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Decoupled downlink reception and uplink reception in a mixed licensed carrier and unlicensed carrier wireless communication system

專利號(hào)
US10219296B2
公開日期
2019-02-26
申請(qǐng)人
Telefonaktiebolaget LM Ericsson (publ)(SE Stockholm)
發(fā)明人
Gabor Fodor; Muhammad Kazmi
IPC分類
H04W72/14; H04W16/14; H04W72/12; H04W84/04
技術(shù)領(lǐng)域
uplink,wireless,lpn,downlink,hpn,carrier,device,resources,in,f2
地域: Stockholm

摘要

Systems and methods related to Downlink-Uplink Decoupling (DUDe) in mixed licensed and unlicensed carrier wireless system are disclosed. In some embodiments, a method of operating a wireless device comprises communicating with a first radio node that operates on a licensed carrier to obtain a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the licensed carrier and/or a set of time resources in which the wireless device is expected to receive downlink control transmission on the licensed carrier. The method further comprises communicating with a second radio node that operates on an unlicensed carrier to obtain, based on the set(s) of time resources for the licensed carrier, a set of time resources in which the wireless device will not be scheduled for downlink reception on the unlicensed carrier and receiving a downlink transmission from the second radio node accordingly.

說明書

This application is a 35 U.S.C. § 371 national phase filing of International Application No. PCT/EP2016/080081, filed Dec. 7, 2016, the disclosure of which is incorporated herein by reference in its entirety.

TECHNICAL FIELD

The present disclosure relates to Downlink-Uplink Decoupling (DUDe) in a mixed licensed carrier and unlicensed carrier wireless communication system.

BACKGROUND

權(quán)利要求

1
What is claimed is:1. A method of operation of a wireless device to provide decoupling of downlink reception and uplink transmission in a mixed licensed carrier and unlicensed carrier wireless communications system, comprising:communicating with a first radio node that operates on a first carrier frequency in a licensed band to obtain a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency and/or a set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency;communicating with a second radio node that operates on a second carrier frequency in an unlicensed band to obtain, based on the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency and/or the set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency, a set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency; andreceiving a downlink data transmission from the second radio node on the second carrier frequency in a time resource that is not in the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency.2. The method of claim 1 further comprising:deciding, based on the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency and the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency, one or more suitable time resources for uplink control transmission on the second carrier frequency; andtransmitting, subject to a listen-before-talk procedure, an uplink control transmission on the second carrier frequency in at least one of the one or more suitable time resources for uplink control transmission on the second carrier frequency.3. The method of claim 1 wherein the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency is a set of subframes in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency, and communicating with the first radio node comprises:receiving, from the first radio node, a frame number and/or a subframe number that identifies each subframe of the set of subframes in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency.4. The method of claim 1 wherein:communicating with the first radio node comprises obtaining, from the first radio node, a set of uplink precoding vectors and receive beamforming parameters expected to be used in the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency;wherein communicating with the second radio node that operates on the second carrier frequency in the unlicensed band to obtain the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency is further based on the set of uplink precoding vectors and/or receive beamforming parameters expected to be used in the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency.5. The method of claim 1 wherein communicating with the second radio node that operates on the second carrier frequency in the unlicensed band to obtain the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency comprises:sending, to the second radio node, the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency and/or the set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency; andreceiving, from the second radio node, the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency.6. The method of claim 1 further comprising:communicating with the first radio node to agree on a set of time resources in which there will be no uplink transmission from the wireless device on the second carrier frequency.7. The method of claim 1 further comprising:communicating with the first radio node to agree on a set of time resources in which beamforming for uplink transmission from the wireless device on the second carrier frequency is limited.8. The method of claim 1 wherein:the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency is a set of subframes, a set of time slots, a set of symbols, or a set of transmission time intervals;the set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency is a set of subframes, a set of time slots, a set of symbols, or a set of transmission time intervals; and/orthe set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency is a set of subframes, a set of time slots, a set of symbols, or a set of transmission time intervals.9. The method of claim 1 wherein:the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency is a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency over a future period of time that is greater than a delay between an uplink grant and a corresponding uplink transmission on the first carrier frequency; and/orthe set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency is a set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency over a future period of time that is greater than a delay between an uplink grant and a corresponding uplink transmission on the first carrier frequency.10. The method of claim 1 wherein:the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency is a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency over a future period of time that is greater than or equal to at least one radio frame; and/orthe set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency is a set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency over a future period of time that is greater than or equal to at least one radio frame.11. A wireless device for providing decoupling of downlink reception and uplink transmission in a mixed licensed carrier and unlicensed carrier wireless communications system, comprising:a transceiver;at least one processor; andmemory comprising instructions executable by the at least one processor whereby the wireless device is operable to:communicate with a first radio node that operates on a first carrier frequency in a licensed band to obtain a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency and/or a set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency;communicate with a second radio node that operates on a second carrier frequency in an unlicensed band to obtain, based on the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency and/or the set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency, a set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency; andreceive a downlink data transmission from the second radio node on the second carrier frequency in a time resource that is not in the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency.12. A method of operation of a radio node to provide decoupling of downlink reception and uplink transmission in a mixed licensed carrier and unlicensed carrier wireless communications system, comprising:communicating with a wireless device to agree, based on a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission to another radio node on a first carrier frequency in a licensed band and/or a set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency, a set of time resources in which the wireless device will not be scheduled for downlink reception from the radio node on a second carrier frequency in an unlicensed band; andtransmitting a downlink data transmission to the wireless device on the second carrier frequency in a time resource that is not in the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency.13. The method of claim 12 wherein communicating with the wireless device comprises:receiving, from the wireless device, the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency and/or the set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency; andsending, to the wireless device, the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency.14. The method of claim 12 further comprising communicating with the other radio node regarding time resources reserved for downlink transmission on the first carrier frequency and/or time resources reserved for downlink transmission on the second carrier frequency.15. The method of claim 12 further comprising communicating with the other radio node regarding time resources reserved for uplink transmission on the first carrier frequency and/or time resources reserved for uplink transmission on the second carrier frequency.16. The method of claim 12 wherein:the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency is a set of subframes, a set of time slots, a set of symbols, or a set of transmission time intervals;the set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency is a set of subframes, a set of time slots, a set of symbols, or a set of transmission time intervals; and/orthe set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency is a set of subframes, a set of time slots, a set of symbols, or a set of transmission time intervals.17. The method of claim 12 wherein:the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency is a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency over a future period of time that is greater than a delay between an uplink grant and a corresponding uplink transmission on the first carrier frequency; and/orthe set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency is a set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency over a future period of time that is greater than a delay between an uplink grant and a corresponding uplink transmission on the first carrier frequency.18. The method of claim 12 wherein:the set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency is a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission on the first carrier frequency over a future period of time that is greater than or equal to at least one radio frame; and/orthe set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency is a set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency over a future period of time that is greater than or equal to at least one radio frame.19. A radio node for providing decoupling of downlink reception and uplink transmission in a mixed licensed carrier and unlicensed carrier wireless communications system, comprising:at least one processor; andmemory comprising instructions executable by the at least one processor whereby the radio node is operable to:communicate with a wireless device to agree, based on a set of time resources in which the wireless device is expected to be scheduled for uplink data transmission to another radio node on a first carrier frequency in a licensed band and/or a set of time resources in which the wireless device is expected to receive downlink control transmission on the first carrier frequency, a set of time resources in which the wireless device will not be scheduled for downlink reception from the radio node on a second carrier frequency in an unlicensed band; andtransmit a downlink data transmission to the wireless device on the second carrier frequency in a time resource that is not in the set of time resources in which the wireless device will not be scheduled for downlink reception on the second carrier frequency.
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