JP2009522873A - Method and system for H-ARQ assisted ARQ operation - Google Patents

Abstract

  A method and system for implementing hybrid automatic repeat request (H-ARQ) assisted automatic repeat request (ARQ) in a wireless communication system is disclosed. The H-ARQ receiver has not reached the maximum retransmission limit and the maximum delivery time has not expired if an H-ARQ negative acknowledgment (NACK) / acknowledgment (ACK) error occurs, or If the lifetime of the failed packet has not expired, an H-ARQ NACK / ACK error indicator is transmitted to the H-ARQ transmitter. The H-ARQ transmitter sends a local NACK to the ARQ transmitter so that the failed packet is recovered at the ARQ level. The H-ARQ receiver sends a local NACK to the ARQ receiver if the H-ARQ receiver does not receive a failed packet before certain conditions occur. The ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.

Description

  The present invention relates to a wireless communication system. More particularly, the present invention relates to a method and system for implementing a hybrid automatic repeat request (H-ARQ) assisted automatic repeat request (ARQ) in a wireless communication system.

  In conventional wireless communication systems, such as Wideband Code Division Multiple Access (WCDMA) Release 5/6, high speed data transmission is achieved by high speed downlink packet access (HSDPA) and high speed uplink packet access (HSUPA) technologies. In order to improve the reliability of data transmission, H-ARQ and ARQ are implemented.

  FIG. 1 shows a conventional wireless communication system 100. System 100 includes a user equipment (UE) 110, a Node B 120, and a radio network controller (RNC) 130. The H-ARQ entity is located in the medium access control (MAC) layer 112 of the UE 110 and the MAC layer 122 of the Node B 120. A packet is assigned a transmission sequence number (TSN) in the H-ARQ transmitter. The H-ARQ receiver receives the packet and attempts to decode the transmitted packet. If the packet is not decodable, the H-ARQ receiver returns a negative acknowledgment (NACK) to the H-ARQ transmitter for retransmission of the failed packet. If the packet is decoded correctly, the H-ARQ receiver sends an acknowledgment (ACK) for the packet to the H-ARQ transmitter. When receiving the NACK, the H-ARQ transmitter retransmits the packet if the number of times the failed packet is retransmitted is less than a predetermined maximum upper limit and the allowable transmission time for the failed packet has not expired. Otherwise, the failed packet is discarded and recovered at the ARQ level.

  The ARQ entity is located in the radio link control (RLC) layer 114 of the UE 110 and the RLC layer 132 of the RNC 130. The ARQ entity handles retransmission of failed packets. The ARQ entity recovers packets lost due to NACK-to-ACK misinterpretation error at the H-ARQ level. The ARQ process in the RLC layer is very complex with many options for performing status reporting.

  H-ARQ assisted ARQ operation may be performed in H-ARQ and ARQ, such as in Node B of Universal Mobile Telecommunication System (UMTS) or Evolution Node B (eNode-B) in Long Term Evolution (LTE). It can be considered when both functions coexist.

  FIG. 2 shows an example of H-ARQ assisted ARQ operation proposed for the 3rd Generation Partnership Project (3GPP) standard. The transmitter 250 includes an ARQ transmitter 252 and an H-ARQ transmitter 254. Receiver 260 includes ARQ receiver 262 and H-ARQ receiver 264. The H-ARQ transmitter 254 provides a local ACK or a local NACK to the ARQ transmitter 252.

  As shown in FIG. 2, a local NACK is generated when the H-ARQ transmitter 254 fails in H-ARQ transmission (eg, due to a maximum retransmission limit). The ARQ transmitter 252 sends an ARQ protocol data unit (PDU) x to the H-ARQ transmitter 254 (step 202). The H-ARQ transmitter 254 transmits the ARQ PDU x to the H-ARQ receiver 264 (step 204). The ARQ PDU x is not decodable and the H-ARQ receiver 264 then sends a NACK to the H-ARQ transmitter 254 (step 206). The H-ARQ transmitter 254 retransmits the ARQ PDU x to the H-ARQ receiver 264 (step 208). The ARQ PDU x is still not decodable and the H-ARQ receiver 264 sends another NACK to the H-ARQ transmitter 254 (step 210). At such time, it is determined that the number of retransmissions of ARQ PDU x has reached the maximum retransmission limit (step 212). The H-ARQ transmitter 254 then sends a local NACK for ARQ PDU x to the ARQ transmitter 252 (step 214).

  A local NACK may also be generated if a NACK / ACK error is reported from the H-ARQ receiver 264 to the H-ARQ transmitter 254. With continued reference to FIG. 2, ARQ transmitter 252 sends ARQ PDU y to H-ARQ transmitter 254 (step 216). The H-ARQ transmitter 254 transmits the ARQ PDU y to the H-ARQ receiver 264 (step 218). The ARQ PDU y is not decodable and the H-ARQ receiver 264 sends a NACK to the H-ARQ transmitter 254 (step 220). However, the NACK is misinterpreted as ACK by the H-ARQ transmitter 254, and the H-ARQ transmitter 254 treats the ARQ PCU y as having been successfully transmitted. The H-ARQ receiver 264 receives a NACK / ACK (for example, if the H-ARQ receiver 264 receives a new PDU via the same H-ARQ process while waiting for a retransmission of the ARQ PDU y). An error is detected (step 222). The H-ARQ receiver 264 transmits a NACK / ACK error indicator (NACK-to-ACK error indicator) to the H-ARQ transmitter 254 (step 224). Upon receipt of the NACK / ACK error indicator, the H-ARQ transmitter 254 sends a local NACK to the ARQ transmitter 252 and the ARQ PDU y is recovered at the ARQ level (step 226).

  As shown in FIG. 2, a local ACK is generated when neither of the above two events related to an ARQ packet has occurred during a predetermined time interval. The ARQ transmitter 252 sends the ARQ PDU z to the H-ARQ transmitter 254 (step 228). The H-ARQ transmitter 254 transmits the ARQ PDU z to the H-ARQ receiver 364 (step 230). The ARQ PDU z is successfully decoded, and then the H-ARQ receiver 264 sends the ARQ PDU z to the ARQ receiver 262 (step 232) and sends an ACK to the H-ARQ transmitter 254 (step 234). If it is determined that no NACK / ACK error has been reported during the predetermined time interval (step 236), the H-ARQ transmitter 254 sends a local ACK to the ARQ transmitter 252 (step 238). After receiving the local ACK from the H-ARQ transmitter 254, the ARQ transmitter 252 discards the packet from the transmission buffer.

  In the above example of an H-ARQ assisted ARQ system, the complex Layer 2 (L2) status reporting mechanism has been deleted, assuming that NACK / ACK errors are the only significant cause of undetected packet loss. The ARQ transmitter cannot recover the packet if the NACK / ACK error indicator is lost or the shared channel is lost due to discontinuous transmission (DTX) / ACK errors. Therefore, lossless transmission cannot be guaranteed.

  Current downlink H-ARQ (Release 5) does not specify the maximum number of retransmissions for a packet. Therefore, the H-ARQ transmitter or receiver does not know the maximum number of transmissions for each packet. There is an assumption that the ARQ transmitter and the H-ARQ transmitter have the same PDU size. The H-ARQ transmitter notifies the ARQ transmitter of the lost segment (not the ARQ PDU). When the ARQ PDU is retransmitted, the H-ARQ transmitter retransmits the complete packet as well as the missing segment. It is also unclear how to recover the last packet of H-ARQ transmission.

  The present invention relates to a method and system for implementing H-ARQ assisted ARQ in a wireless communication system. The H-ARQ receiver determines whether an H-ARQ NACK / ACK error has occurred. When an H-ARQ NACK / ACK error occurs, the H-ARQ receiver has not reached the maximum retransmission limit for the number of failed packet retransmissions, the maximum delivery time of the failed packet has not expired, And / or if the lifetime of the failed packet has not expired, an H-ARQ error indicator is sent to the H-ARQ transmitter. The H-ARQ transmitter tries to recover the failed packet. If the H-ARQ transmitter has reached the maximum retransmission limit and the maximum delivery time has expired or the lifetime of the failed packet has expired, the failed packet is recovered at the ARQ level. Send a local NACK to the ARQ transmitter to get. The H-ARQ receiver sends a local NACK to the ARQ receiver if the H-ARQ receiver does not receive a failed packet before certain conditions occur. Based on receipt of the local NACK, the ARQ receiver can send a status report to the ARQ transmitter for recovery of the failed packet.

  A more detailed understanding of the invention will be gained from the following description of preferred embodiments, given by way of example and understood in conjunction with the accompanying drawings in which:

  The functionality of the present invention may be incorporated into an integrated circuit (IC) or configured in a circuit that includes a number of interconnected components.

  FIG. 3 is a signaling diagram of a process 400 for implementing H-ARQ assisted ARQ operation in a wireless communication system 300 according to the present invention. System 300 includes a transmitter 310 and a receiver 320. The transmitter 310 includes an ARQ transmitter 312 and an H-ARQ transmitter 314. Receiver 320 includes an ARQ receiver 322 and an H-ARQ receiver 324.

In order to support H-ARQ assisted ARQ according to the present invention, the following parameters are defined.
T _{ErrorIndieator} : The H-ARQ error indication timer is defined as the time that the H-ARQ receiver should wait for retransmission of a failed packet before sending the H-ARQ error indicator. The H-ARQ error indication timer is preferably kept constant for the entire system for ease of implementation. However, the H-ARQ error indication timer may be adjusted based on quality of service (QoS) requirements. For example, the length of the H-ARQ error indication timer can be related to the scheduling priority.
N _{ReTransmission} : The maximum number of retransmissions allowed for a packet. The maximum number of retransmissions may be based on QoS requirements, or may be set for each service type.
T _Delivery : Maximum delivery time allowed for normal delivery of packets after the first transmission. The maximum delivery time may be based on QoS requirements (for example, block error rate, delay, etc.), or may be set for each service type.
• T _RecoverySync : For synchronous H-ARQ, after sending the H-ARQ error indicator, the time that the H-ARQ receiver expects to receive a failed packet within it.
T _{RecoveryAsync} : For asynchronous H-ARQ, after sending the H-ARQ error indicator, the time that the H-ARQ receiver expects to receive a failed packet within it. The timer may be associated with the QoS requirement or may be set for each service type. For example, the timer length can be related to the scheduling priority.
W _HARQ : Window (ie number of packets) within which failure packets are to be received. If a failed packet is not received within W _HARQ , it is considered lost.

  The transmitter 310 and receiver 320 can also be given parameters regarding the packet lifetime (ie, the maximum time to transmit a packet). The central node can provide parameters to the H-ARQ receiver 324 and the H-ARQ transmitter 314. If parameters are defined for each service type, the parameters may be provided to H-ARQ receiver 324 and H-ARQ transmitter 314 at the start of the service.

  The maximum number of retransmissions and / or the packet lifetime may be dynamically changed depending on the QoS requirements. The maximum number of transmissions can be indicated either by explicitly identifying the number of transmissions in the associated signaling or by identifying the MAC flow associated with the configured maximum number of transmissions. According to the first option, the number of retransmissions per packet is indicated in the associated control signaling for the initial transmission. According to the second option, each MAC flow can be associated with a certain number of retransmissions, and the maximum number of transmissions is indicated by identifying the MAC flow in the associated control signaling for the first transmission. Can do. If the second option is used, the identified MAC flow is converted to the maximum number of transmissions set by the receiver. The maximum number of retransmissions can also be known by the H-ARQ process ID when a specific H-ARQ process is dedicated to one MAC flow for one set of MAC flows. A flag may be set in the associated signaling to indicate the final transmission.

  With reference to FIG. 3, a process 400 for performing H-ARQ assisted ARQ operation according to the present invention will be described. The H-ARQ transmitter 314 transmits the packet to the H-ARQ receiver 324 (step 402). If the packet is successfully received, the H-ARQ receiver 324 sends the packet to the ARQ receiver 322 (not shown in FIG. 3). If the packet is not successfully received, the H-ARQ receiver 324 transmits a NACK to the H-ARQ transmitter 314 (step 404). After transmitting the NACK in step 404, the H-ARQ receiver 324 determines whether an H-ARQ NACK / ACK error has occurred (step 406). Upon detecting the H-ARQ NACK / ACK error, the H-ARQ receiver 324 generates an H-ARQ NACK / ACK error indicator and transmits it to the H-ARQ transmitter 314 (step 408).

  In the case of synchronous H-ARQ transmission, the time of H-ARQ retransmission is known to the receiver. When the H-ARQ receiver 324 receives a new packet while expecting retransmission of the failed packet, if the failed packet corresponding to the maximum retransmission time is not transmitted, an H-ARQ NACK / ACK error has occurred. Determine and send an H-ARQ NACK / ACK error indicator.

In the case of asynchronous H-ARQ transmission, when the maximum number of retransmissions has not been reached, the timer T _{ErrorIndieator} is set in the H-ARQ receiver 324. In step 404, the H-ARQ receiver 324 transmits NACK to the H-ARQ transmission. To the machine 314. If the failure packet is successfully received before the timer T _{ErrorIndieator} expires, the timer T _{ErrorIndieator} is reset to zero and no H-ARQ NACK / ACK error indicator is generated. If the H-ARQ receiver 324 does not normally receive a failed packet before the timer T _{ErrorIndieator} expires, the H-ARQ receiver 324 indicates that the number of failed packet transmissions has reached the maximum retransmission upper limit. If the maximum delivery time (T _Delivery ) of the failed packet has not expired and / or the lifetime of the failed packet has not expired, an H-ARQ NACK / ACK error has occurred. Determine and send an H-ARQ NACK / ACK error indicator to the H-ARQ transmitter 314.

  The H-ARQ NACK / ACK error indicator is transmitted from the H-ARQ receiver 324 to the H-ARQ transmitter 314 to notify about NACK / ACK misinterpretation at the H-ARQ transmitter 314. The H-ARQ NACK / ACK error indicator is associated with a particular H-ARQ process and a particular packet of that H-ARQ process. The H-ARQ NACK / ACK error indicator includes H-ARQ process identification information (ID) and TSN to identify the packet ID in the H-ARQ process.

  For synchronous H-ARQ, a fixed timing relationship between failed transmission and error reporting can be used to associate the H-ARQ NACK / ACK error indicator with the H-ARQ process ID and packet TSN, so that the H-ARQ process ID and TSN may be deleted. For example, if there are four synchronous H-ARQ processes, the H-ARQ NACK / ACK error indicator may be transmitted after time t has elapsed since reception of a packet with TSN n in which a NACK / ACK error occurred. it can.

  The H-ARQ NACK / ACK error indicator packet may be independent of the H-ARQ operation. This is accomplished by sending process identification information (if necessary) and a time offset to identify the received time of the received error. Alternatively, the H-ARQ NACK / ACK error indicator may be transmitted as a physical layer signal after a certain time offset has elapsed since the reception of the received error packet.

  If more than one packet can be sent simultaneously from transmitter 310 to receiver 320, the packets have their cyclic redundancy check (CRC) and one H-ARQ NACK / ACK error indicator is Can be used to send a NACK / ACK error indication for the packet. Thus, the H-ARQ NACK / ACK error indicator may include multiple H-ARQ process IDs, associated packet TSNs, and / or timing offsets.

  The H-ARQ NACK / ACK error indicator can have its own CRC to ensure reliable transmission. This enables MAC layer or RLC layer signaling for H-ARQ NACK / ACK error indication. H-ARQ NACK / ACK error indicator packets can be generated at either the H-ARQ or ARQ level.

  Still referring to FIG. 3, to ensure reception of the H-ARQ NACK / ACK error indicator, the H-ARQ transmitter 314 may send an ACK to the H-ARQ receiver 324 (step 410). The H-ARQ receiver 324 may repeatedly transmit an H-ARQ NACK / ACK error indicator until an ACK is received from the H-ARQ transmitter 314 or until the radio link is lost.

  After receiving the H-ARQ NACK / ACK error indicator in step 408, the H-ARQ transmitter 314 has not reached the maximum retransmission limit, the maximum delivery time has not expired, and / or has failed. If the packet lifetime has not expired, an attempt is made to recover the error at the H-ARQ level by retransmitting the failed packet (step 412). The H-ARQ transmitter 314 may send a local NACK to the ARQ transmitter 312 so that the failed packet can be recovered at the ARQ level (step 414). Preferably, the H-ARQ transmitter 314 is local only when the maximum retransmission limit is reached and the maximum delivery time for transmission of the failed packet has expired or the lifetime of the failed packet has expired. Send NACK to ARQ transmitter 312.

  In the prior art, when the packet is successfully delivered, the H-ARQ receiver 324 sends an ACK to the H-ARQ transmitter 314 and the H-ARQ transmitter 314 sends a local ACK to the ARQ transmitter 312. . According to the present invention, in such a situation, H-ARQ transmitter 314 may or may not send a local ACK to ARQ transmitter 312.

  After transmitting the H-ARQ NACK / ACK error indicator in step 408, the H-ARQ receiver 324 successfully receives the failed packet in step 416 before at least one of the following conditions: Judge whether or not.

1) (synchronous case HARQ transmission) T timeout _{RecoverySync,} or (in the case of asynchronous HARQ transmission) within the range of timeout 2) W _HARQ of T _{RecoveryAsync,} greater sequence than the sequence number of the failed packet Receiving a new H-ARQ packet with a number 3) Reaching the maximum number of retransmissions for a failed packet 4) _Expiring the timer T _Delivery 5) Expiring the lifetime of the failed packet When at least one of the above conditions occurs The H-ARQ receiver 324 sends a local NACK to the ARQ receiver 322 (step 418). Upon receipt of the local NACK, the ARQ receiver 322 may send a status report to the ARQ transmitter 312 to recover the failed packet (step 420). As long as the H-ARQ receiver 324 can identify the ARQ PDU that needs to be recovered, the mapping between the ARQ PDU and the H-ARQ PDU is not an issue.

  The ARQ buffer at ARQ transmitter 312 may be emptied after receiving a status report from ARQ receiver 322. The status report for the failed packet includes information about the successfully received packet. Alternatively, the ARQ receiver 322 may send a status report after successfully receiving N consecutive packets or after the timer expires. Further, the ARQ transmitter 312 may poll the ARQ receiver 322 after transmitting the last packet in the buffer. The reason for applying the polling is to recover from the NACK / ACK error early at the H-ARQ level for the last packet. The setting of “polling bit for final packet” is a settable parameter for data flow.

  In order to improve the recovery of the last packet in H-ARQ transmission, after the H-ARQ buffer is emptied, a special small packet with the last packet indication is sent from the H-ARQ transmitter 314. Also good. The transmission of a special packet with a final packet indication ensures early recovery of the final packet loss at the H-ARQ level. When the H-ARQ receiver 324 receives the special packet, it returns a response to the H-ARQ transmitter 314. This response packet indicates the last TSN received and can be a new packet generated at the H-ARQ level. This response packet can also be sent by using an H-ARQ error indication packet indicating that it is a small packet response.

  To reduce signaling overhead, a null transmission may be sent after the last data packet in the H-ARQ transmission queue to trigger an ACK check for the previous transmission. A null packet only contains control information (ie no payload). The H-ARQ transmitter 314 transmits a null packet after receiving an H-ARQ ACK for the last data packet in the H-ARQ transmission queue. When receiving the null packet, the H-ARQ receiver 324 confirms reception of not only the null packet but also the final data packet. If the last packet is not successfully received at the H-ARQ receiver and therefore a NACK is sent in response to the last packet and the maximum number of transmissions has not been reached, the reception of a null packet is a H-ARQ reception. Allows machine 324 to detect NACK / ACK errors.

  Transmitter 310 and receiver 320 may be WTRUs, base stations, or any other network entity in a third generation (3G) system of WCDMA, CDMA2000, or Long Term Evolution (LTE). “WTRU” refers to user equipment (UE), mobile station, fixed or mobile subscriber unit, pager, cellular telephone, personal digital assistant (PDA), computer or any other type of user equipment operable in a wireless environment. Including, but not limited to. A “base station” includes, but is not limited to, a Node B, site controller, access point, or any other type of interface device in a wireless environment.

Embodiment.
1. A transmitter and a receiver, the transmitter including an H-ARQ transmitter and an ARQ transmitter, wherein the receiver performs H-ARQ assisted ARQ in a wireless communication system including the H-ARQ receiver and the ARQ receiver. How to implement.

  2. 2. The method of embodiment 1 comprising the step of the H-ARQ receiver determining whether an H-ARQ NACK / ACK error has occurred.

  3. When an H-ARQ NACK / ACK error occurs, the number of failed packet retransmissions has not reached the maximum retransmission upper limit, the maximum delivery time of the failed packet has not expired, or the lifetime of the failed packet is 3. The method of embodiment 2 comprising the H-ARQ receiver sending an H-ARQ NACK / ACK error indicator to the H-ARQ transmitter if not timed out.

  4). [0069] 4. The method as in any of the embodiments 2-3, wherein the H-ARQ NACK / ACK error indicator is associated with the H-ARQ process ID and the failed packet at the H-ARQ transmitter.

  5). The method of embodiment 4, wherein the H-ARQ NACK / ACK error indicator includes an H-ARQ process ID and a transmission sequence number of the failed packet.

  6). [0069] 5. The method of embodiment 4 wherein the H-ARQ NACK / ACK error indicator is transmitted with a fixed timing offset relative to the transmission of the failed packet.

  7. 7. The method as in any one of embodiments 3-6, wherein the transmission of the H-ARQ NACK / ACK error indicator and the transmission of the failure packet are independent.

  8). [0069] 8. The method as in any of the embodiments 3-7, wherein the H-ARQ NACK / ACK error indicator is transmitted via at least one of a physical layer signal, a MAC layer signal, and an RLC layer signal.

  9. Two or more packets are transmitted simultaneously from the H-ARQ transmitter to the H-ARQ receiver, and the H-ARQ NACK / ACK error indicator indicates an H-ARQ NACK / ACK error of two or more packets The method according to any of embodiments 3 to 8, wherein

  10. [0069] 10. The method as in any of the embodiments 3-9, wherein the H-ARQ NACK / ACK error indicator is transmitted with the CRC.

  11. [0069] 11. The method as in any of the embodiments 3-10, wherein the H-ARQ NACK / ACK error indicator is generated by one of the H-ARQ receiver and the ARQ receiver.

  12 12. The method as in any one of embodiments 3-11, further comprising the step of the H-ARQ transmitter transmitting an ACK to the H-ARQ receiver upon receipt of the H-ARQ NACK / ACK error indicator.

  13. If the H-ARQ receiver has not successfully received the ACK for the H-ARQ NACK / ACK error indicator and the radio link between the H-ARQ transmitter and the H-ARQ receiver is not lost, [0069] 13. The method of embodiment 12, wherein the ARQ receiver repeatedly transmits an H-ARQ NACK / ACK error indicator.

  14 If the H-ARQ receiver receives a new packet instead of retransmitting the failed packet via the same H-ARQ process that was assigned to the failed packet, the H-ARQ receiver will receive an H-ARQ NACK / ACK error. 14. The method as in any one of embodiments 3-13, wherein the indicator is transmitted.

  15. If the H-ARQ receiver does not receive a failed packet until the error indication timer expires, the H-ARQ receiver sends an H-ARQ NACK / ACK error indicator, and the error indication timer 15. The method as in any one of embodiments 3-14, wherein the method is set when transmitted to an H-ARQ transmitter.

  16. If the maximum retransmission limit has not been reached, the maximum delivery time has not expired, or the lifetime of the failed packet has not expired, H-ARQ can be used until the failed packet is successfully delivered. 16. The method as in any of the embodiments 3-15, further comprising the step of the transmitter retransmitting the failed packet.

  17. If the maximum retransmission limit has been reached, the maximum delivery time has expired, or the lifetime of the failed packet has expired, the H-ARQ is recovered so that the failed packet is recovered at the ARQ level. [0064] 17. The method of embodiment 16 further comprising the transmitter sending a local NACK to the ARQ transmitter.

  18. 18. The method as in any one of embodiments 3-17, further comprising the step of the H-ARQ receiver setting a recovery timer when the H-ARQ receiver transmits an H-ARQ NACK / ACK error indicator. .

  19. An embodiment further comprising the step of the H-ARQ receiver sending a local NACK to the ARQ receiver if the H-ARQ receiver does not receive the failure packet before the recovery timer expires. 18 methods.

  20. 20. The method of embodiment 19 further comprising the step of the ARQ receiver sending a status report to the ARQ transmitter for failure packet recovery.

  21. If the H-ARQ receiver does not receive a failure packet until it receives a packet having a sequence number larger than the sequence number of the failure packet a predetermined number of times, the H-ARQ receiver receives a local NACK from the ARQ. The method of any of embodiments 3-20, further comprising sending to the machine.

  22. 22. The method of embodiment 21 further comprising the step of the ARQ receiver sending a status report to the ARQ transmitter for failure packet recovery.

  23. If the H-ARQ receiver does not receive the failed packet until the number of failed packet retransmissions reaches the maximum number of failed packets retransmission, the H-ARQ receiver further sends a local NACK to the ARQ receiver. 23. The method of any of embodiments 3-22, comprising.

  24. 24. The method of embodiment 23, further comprising the step of the ARQ receiver sending a status report to the ARQ transmitter for recovery of the failed packet.

  25. The H-ARQ receiver further includes a step of sending a local NACK to the ARQ receiver if the H-ARQ receiver does not receive the failed packet until the maximum delivery time of the failed packet expires. The method of any of Embodiments 3-24.

  26. 26. The method of embodiment 25 further comprising the step of the ARQ receiver sending a status report to the ARQ transmitter for failure packet recovery.

  27. 27. The method as in any one of embodiments 3-26, further comprising the step of the ARQ receiver sending a status report if the ARQ receiver successfully receives the predetermined number of packets.

  28. 28. The method as in any of the embodiments 3-27, further comprising the step of the ARQ receiver sending a status report if the status report timer expires.

  29. [0069] [0069] Any of the embodiments 3-28, further comprising: an ARQ transmitter requesting a status report from the ARQ receiver; and the ARQ receiver transmitting a status report to the ARQ transmitter. the method of.

  30. 30. The method of embodiment 29, wherein after sending the final packet, the ARQ transmitter requests a status report.

  31. 31. The method as in any of the embodiments 3-30, further comprising: after transmitting the last packet in the buffer, the H-ARQ transmitter transmits a small packet having a last packet indication.

  32. 32. The method of embodiment 31 further comprising the step of the H-ARQ receiver sending a response to the small packet, whereby recovery of the final packet is guaranteed by the small packet.

  33. 33. The method as in any of the embodiments 31-32, wherein the small packet is null transmission.

  34. [00117] 34. The method as in any of the embodiments 31-33, wherein the response to the small packet is transmitted by using an H-ARQ NACK / ACK error indicator.

  35. 35. The method as in any of the embodiments 3-34, wherein parameters regarding a maximum retransmission limit, a maximum delivery time of the packet, and a lifetime of the packet are set by a central control entity.

  36. 36. The method of embodiment 35, wherein the parameter is set when the transmitter is in operation.

  37. 36. The method of embodiment 35, wherein the parameter is set at the start of the service.

  38. 38. The method as in any of the embodiments 35-37, wherein the parameter is dynamically set according to the QoS requirement of the packet.

  39. Embodiments 3-38, wherein the maximum retransmission limit for a packet is indicated by identifying a specific MAC flow associated with a specific maximum retransmission limit in associated control signaling for initial transmission. Either way.

  40. 39. The method as in any one of embodiments 3-38, wherein the maximum retransmission limit for the packet is explicitly indicated in the associated control signaling for the initial transmission.

  41. A wireless communication system that implements H-ARQ support ARQ.

  42. A receiver including an H-ARQ receiver and an ARQ receiver, wherein the H-ARQ receiver determines whether an H-ARQ NACK / ACK error has occurred, and a retransmission number of failed packets is a maximum retransmission upper limit value. If the maximum delivery time of the failed packet has not expired or the lifetime of the failed packet has not expired, the H-ARQ NACK / ACK error indicator is displayed in the H-ARQ transmitter. 42. The system of embodiment 41 comprising a receiver configured to transmit to the receiver.

  43. 43. The system of embodiment 42 comprising a transmitter comprising an H-ARQ transmitter and an ARQ transmitter.

  44. [0069] 44. The system as in any of the embodiments 42-43, wherein the H-ARQ NACK / ACK error indicator is associated with the H-ARQ process ID and the failed packet at the H-ARQ transmitter.

  45. 45. The system as in any of the embodiments 42-44, wherein the H-ARQ NACK / ACK error indicator includes an H-ARQ process ID and a transmission sequence number of the failed packet.

  46. 46. The system as in any of the embodiments 42-45, wherein the H-ARQ NACK / ACK error indicator is transmitted with a certain timing offset with respect to transmission of the failed packet.

  47. 47. The system as in any of the embodiments 42-46, wherein the transmission of the H-ARQ NACK / ACK error indicator and the transmission of the failure packet are independent.

  48. 48. The system as in any of the embodiments 42-47, wherein the H-ARQ NACK / ACK error indicator is transmitted via at least one of a physical layer signal, a MAC layer signal, and an RLC layer signal.

  49. The H-ARQ transmitter and the H-ARQ receiver are configured to transmit and receive two or more packets simultaneously, and the H-ARQ transmitter receives an H-ARQ NACK / ACK error for two or more packets. 49. The system as in any of the embodiments 42-48, wherein the system is configured to transmit an indicated H-ARQ NACK / ACK error indicator.

  50. 50. The system as in any of the embodiments 42-49, wherein the H-ARQ NACK / ACK error indicator is transmitted with a CRC.

  51. 51. The system as in any of the embodiments 42-50, wherein the H-ARQ NACK / ACK error indicator is generated by one of the H-ARQ receiver and the ARQ receiver.

  52. 52. The system as in any of the embodiments 43-51, wherein the H-ARQ transmitter is configured to transmit an ACK to the H-ARQ receiver upon receipt of the H-ARQ NACK / ACK error indicator.

  53. Embodiment 52 wherein the H-ARQ receiver repeatedly transmits the H-ARQ NACK / ACK error indicator until the H-ARQ receiver successfully receives an ACK for the H-ARQ NACK / ACK error indicator. System.

  54. If the H-ARQ receiver receives a new packet instead of retransmitting the failed packet via the same H-ARQ process that was assigned to the failed packet, the H-ARQ receiver will receive an H-ARQ NACK / ACK error. 54. The system as in any of the embodiments 42-53, wherein the indicator is transmitted.

  55. If the H-ARQ receiver does not receive a failed packet until the error indication timer expires, the H-ARQ receiver sends an H-ARQ NACK / ACK error indicator, and the error indication timer 55. The system as in any of the embodiments 42-54, set when the is transmitted to the H-ARQ transmitter.

  56. If the maximum retransmission limit has not been reached, the maximum delivery time has not expired, or the lifetime of the failed packet has not expired, H-ARQ can be used until the failed packet is successfully delivered. 56. The system as in any of the embodiments 43-55, wherein the transmitter resends the failed packet.

  57. If the maximum retransmission limit has been reached, the maximum delivery time has expired, or the lifetime of the failed packet has expired, the H-ARQ is recovered so that the failed packet is recovered at the ARQ level. 57. The system as in any of the embodiments 43-56, wherein the transmitter sends a local NACK to the ARQ transmitter.

  58. When the H-ARQ receiver sends an H-ARQ NACK / ACK error indicator, the H-ARQ receiver sets a recovery timer and the H-ARQ receiver sends a failed packet before the recovery timer expires. 58. The system as in any of the embodiments 42-57, wherein if not received, a local NACK is sent to the ARQ receiver.

  59. 59. The system of embodiment 58, wherein the ARQ receiver sends a status report to the ARQ transmitter for failure packet recovery.

  60. If the H-ARQ receiver does not receive a failure packet until it receives a packet having a sequence number larger than the sequence number of the failure packet a predetermined number of times, the H-ARQ receiver receives a local NACK from the ARQ. 60. The system as in any of the embodiments 42-59, wherein the system is sent to a machine.

  61. 61. The system of embodiment 60, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.

  62. If the H-ARQ receiver does not receive a failed packet even though the number of failed packet retransmissions has not reached the maximum retransmission limit of the failed packet, the H-ARQ receiver sends a local NACK to the ARQ receiver. 62. The system of any of embodiments 42 through 61, characterized by

  63. 63. The system of embodiment 62, wherein the ARQ receiver sends a status report to the ARQ transmitter for failure packet recovery.

  64. An embodiment wherein the H-ARQ receiver sends a local NACK to the ARQ receiver if the H-ARQ receiver does not receive the failed packet until the maximum delivery time of the failed packet expires. The system in any one of 42-63.

  65. [00122] 65. The system of embodiment 64 wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.

  66. [00122] 66. The system as in any of the embodiments 42-65, wherein the ARQ receiver sends a status report when the ARQ receiver has successfully received the predetermined number of packets.

  67. [00102] 67. The system as in any of the embodiments 42-66, wherein the ARQ receiver sends a status report when the status report timer expires.

  68. [00102] 68. The system as in any of the embodiments 43-67, wherein the ARQ transmitter requests a status report from the ARQ receiver, and the ARQ receiver transmits the status report to the ARQ transmitter.

  69. 69. The system of embodiment 68 wherein after sending the final packet, the ARQ transmitter requests a status report.

  70. After sending the last packet in the buffer, the H-ARQ transmitter sends a small packet with the last packet indication, and the H-ARQ receiver sends a response to the small packet, thereby recovering the last packet. 70. The system as in any of the embodiments 43-69, wherein is guaranteed by a small packet.

  71. [00117] 71. The system of embodiment 70, wherein the small packet is a null transmission.

  72. 72. The system as in any of the embodiments 70-71, wherein the response to the small packet is transmitted by using an H-ARQ NACK / ACK error indicator.

  73. [00117] 73. The system as in any of the embodiments 42-72, wherein a parameter related to at least one of a maximum retransmission limit, a maximum packet delivery time, and a packet lifetime is set by a central control entity.

  74. 74. The system of embodiment 73, wherein the parameter is set when the transmitter becomes operational.

  75. 74. The system of embodiment 73, wherein the parameter is set at the start of the service.

  76. [00102] 76. The system as in any of the embodiments 73-75, wherein the parameter is dynamically set according to a QoS requirement of the packet.

  77. 75. Any of the embodiments 42-76, wherein the packet maximum retransmission upper limit is indicated by identifying a specific MAC flow associated with the specific maximum retransmission upper limit in an associated control signal for initial transmission. System.

  78. [00102] 77. The system as in any of the embodiments 42-76, wherein the maximum retransmission limit for the packet is explicitly indicated in the associated control signaling for the initial transmission.

  79. Receiver for implementing H-ARQ assisted ARQ.

  80. 80. The receiver of embodiment 79 comprising an ARQ receiver and an H-ARQ receiver.

  81. The H-ARQ receiver determines whether an H-ARQ NACK / ACK error has occurred, the number of retransmissions of the failed packet has reached the maximum retransmission limit, and the maximum delivery time of the failed packet has expired And an H-ARQ NACK / ACK error indicator is transmitted to the H-ARQ transmitter if at least one of the failure packet lifetime has expired has not occurred. Embodiment 80 The receiver of Embodiment 80.

  82. 81. The receiver of embodiment 81 wherein the H-ARQ NACK / ACK error indicator is associated with an H-ARQ process ID and a failure packet at the H-ARQ transmitter.

  83. 82. The receiver of embodiment 81, wherein the H-ARQ NACK / ACK error indicator includes an H-ARQ process ID and a transmission sequence number of the failed packet.

  84. 84. The receiver as in any of the embodiments 81-83, wherein the H-ARQ NACK / ACK error indicator is transmitted with a certain timing offset with respect to the transmission of the failed packet.

  85. 85. The receiver as in any of the embodiments 81-84, wherein the transmission of the H-ARQ NACK / ACK error indicator and the transmission of the failure packet are independent.

  86. 86. The receiver as in any of the embodiments 81-85, wherein the H-ARQ NACK / ACK error indicator is transmitted via at least one of a physical layer signal, a MAC layer signal, and an RLC layer signal.

  87. The H-ARQ receiver is configured to receive two or more packets simultaneously and to transmit an H-ARQ NACK / ACK error indicator indicating an H-ARQ NACK / ACK error of the two or more packets. 87. The receiver of any of the embodiments 81-86 characterized.

  88. 89. The receiver as in any of the embodiments 81-87, wherein the H-ARQ NACK / ACK error indicator is transmitted with a CRC.

  89. 89. The receiver as in any one of embodiments 81-88, wherein the H-ARQ NACK / ACK error indicator is generated by one of an H-ARQ receiver and an ARQ receiver.

  90. 81. An embodiment 81 wherein the H-ARQ receiver repeatedly transmits an H-ARQ NACK / ACK error indicator until the H-ARQ receiver successfully receives an ACK for the H-ARQ NACK / ACK error indicator. Receiver of any one of -89.

  91. If the H-ARQ receiver receives a new packet instead of retransmitting the failed packet via the same H-ARQ process that was assigned to the failed packet, the H-ARQ receiver will receive an H-ARQ NACK / ACK error. 90. The receiver of any of embodiments 81-90, wherein the indicator is transmitted.

  92. If the H-ARQ receiver does not receive a failed packet until the error indication timer expires, the H-ARQ receiver sends an H-ARQ NACK / ACK error indicator, and the error indication timer 92. The receiver as in any one of embodiments 81-91, wherein the receiver is set when transmitted to an H-ARQ transmitter.

  93. When the H-ARQ receiver sends an H-ARQ NACK / ACK error indicator, the H-ARQ receiver sets a recovery timer and the H-ARQ receiver sends a failed packet before the recovery timer expires. 93. The receiver as in any one of embodiments 81-92, wherein if not received, a local NACK is sent to the ARQ receiver.

  94. 94. The receiver as in any of the embodiments 81-93, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.

  95. If the H-ARQ receiver does not receive a failure packet until it receives a packet having a sequence number larger than the sequence number of the failure packet a predetermined number of times, the H-ARQ receiver receives a local NACK from the ARQ. 95. The receiver of any of embodiments 81-94, wherein the receiver is sent to a machine.

  96. If the H-ARQ receiver does not receive a failed packet before the number of failed packet retransmissions reaches the maximum number of failed packets, the H-ARQ receiver sends a local NACK to the ARQ receiver. 96. The receiver of any of the embodiments 81-95, which is characterized.

  97. An embodiment wherein the H-ARQ receiver sends a local NACK to the ARQ receiver if the H-ARQ receiver does not receive the failed packet until the maximum delivery time of the failed packet expires. The receiver in any one of 81-96.

  98. 98. The receiver as in any one of embodiments 81-97, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.

  99. 99. The receiver as in any of the embodiments 81-98, wherein the ARQ receiver transmits a status report when the ARQ receiver normally receives a predetermined number of packets.

  100. 100. The receiver as in any of the embodiments 81-99, wherein the ARQ receiver transmits a status report when the status report timer expires.

  101. Transmitter for implementing H-ARQ assisted ARQ.

  102. 102. The transmitter of embodiment 101 comprising an ARQ transmitter and an H-ARQ transmitter.

  103. The H-ARQ transmitter is configured to receive an H-ARQ NACK / ACK error indicator, and at least one of the ARQ transmitter and the H-ARQ transmitter is a failed packet corresponding to the H-ARQ NACK / ACK error indicator. 103. The transmitter of embodiment 102 configured to recover.

  104. 104. The transmitter of embodiment 103 wherein the H-ARQ transmitter is configured to transmit an ACK to the H-ARQ receiver upon receipt of the H-ARQ NACK / ACK error indicator.

  105. If at least one of the maximum retransmission limit has been reached, the maximum delivery time has expired, and the lifetime of the failed packet has expired, the failed packet is successfully delivered. 103. The transmitter as in any of embodiments 103-104, wherein the H-ARQ transmitter retransmits the failed packet until

  106. If the maximum retransmission limit has been reached, the maximum delivery time has expired, or the lifetime of the failed packet has expired, the H-ARQ is recovered so that the failed packet is recovered at the ARQ level. 106. The transmitter as in any of the embodiments 103-105, wherein the transmitter sends a local NACK to the ARQ transmitter.

  107. 110. The transmitter as in any of the embodiments 103-106, wherein the ARQ transmitter requests a status report from the ARQ receiver.

  108. 108. The transmitter of embodiment 107 wherein the ARQ transmitter requests a status report after transmitting the final packet.

  109. 103. After sending the last packet in the buffer, the H-ARQ transmitter sends a small packet with a last packet indication, whereby recovery of the last packet is guaranteed by the small packet 103 ~ 108 transmitter.

  110. 110. The transmitter of embodiment 109 wherein the small packet is a null transmission.

  111. 110. The transmitter as in any of the embodiments 109-110, wherein the response to the small packet is transmitted by using an H-ARQ NACK / ACK error indicator.

  The functions and components of the invention have been described in specific combinations in the preferred embodiment. Each function or component can be used alone without other functions and components of the preferred embodiment. Alternatively, it may be used in various combinations with or without other functions and elements of the invention. The methods and flowcharts provided in the present invention may be implemented in a computer program, software or firmware tangibly implemented in a computer readable storage medium for execution by a general purpose computer or processor. Examples of computer readable storage media are read only memory (ROM), random access memory (RAM), registers, cache memory, semiconductor memory devices, magnetic media such as internal hard disk and removable disk, magneto-optical media and CD-ROM. Includes optical media such as discs and digital versatile discs (DVDs).

  Suitable processors include, by way of example, general purpose processors, special purpose processors, conventional processors, digital signal processors (DSPs), multiple microprocessors, one or more microprocessors in conjunction with a DSP core, a controller, a microcontroller, Application specific integrated circuit (ASIC), field programmable gate array (FPGA) circuit, any other type of integrated circuit (IC), and / or state machine.

  A processor that works with software to implement a radio frequency transceiver for use in a wireless transceiver unit (WTRU), user equipment (UE), terminal, base station, radio network controller (RNC), or any host computer Can be used. The WTRU includes a camera, a video camera module, a videophone, a speakerphone, a vibration device, a speaker, a microphone, a television transceiver, a hands-free handset, a keyboard, a Bluetooth (registered trademark) module, a frequency modulation (FM) radio unit, and a liquid crystal display (LCD). ) In hardware and / or software, such as a display unit, an organic light emitting diode (OLED) display unit, a digital music player, a media player, a video game player module, an internet browser, and / or any wireless local area network (WLAN) module Can be used with the module being mounted.

It is a figure which shows the conventional radio | wireless communications system. FIG. 6 is a diagram illustrating an example of H-ARQ assisted ARQ operation proposed for the third generation partnership project (3GPP) standard. FIG. 7 is a signaling diagram of a process for performing H-ARQ assisted ARQ operation according to the present invention.

Claims (103)

A transmitter and a receiver, the transmitter including a hybrid automatic repeat request (H-ARQ) transmitter and an automatic repeat request (ARQ) transmitter, the receiver including an H-ARQ receiver and an ARQ receiver A method for implementing H-ARQ assisted ARQ in a wireless communication system including:
The H-ARQ receiver determining whether an H-ARQ negative acknowledgment (NACK) / acknowledgment (ACK) error has occurred;
When an H-ARQ NACK / ACK error occurs, the number of failed packet retransmissions has reached the maximum retransmission upper limit, the maximum delivery time of the failed packet has expired, and the lifetime of the failed packet is The H-ARQ receiver transmits an H-ARQ NACK / ACK error indicator to the H-ARQ transmitter if at least one of the time-outs has not occurred. how to.   The method of claim 1, wherein the H-ARQ NACK / ACK error indicator is associated with an H-ARQ process ID and the failed packet at the H-ARQ transmitter.   The method of claim 2, wherein the H-ARQ NACK / ACK error indicator includes the H-ARQ process ID and a transmission sequence number of the failed packet.   The method of claim 2, wherein the H-ARQ NACK / ACK error indicator is transmitted with a certain timing offset with respect to the transmission of the failed packet.   The method of claim 1, wherein the transmission of the H-ARQ NACK / ACK error indicator and the transmission of the failure packet are independent.   The H-ARQ NACK / ACK error indicator is transmitted via at least one of a physical layer signal, a medium access control (MAC) layer signal, and a radio link control (RLC) layer signal. The method described in 1.   Two or more packets are simultaneously transmitted from the H-ARQ transmitter to the H-ARQ receiver, and the H-ARQ NACK / ACK error indicator indicates an H-ARQ NACK / ACK error of two or more packets. The method of claim 1 wherein:   The method of claim 1, wherein the H-ARQ NACK / ACK error indicator is transmitted with a cyclic redundancy check (CRC).   The method of claim 1, wherein the H-ARQ NACK / ACK error indicator is generated by one of the H-ARQ receiver and the ARQ receiver.   The method of claim 1, further comprising the step of the H-ARQ transmitter transmitting an ACK to the H-ARQ receiver upon receipt of the H-ARQ NACK / ACK error indicator.   The H-ARQ receiver has not successfully received the ACK for the H-ARQ NACK / ACK error indicator, and the radio link between the H-ARQ transmitter and the H-ARQ receiver has been lost. 11. The method of claim 10, wherein if not, the H-ARQ receiver repeatedly transmits the H-ARQ NACK / ACK error indicator.   Instead of retransmitting the failed packet, if the H-ARQ receiver receives a new packet through the same H-ARQ process assigned to the failed packet, the H-ARQ receiver The method according to claim 1, characterized in that the ARQ NACK / ACK error indicator is transmitted.   If the H-ARQ receiver does not receive the failed packet until an error indication timer expires, the H-ARQ receiver transmits the H-ARQ NACK / ACK error indicator, and the error The method of claim 1, wherein a display timer is set when a NACK is transmitted to the H-ARQ transmitter.   If at least one of reaching the maximum retransmission limit, the maximum delivery time has expired, and the lifetime of the failed packet has expired has not occurred, the failed packet The method of claim 1, further comprising: retransmitting the failed packet by the H-ARQ transmitter until the packet is successfully delivered.   If the maximum retransmission limit is reached, the maximum delivery time has expired, or the lifetime of the failed packet has expired, the failed packet is recovered at the ARQ level. The method of claim 14, further comprising: the H-ARQ transmitter sending a local NACK to the ARQ transmitter. When the H-ARQ receiver transmits the H-ARQ NACK / ACK error indicator, the H-ARQ receiver sets a recovery timer;
If the H-ARQ receiver does not receive the failed packet before the recovery timer expires, the H-ARQ receiver further comprises sending a local NACK to the ARQ receiver. The method of claim 1, wherein:   The method of claim 16, further comprising the ARQ receiver sending a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until it receives a packet having a sequence number larger than the sequence number of the failed packet a predetermined number of times, the H-ARQ receiver The method of claim 1, further comprising sending a NACK to the ARQ receiver.   The method of claim 18, further comprising the ARQ receiver sending a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until the number of retransmissions of the failed packet reaches the maximum retransmission limit for the failed packet, the H-ARQ receiver transmits a local NACK to the ARQ. The method of claim 1, further comprising the step of sending to a receiver.   The method of claim 20, further comprising the ARQ receiver sending a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until the maximum delivery time for the failed packet expires, the H-ARQ receiver sends a local NACK to the ARQ receiver. The method of claim 1, further comprising:   The method of claim 20, further comprising the ARQ receiver sending a status report to the ARQ transmitter for recovery of the failed packet.   The method of claim 1, further comprising: when the ARQ receiver successfully receives a predetermined number of packets, the ARQ receiver transmits a status report.   The method of claim 1, further comprising the step of the ARQ receiver sending a status report if a status report timer expires. The ARQ transmitter requesting a status report from the ARQ receiver;
The method of claim 1, further comprising: the ARQ receiver transmitting a status report to the ARQ transmitter.   27. The method of claim 26, wherein after transmitting a final packet, the ARQ transmitter requests the status report. After sending the last packet in the buffer, the H-ARQ transmitter sends a small packet with a last packet indication;
The H-ARQ receiver further comprises the step of transmitting a response to the small packet, the recovery of the last packet being guaranteed by the small packet. Method.   The method of claim 28, wherein the small packet is a null transmission.   30. The method of claim 28, wherein the response to the small packet is transmitted by using the H-ARQ NACK / ACK error indicator.   The method according to claim 1, characterized in that parameters relating to the maximum retransmission limit, the maximum delivery time of a packet, and the lifetime of the packet are set by a central control entity.   The method of claim 31, wherein the parameter is set when the transmitter is in operation.   The method of claim 31, wherein the parameter is set at the start of a service.   The method of claim 31, wherein the parameter is dynamically set according to a quality of service (QoS) requirement of a packet.   The maximum retransmission limit for a packet is indicated by identifying a specific medium access control (MAC) flow associated with a specific maximum retransmission limit in associated control signaling for initial transmission. The method of claim 31.   The method of claim 31, wherein the maximum retransmission limit of a packet is explicitly indicated in associated control signaling for initial transmission. In a wireless communication system that implements a hybrid automatic repeat request (H-ARQ) assisted automatic repeat request (ARQ),
A receiver including an H-ARQ receiver and an ARQ receiver, wherein the H-ARQ receiver determines whether an H-ARQ negative acknowledgment (NACK) / acknowledgment (ACK) error has occurred and fails. At least one of the following has occurred: the number of packet retransmissions has reached the maximum retransmission limit, the maximum delivery time of the failed packet has expired, and the lifetime of the failed packet has expired. Otherwise, configured to send an H-ARQ NACK / ACK error indicator to the H-ARQ transmitter;
And a transmitter including the H-ARQ transmitter and an ARQ transmitter.   The system of claim 37, wherein the H-ARQ NACK / ACK error indicator is associated with an H-ARQ process ID and the failed packet at the H-ARQ transmitter.   The system of claim 38, wherein the H-ARQ NACK / ACK error indicator includes the H-ARQ process ID and a transmission sequence number of the failed packet.   The system of claim 38, wherein the H-ARQ NACK / ACK error indicator is transmitted with a certain timing offset with respect to the transmission of the failed packet.   The system of claim 37, wherein transmission of the H-ARQ NACK / ACK error indicator and transmission of the failure packet are independent.   38. The H-ARQ NACK / ACK error indicator is transmitted via at least one of a physical layer signal, a medium access control (MAC) layer signal, and a radio link control (RLC) layer signal. The system described in.   The H-ARQ transmitter and the H-ARQ receiver are configured to transmit and receive two or more packets simultaneously, and the H-ARQ receiver includes H-ARQ NACK / 38. The system of claim 37, configured to transmit the H-ARQ NACK / ACK error indicator indicating an ACK error.   The system of claim 37, wherein the H-ARQ NACK / ACK error indicator is transmitted with a cyclic redundancy check (CRC).   The system of claim 37, wherein the H-ARQ NACK / ACK error indicator is generated by one of the H-ARQ receiver and the ARQ receiver.   The system of claim 37, wherein the H-ARQ transmitter is configured to transmit an ACK to the H-ARQ receiver upon receipt of the H-ARQ NACK / ACK error indicator.   The H-ARQ receiver repeatedly transmits the H-ARQ NACK / ACK error indicator until the H-ARQ receiver normally receives the ACK related to the H-ARQ NACK / ACK error indicator. 47. The system of claim 46.   Instead of retransmitting the failed packet, if the H-ARQ receiver receives a new packet through the same H-ARQ process assigned to the failed packet, the H-ARQ receiver 48. The system of claim 47, wherein the system transmits an ARQ NACK / ACK error indicator.   If the H-ARQ receiver does not receive the failed packet until an error indication timer expires, the H-ARQ receiver transmits the H-ARQ NACK / ACK error indicator, and the error 48. The system of claim 47, wherein a display timer is set when a NACK is sent to the H-ARQ transmitter.   If at least one of reaching the maximum retransmission limit, the maximum delivery time has expired, and the lifetime of the failed packet has expired has not occurred, the failed packet 48. The system of claim 47, wherein the H-ARQ transmitter retransmits the failed packet until successfully delivered.   If the maximum retransmission limit is reached, the maximum delivery time has expired, or the lifetime of the failed packet has expired, the failed packet is recovered at the ARQ level. 51. The system of claim 50, wherein the H-ARQ transmitter sends a local NACK to the ARQ transmitter.   When the H-ARQ receiver sends the H-ARQ NACK / ACK error indicator, the H-ARQ receiver sets a recovery timer and the H-ARQ reception before the recovery timer expires. 48. The system of claim 47, wherein a machine sends a local NACK to the ARQ receiver if the machine does not receive the failure packet.   53. The system of claim 52, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until it receives a packet having a sequence number larger than the sequence number of the failed packet a predetermined number of times, the H-ARQ receiver 48. The system of claim 47, wherein a NACK is sent to the ARQ receiver.   55. The system of claim 54, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until the number of retransmissions of the failed packet reaches the maximum retransmission limit of the failed packet, the H-ARQ receiver transmits a local NACK to the ARQ. 38. The system of claim 37, wherein the system is sent to a receiver.   57. The system of claim 56, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until the maximum delivery time of the failed packet expires, the H-ARQ receiver sends a local NACK to the ARQ receiver. 58. A system according to claim 57, characterized in that   57. The system of claim 56, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.   57. The system of claim 56, wherein the ARQ receiver sends a status report when the ARQ receiver successfully receives a predetermined number of packets.   38. The system of claim 37, wherein the ARQ receiver sends a status report when a status report timer expires.   38. The system of claim 37, wherein the ARQ transmitter requests a status report from the ARQ receiver, and the ARQ receiver transmits a status report to the ARQ transmitter.   64. The system of claim 62, wherein after transmitting a final packet, the ARQ transmitter requests the status report.   After sending the last packet in the buffer, the H-ARQ transmitter sends a small packet with a final packet indication, and the H-ARQ receiver sends a response to the small packet, 38. The system of claim 37, wherein recovery of the last packet is guaranteed.   The system of claim 64, wherein the small packet is a null transmission.   The system of claim 64, wherein the response to the small packet is transmitted by using the H-ARQ NACK / ACK error indicator.   38. The system of claim 37, wherein a parameter relating to at least one of the maximum retransmission limit, the maximum delivery time of a packet, and the lifetime of a packet is set by a central control entity.   68. The system of claim 67, wherein the parameter is set when the transmitter is in operation.   68. The system of claim 67, wherein the parameter is set at the start of a service.   68. The system of claim 67, wherein the parameters are dynamically set according to packet quality of service (QoS) requirements.   The maximum retransmission limit for a packet is indicated by identifying a specific medium access control (MAC) flow associated with a specific maximum retransmission limit in associated control signaling for initial transmission. 68. The system of claim 67.   68. The system of claim 67, wherein the maximum retransmission limit for a packet is explicitly indicated in associated control signaling for initial transmission. In a receiver that implements a hybrid automatic repeat request (H-ARQ) assisted automatic repeat request (ARQ),
An ARQ receiver;
It is determined whether an H-ARQ negative acknowledgment (NACK) / acknowledgment (ACK) error has occurred, the number of retransmissions of the failed packet has reached the maximum retransmission limit, and the maximum delivery time of the failed packet has expired. Configured to send an H-ARQ NACK / ACK error indicator to the H-ARQ transmitter if at least one of the occurrence of the failure packet and the duration of the failed packet has expired has not occurred. A receiver comprising: an H-ARQ receiver.   The receiver of claim 73, wherein the H-ARQ NACK / ACK error indicator is associated with an H-ARQ process ID and the failed packet at the H-ARQ transmitter.   The receiver of claim 74, wherein the H-ARQ NACK / ACK error indicator includes the H-ARQ process ID and a transmission sequence number of the failed packet.   The receiver of claim 74, wherein the H-ARQ NACK / ACK error indicator is transmitted with a certain timing offset with respect to the transmission of the failed packet.   The receiver of claim 73, wherein transmission of the H-ARQ NACK / ACK error indicator and transmission of the failure packet are independent.   74. The H-ARQ NACK / ACK error indicator is transmitted via at least one of a physical layer signal, a medium access control (MAC) layer signal, and a radio link control (RLC) layer signal. As described in the receiver.   The H-ARQ receiver is configured to simultaneously receive two or more packets and transmit the H-ARQ NACK / ACK error indicator indicating an H-ARQ NACK / ACK error of two or more packets. 74. A receiver according to claim 73.   The receiver of claim 73, wherein the H-ARQ NACK / ACK error indicator is transmitted with a cyclic redundancy check (CRC).   74. The receiver of claim 73, wherein the H-ARQ NACK / ACK error indicator is generated by one of the H-ARQ receiver and the ARQ receiver.   The H-ARQ receiver repeatedly transmits the H-ARQ NACK / ACK error indicator until the H-ARQ receiver successfully receives an acknowledgment (ACK) regarding the H-ARQ NACK / ACK error indicator. 74. A receiver according to claim 73.   Instead of retransmitting the failed packet, if the H-ARQ receiver receives a new packet through the same H-ARQ process assigned to the failed packet, the H-ARQ receiver The receiver of claim 73, wherein the receiver transmits an ARQ NACK / ACK error indicator.   If the H-ARQ receiver does not receive the failed packet until an error indication timer expires, the H-ARQ receiver transmits the H-ARQ NACK / ACK error indicator, and the error The receiver of claim 73, wherein a display timer is set when a NACK is transmitted to the H-ARQ transmitter.   When the H-ARQ receiver sends the H-ARQ NACK / ACK error indicator, the H-ARQ receiver sets a recovery timer and the H-ARQ reception before the recovery timer expires. 74. The receiver of claim 73, wherein a machine sends a local NACK to the ARQ receiver if the machine does not receive the failure packet.   86. The receiver of claim 85, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until it receives a packet having a sequence number larger than the sequence number of the failed packet a predetermined number of times, the H-ARQ receiver 74. The receiver of claim 73, wherein a NACK is sent to the ARQ receiver.   88. The receiver of claim 87, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until the number of retransmissions of the failed packet reaches the maximum retransmission limit of the failed packet, the H-ARQ receiver transmits a local NACK to the ARQ. The receiver of claim 73, wherein the receiver is sent to a receiver.   90. The receiver of claim 89, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.   If the H-ARQ receiver does not receive the failed packet until the maximum delivery time of the failed packet expires, the H-ARQ receiver sends a local NACK to the ARQ receiver. 74. A receiver as claimed in claim 73.   92. The receiver of claim 91, wherein the ARQ receiver sends a status report to the ARQ transmitter for recovery of the failed packet.   74. The receiver of claim 73, wherein the ARQ receiver transmits a status report when the ARQ receiver has successfully received a predetermined number of packets.   The receiver of claim 73, wherein the ARQ receiver sends a status report when a status report timer expires. In a transmitter implementing a hybrid automatic repeat request (H-ARQ) assisted automatic repeat request (ARQ),
An ARQ transmitter;
An H-ARQ transmitter configured to receive an H-ARQ negative acknowledgment (NACK) / acknowledgment (ACK) error indicator, wherein at least one of the ARQ transmitter and the H-ARQ transmitter is A transmitter configured to recover a failed packet corresponding to an H-ARQ NACK / ACK error indicator.   96. The transmitter of claim 95, wherein the H-ARQ transmitter is configured to transmit an ACK to the H-ARQ receiver upon receipt of the H-ARQ NACK / ACK error indicator.   If at least one of the maximum retransmission limit has been reached, the maximum delivery time has expired, and the lifetime of the failed packet has expired, the failed packet is successfully 96. The transmitter of claim 95, wherein the H-ARQ transmitter retransmits the failed packet until it is delivered.   If the maximum retransmission limit is reached, the maximum delivery time has expired, or the lifetime of the failed packet has expired, the failed packet is recovered at the ARQ level. 96. The transmitter of claim 95, wherein the H-ARQ transmitter sends a local NACK to the ARQ transmitter.   96. The transmitter of claim 95, wherein the ARQ transmitter requests a status report from the ARQ receiver.   96. The transmitter of claim 95, wherein after transmitting a final packet, the ARQ transmitter requests the status report.   96. After transmitting a final packet in a buffer, the H-ARQ transmitter transmits a small packet having a final packet indication, and recovery of the final packet is guaranteed by the small packet. Transmitter as described in.   102. The transmitter of claim 101, wherein the small packet is a null transmission.   The transmitter of claim 101, wherein the response to the small packet is transmitted by using the H-ARQ NACK / ACK error indicator.

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