Adaptive scheduling and HARQ management for cooperative transmissions
First Claim
1. A wireless transmit/receive unity (WTRU), comprising:
- a processor configured to;
receive a first transmission comprising first data on a first hop from an evolved NodeB (eNB),receive a second transmission comprising second data on a second hop from a relay node,combine and jointly decode the first data and the second data from the first and second transmissions, wherein a HARQ entity spanning across a first link between the WTRU and the eNB and a second link between the WTRU and the relay node shares a HARQ process including buffer space to enable the WTRU to combine and jointly decode the first and second data, andsend HARQ feedback for the first transmission and the second transmission.
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Accused Products
Abstract
Disclosed herein is HARQ management, scheduling, and measurements, among other things, for cooperative communication. For example, methods herein may be used in situations wherein relaying or helping mechanisms may comprise the use of a relay node which is part of a fixed infrastructure or a relay node which may be a mobile wireless transmit/receive unit (WTRU). In said situations, a first transmission with first data is established between an evolved NodeB (eNB) and a WTRU. A second transmission with second data is established between a relay node (RN) and the WTRU. Said first and second data are combined for decoding. A single HARQ feedback for said first and second transmissions is sent from the WTRU to the eNB.
5 Citations
14 Claims
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1. A wireless transmit/receive unity (WTRU), comprising:
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a processor configured to; receive a first transmission comprising first data on a first hop from an evolved NodeB (eNB), receive a second transmission comprising second data on a second hop from a relay node, combine and jointly decode the first data and the second data from the first and second transmissions, wherein a HARQ entity spanning across a first link between the WTRU and the eNB and a second link between the WTRU and the relay node shares a HARQ process including buffer space to enable the WTRU to combine and jointly decode the first and second data, and send HARQ feedback for the first transmission and the second transmission. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for cooperative transmission performed by, at least one of a wireless transmit/receive unit (WTRU) and an evolved Node B (eNB), the method comprising:
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receiving a first transmission comprising first data on a first hop, wherein the first transmission uses a first HARQ entity; receiving a second transmission comprising second data on a second hop, wherein the second transmission uses a second HARQ entity; combining and jointly decoding the first data and the second data from the first and second transmissions, wherein the first and second HARQ entities are coordinated and share a HARQ process including buffer space to enable the first and second data to be combined and jointly decoded; and sending HARQ feedback for the first transmission and the second transmission. - View Dependent Claims (9, 10, 11)
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12. A wireless transmit/receive unit (WTRU), comprising:
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a processor configured to; receive a first transmission on a first hop comprising first data at a first HARQ entity, receive a second transmission on a second hop comprising second data at a second HARQ entity, coordinate the first HARQ entity with the second HARQ entity to share a HARQ process including buffer space to enable the first data and the second data from the first and second transmissions to be combined and jointly decoded, and send HARQ feedback. - View Dependent Claims (13, 14)
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Specification