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A radio access network may determine that a hybrid automatic repeat request (HARQ) transmission schedule of a wireless air interface defined by the RAN includes time-division-multiplexed slots that are subject to HARQ acknowledgment bundling and time-division-multiplexed slots that are not subject t

A radio access network may determine that a hybrid automatic repeat request (HARQ) transmission schedule of a wireless air interface defined by the RAN includes time-division-multiplexed slots that are subject to HARQ acknowledgment bundling and time-division-multiplexed slots that are not subject to HARQ acknowledgment bundling. The RAN may assign, to relay base stations served by the RAN, time-division-multiplexed slots of the wireless air interface that are not subject to HARQ acknowledgment bundling. The RAN may also assign, to non-relay wireless communication devices (WCDs) served by the RAN, time-division-multiplexed slots of the wireless air interface that are subject to HARQ acknowledgment bundling. The RAN may transmit, over the air interface, HARQ subpackets according to the transmission schedule and assignments of time-division-multiplexed slots.

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1. A method comprising: determining that a hybrid automatic repeat request (HARQ) transmission schedule of a wireless air interface defined by a radio access network (RAN) includes time-division-multiplexed slots that are subject to HARQ acknowledgment bundling and time-division-multiplexed slots th

1. A method comprising: determining that a hybrid automatic repeat request (HARQ) transmission schedule of a wireless air interface defined by a radio access network (RAN) includes time-division-multiplexed slots that are subject to HARQ acknowledgment bundling and time-division-multiplexed slots that are not subject to HARQ acknowledgment bundling;assigning, to relay base stations served by the RAN, time-division-multiplexed slots of the wireless air interface that are not subject to HARQ acknowledgment bundling;assigning, to non-relay wireless communication devices (WCDs) served by the RAN, time-division-multiplexed slots of the wireless air interface that are subject to HARQ acknowledgment bundling; andtransmitting, over the air interface, HARQ subpackets according to the transmission schedule and assignments of time-division-multiplexed slots, wherein the RAN communicates, by way of the wireless air interface, (i) with the relay base stations using a first public land mobile network (PLMN) code, and (ii) with the non-relay WCDs using a second PLMN code, and wherein assigning the time-division-multiplexed slots that are not subject to HARQ acknowledgment bundling to the relay base stations is based on the first PLMN code, and assigning time-division-multiplexed slots that are subject to HARQ acknowledgment bundling to the non-relay WCDs is based on the second PLMN code. 2. The method of claim 1, wherein (i) bearer traffic transmitted by the RAN to the relay base stations is subject to a first QOS class identifier (QCI), and (ii) bearer traffic transmitted by the RAN to the non-relay WCDs is subject to a second QCI, and wherein assigning time-division-multiplexed slots to relay base stations is based on the first QCI, and assigning time-division-multiplexed slots to non-relay WCDs is based on the second QCI. 3. The method of claim 1, wherein the HARQ transmission schedule including HARQ acknowledgment bundling comprises, in response to a plurality of HARQ subpackets that the RAN transmits to a recipient, the RAN receiving a single HARQ acknowledgment message from the recipient, and wherein the recipient is a non-relay WCD. 4. The method of claim 3, wherein the single HARQ acknowledgment message is a positive acknowledgment message that indicates that each of the plurality of HARQ subpackets was successfully received by the recipient. 5. The method of claim 3, wherein the single HARQ acknowledgment message is a negative acknowledgment message that indicates that at least one of the plurality of HARQ subpackets was not successfully received by the recipient. 6. The method of claim 1, wherein the RAN communicates over the wireless air interface using a time division duplex (TDD) wireless channel in which the forward-direction traffic is separated from reverse-direction traffic by allocation of different respective time slots in a particular frequency band. 7. The method of claim 1, further comprising: determining that the wireless air interface is subject to at least a threshold amount of congestion; andin response to determining that the wireless air interface is subject to at least the threshold amount of congestion, assigning, to the relay base stations served by the RAN, further time-division-multiplexed slots of the wireless air interface that are subject to HARQ acknowledgment bundling. 8. The method of claim 7, wherein determining that the wireless air interface is subject to at least the threshold amount of congestion comprises determining that a queue associated with forward-direction traffic waiting for transmission to the relay base stations has at least a threshold occupancy. 9. An article of manufacture including a non-transitory computer-readable medium, having stored thereon program instructions that, upon execution by a radio access network (RAN) device, cause the RAN device to perform operations comprising: determining that a hybrid automatic repeat request (HARQ) transmission schedule of a wireless air interface defined by the RAN includes time-division-multiplexed slots that are subject to HARQ acknowledgment bundling and time-division-multiplexed slots that are not subject to HARQ acknowledgment bundling;assigning, to relay base stations served by the RAN, time-division-multiplexed slots of the wireless air interface that are not subject to HARQ acknowledgment bundling;assigning, to non-relay wireless communication devices (WCDs) served by the RAN, time-division-multiplexed slots of the wireless air interface that are subject to HARQ acknowledgment bundling; andtransmitting, over the air interface, HARQ subpackets according to the transmission schedule and assignments of time-division-multiplexed slots, wherein the RAN communicates, by way of the wireless air interface, (i) with the relay base stations using a first public land mobile network (PLMN) code, and (ii) with the non-relay WCDs using a second PLMN code, and wherein assigning the time-division-multiplexed slots that are not subject to HARQ acknowledgment bundling to the relay base stations is based on the first PLMN code, and assigning time-division-multiplexed slots that are subject to HARQ acknowledgment bundling to the non-relay WCDs is based on the second PLMN code. 10. The article of manufacture of claim 9, wherein (i) bearer traffic transmitted by the RAN to the relay base stations is subject to a first QOS class identifier (QCI), and (ii) bearer traffic transmitted by the RAN to the non-relay WCDs is subject to a second QCI, and wherein assigning time-division-multiplexed slots to relay base stations is based on the first QCI, and assigning time-division-multiplexed slots to non-relay WCDs is based on the second QCI. 11. The article of manufacture of claim 9, wherein the HARQ transmission schedule including HARQ acknowledgment bundling comprises, in response to a plurality of HARQ subpackets that the RAN transmits to a recipient, the RAN receiving a single HARQ acknowledgment message from the recipient, and wherein the recipient is a non-relay WCD. 12. The article of manufacture of claim 11, wherein the single HARQ acknowledgment message is a positive acknowledgment message that indicates that each of the plurality of HARQ subpackets was successfully received by the recipient. 13. The article of manufacture of claim 11, wherein the single HARQ acknowledgment message is a negative acknowledgment message that indicates that at least one of the plurality of HARQ subpackets was not successfully received by the recipient. 14. The article of manufacture of claim 9, wherein the RAN communicates over the wireless air interface using a time division duplex (TDD) wireless channel in which the forward-direction traffic is separated from reverse-direction traffic by allocation of different respective time slots in a particular frequency band. 15. The article of manufacture of claim 9, wherein the operations further comprise: determining that the wireless air interface is subject to at least a threshold amount of congestion; andin response to determining that the wireless air interface is subject to at least the threshold amount of congestion, assigning, to the relay base stations served by the RAN, further time-division-multiplexed slots of the wireless air interface that are subject to HARQ acknowledgment bundling. 16. The article of manufacture of claim 15, wherein determining that the wireless air interface is subject to at least the threshold amount of congestion comprises determining that a queue associated with forward-direction traffic waiting for transmission to the relay base stations has at least a threshold occupancy. 17. A radio access network (RAN) device comprising: at least one processor;data storage; andprogram instructions, stored in the data storage, that upon execution by the at least one processor cause the RAN device to perform operations including:determining that a hybrid automatic repeat request (HARQ) transmission schedule of a wireless air interface defined by the RAN includes time-division-multiplexed slots that are subject to HARQ acknowledgment bundling and time-division-multiplexed slots that are not subject to HARQ acknowledgment bundling;assigning, to relay base stations served by the RAN, time-division-multiplexed slots of the wireless air interface that are not subject to HARQ acknowledgment bundling;assigning, to non-relay wireless communication devices (WCDs) served by the RAN, time-division-multiplexed slots of the wireless air interface that are subject to HARQ acknowledgment bundling; andtransmitting, over the air interface, HARQ subpackets according to the transmission schedule and assignments of time-division-multiplexed slots, wherein the RAN communicates, by way of the wireless air interface, (i) with the relay base stations using a first public land mobile network (PLMN) code, and (ii) with the non-relay WCDs using a second PLMN code, and wherein assigning the time-division-multiplexed slots that are not subject to HARQ acknowledgment bundling to the relay base stations is based on the first PLMN code, and assigning time-division-multiplexed slots that are subject to HARQ acknowledgment bundling to the non-relay WCDs is based on the second PLMN code. 18. The RAN device of claim 17, wherein the operations further include: determining that the wireless air interface is subject to at least a threshold amount of congestion; andin response to determining that the wireless air interface is subject to at least the threshold amount of congestion, assigning, to the relay base stations served by the RAN, further time-division-multiplexed slots of the wireless air interface that are subject to HARQ acknowledgment bundling. 19. The RAN device of claim 17, wherein (i) bearer traffic transmitted by the RAN to the relay base stations is subject to a first QOS class identifier (QCI), and (ii) bearer traffic transmitted by the RAN to the non-relay WCDs is subject to a second QCI, and wherein assigning time-division-multiplexed slots to relay base stations is based on the first QCI, and assigning time-division-multiplexed slots to non-relay WCDs is based on the second QCI. 20. The RAN device of claim 17, wherein the HARQ transmission schedule including HARQ acknowledgment bundling comprises, in response to a plurality of HARQ subpackets that the RAN transmits to a recipient, the RAN receiving a single HARQ acknowledgment message from the recipient, and wherein the recipient is a non-relay WCD.