsuccessful.

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