Abstract
Embodiments of a network User Equipment (nUE), wearable User Equipment (wUE), and methods for sidelink communication are generally described herein. The nUE may transmit a control channel that allocates a subframe as either a downlink subframe or an uplink subframe for a sidelink communication between the nUE and a wearable User Equipment (wUE). When the control channel allocates the subframe as a downlink subframe, the nUE may contend for access to channel resources. The contention may include transmission of a transmitter resources acquisition and sounding (TAS) channel in a physical resource block (PRB) and an attempted detection of a receiver resources acquisition and sounding (RAS) channel from the wUE in the PRB. When the control channel allocates the subframe as an uplink subframe, the wUE may contend for access to the channel resources.
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5G | 06/12/2020 | ISLD-202012-008 | APPLE INC |
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5G | 06/12/2020 | ISLD-202012-008 | APPLE INC |
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5G | 08/01/2024 | ISLD-202311-023 | APPLE INC |
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Specification Information
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WO2017146780A1 | 5G | 06/12/2020 | ISLD-202012-008 | APPLE INC |
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WO2017146780A1 | 5G | 08/01/2024 | ISLD-202311-023 | APPLE INC |
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WO2017146780A1 | 5G | 28/12/2017 | ISLD-201712-046 | INTEL CORP |
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WO2017146780A1 | 5G | 27/12/2017 | ISLD-201712-055 | INTEL CORP |
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WO2017146780A1 | 5G | 27/12/2017 | ISLD-201712-057 | INTEL CORP |
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WO2017146780A1 | 5G | 28/12/2017 | ISLD-201712-060 | INTEL CORP |
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WO2017146780A1 | 5G | 28/12/2017 | ISLD-201712-060 | INTEL CORP |
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WO2017146780A1 | 5G | 28/12/2017 | ISLD-201712-060 | INTEL CORP |
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US11082950B2 | 5G | 06/12/2020 | ISLD-202012-008 | APPLE INC |
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US11082950B2 | 5G | 06/12/2020 | ISLD-202012-008 | APPLE INC |
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US11082950B2 | 5G | 08/01/2024 | ISLD-202311-023 | APPLE INC |
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Publication No | Technology | Declaration Information | Specification Information | Explicitly Disclosed | Patent Type | Status | National Phase Entries | |||||
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Technologies
Product
Use Cases
Services
Claim
1. An apparatus of a network User Equipment (nUE), the apparatus comprising: memory; and processing circuitry, configured to:
encode, for transmission during a subframe, a control channel that allocates the subframe as either a downlink subframe or an uplink subframe for a sidelink communication between the nUE and a wearable User Equipment (wUE); when the control channel allocates the subframe as a downlink subframe:
encode, for transmission in a physical resource block (PRB) of channel resources comprising multiple PRBs, a transmitter resources acquisition and sounding (TAS) channel to contend for access to the channel resources;
attempt to detect a receiver resources acquisition and sounding (RAS) channel from the wUE in the PRB; and
determine whether to transmit data to the wUE based at least partly on whether the RAS channel from the wUE is detected;
when the control channel allocates the subframe as an uplink subframe:
attempt to detect a TAS channel from the wUE in the PRB; and
when the TAS channel from the wUE is detected in the PRB, encode a RAS channel for transmission to the wUE in the PRB.
2. The apparatus according to claim 1, the processing circuitry further configured to, when the control channel allocates the subframe as a downlink subframe:
when the RAS channel is detected, transmit the data to the wUE in a physical resource allocation (PRA) of one or more PRBs, including the PRB used for transmission of the TAS channel; and refrain from transmission of the data to the wUE when the RAS channel is not detected.
3. The apparatus according to claim 2, wherein:
the RAS channel from the wUE indicates a modulation and coding scheme (MCS), and the data is transmitted in accordance with the indicated MCS.
4. The apparatus according to claim 2, the processing circuitry further configured to:
when the control channel allocates the subframe as an uplink subframe:
when the TAS channel from the wUE is not detected in the PRB, refrain from encoding of the RAS channel for transmission to the wUE; and
when the TAS channel from the wUE is detected in the PRB, decode data received from the wUE during the PRB.
5. The apparatus according to claim 1, wherein:
the control channel is transmitted in a control physical resource allocation (PRA) that includes one or more PRBs, when the control channel allocates the subframe as a downlink subframe, the control PRA is based on the nUE and the control channel is scrambled by an identifier of the nUE, and when the control channel allocates the subframe as an uplink subframe, the control PRA is based on the wUE and the control channel is scrambled by an identifier of the wUE.
6. The apparatus according to claim 1, wherein:
the TAS channel encoded by the nUE, the RAS channel encoded by the nUE, the TAS channel from the wUE, and the RAS channel from the wUE are scrambled by an identifier of the wUE.
7. The apparatus according to claim 1, wherein:
the channel resources comprise multiple PRBs, and the processing circuitry is further configured to, when the control channel allocates the subframe as a downlink subframe:
encode a plurality of TAS channels for per-PRB transmissions in a plurality of PRBs to contend for access to the plurality of PRBs;
attempt to detect RAS channels in the plurality of PRBs on a per-PRB basis; and
determine whether to transmit data based on the attempted detection of the RAS channels.
8. The apparatus according to claim 7, wherein when the control channel allocates the subframe as a downlink subframe, the TAS channels are encoded for transmission to contend for access to the channel resources for multiple data transmissions to the wUE.
9. The apparatus according to claim 7, wherein when the control channel allocates the subframe as a downlink subframe, the TAS channels are encoded for transmission to contend for access to the channel resources for at least one data transmission to each wUE of a plurality of wUEs.
10. The apparatus according to claim 7, wherein:
the plurality of PRBs is a first plurality of PRBs, the processing circuitry is further configured to, when the control channel allocates the subframe as an uplink subframe:
attempt to detect a TAS channel from the wUE in each PRB of a second plurality of PRBs; and
in each PRB of the second plurality on which the TAS channel is successfully detected, encode a RAS channel for transmission in the PRB.
11. The apparatus according to claim 1, wherein:
the control channel includes an uplink/downlink (UL/DL) indicator that indicates whether the subframe is allocated as an uplink subframe or downlink subframe, the TAS channel includes a new data indicator (NDI) that indicates whether a data transmission is a new data transmission or a retransmission, and the RAS channel includes a modulation and coding scheme (MCS) and a downlink power headroom (PHR) measurement.
12. The apparatus according to claim 1, wherein:
the subframe is included in a frame that comprises a plurality of subframes, the processing circuitry is further configured to determine, on a per-subframe basis, whether the subframes of the plurality are to be used as either downlink subframes usable for transmission of downlink data from the nUE to the wUE or as uplink subframes usable for transmission of uplink data from the wUE to the nUE.
13. The apparatus according to claim 1, wherein the subframe comprises:
a TAS portion allocated for per-PRB transmissions of TAS channels by nUEs and/or wUEs attempting to access the channel resources, a RAS portion allocated for per-PRB transmissions of RAS channels in response to the TAS channels, and a data portion allocated for transmissions of data based on receptions of the RAS channels.
14. The apparatus according to claim 1, wherein:
the processing circuitry is further configured to determine a reference timing for the sidelink communication based on at least one of:
one or more signals exchanged with an Evolved Node-B (eNB) in a network communication,
one or more signals received from another nUE, or
an internally generated reference timing, and
the subframe is aligned in accordance with the reference timing for the sidelink communication.
15. The apparatus according to claim 1, wherein the nUE is arranged to operate in accordance with a Fifth Generation (5G) New Radio (NR) Things protocol.
16. The apparatus according to claim 1, wherein the apparatus further includes a transceiver to transmit the control channel.
17. The apparatus according to claim 1, wherein the processing circuitry includes a baseband processor to encode the control channel.
18. A computer-readable storage medium that stores instructions for execution by one or more processors to perform operations for communication by a network User Equipment (nUE), the operations to configure the one or more processors to:
allocate subframes of a frame as downlink frames or uplink frames for a sidelink communication between the nUE and one or more wearable User Equipment (wUE), the allocation on a per-subframe basis; during the subframes allocated as downlink subframes:
contend for access to channel resources for data transmissions, the channel resources comprising multiple physical resource blocks (PRBs), the contention based on per-PRB transmissions of transmitter resources acquisition and sounding (TAS) channels and per-PRB detections of receiver resources acquisition and sounding (RAS) channels responsive to the TAS channels; and
during the subframes allocated as uplink subframes:
monitor one or more PRBs for TAS channels from one or more wUEs contending for access; and
encode RAS channels for per-PRB transmission in response to detected TAS channels.
19. The computer-readable storage medium according to claim 18, wherein the subframes are allocated as downlink frames or uplink frames based at least partly on sizes of downlink data to be transmitted to the one or more wUEs and/or sizes of uplink data to be received from the one or more wUEs.
20. An apparatus of a wearable User Equipment (wUE), the apparatus comprising: memory; and processing circuitry, configured to:
decode a control channel received from a network User Equipment (nUE) during a subframe, wherein the control channel allocates the subframe as either a downlink subframe or an uplink subframe for a sidelink communication between the nUE and the wUE; when the control channel allocates the subframe as an uplink subframe:
encode, for transmission in a physical resource block (PRB) of channel resources that comprises multiple PRBs, a transmitter resources acquisition and sounding (TAS) channel to contend for access to the PRB;
attempt to detect a receiver resources acquisition and sounding (RAS) channel from the nUE in the PRB; and
determine, based at least partly on whether the RAS channel from the nUE is detected, whether to transmit data to the nUE in a physical resource allocation (PRA) of one or more PRBs, including the PRB used for the TAS channel;
when the control channel allocates the subframe as a downlink subframe:
attempt to detect a TAS channel from the nUE in the PRB; and
when the TAS channel from the nUE is detected in the PRB, encode a RAS channel for transmission to the nUE in the PRB.
21-26. (canceled)
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The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)
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Explicitly disclosed patent:openly and comprehensibly describes all details of the invention in the patent document.
Implicitly disclosed patent:does not explicitly state certain aspects of the invention, but still allows for these to be inferred from the information provided.
Basis patent:The core patent in a family, outlining the fundamental invention from which related patents or applications originate.
Family member:related patents or applications that share a common priority or original filing.