Abstract
An evolved NodeB (eNB) for transmitting signals in a Licensed-Assisted Access (LAA) serving cell is described. The eNB includes a processor and memory in electronic communication with the processor. Instructions stored in the memory are executable to perform carrier sensing at least in a minimum clear channel assessment (MCCA) slot. A subframe includes N baseline MCCA timeslots where N is a positive integer. The MCCA slot includes one of the baseline MCCA timeslots.
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5G | 27/08/2020 | ISLD-202008-013 | SHARP CORPORATION |
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US2016338104A1 | 5G | 27/08/2020 | ISLD-202008-013 | SHARP CORPORATION |
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WO2016183497A1 | 5G | 27/08/2020 | ISLD-202008-013 | SHARP CORPORATION |
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Claim
1. An evolved NodeB (eNB) for transmitting signals in a Licensed-Assisted Access (LAA) serving cell, comprising:
a processor; and
a memory in electronic communication with the processor, wherein instructions stored in the memory are executable by the processor to:
configure one or more unlicensed LAA cell from a licensed long term evolution (LTE) cell;
determine sizes for at least one of a minimum clear channel assessment (MCCA) slot, an initial clear channel assessment (ICCA) slot and a defer period,
wherein the MCCA slot is synchronized and has a size that is a fraction of an orthogonal frequency division multiplexing (OFDM) symbol length, and lengths of the ICCA slot and defer period are multiples of a length of the MCCA slot,
wherein the length of the MCCA slot is ? of a Long Term Evolution (LTE) OFDM symbol, and the length of the ICCA slot is � of an LTE OFDM symbol;
determine a slot structure with a baseline MCCA slot of an unlicensed LAA cell;
align and adjust a length of at least one of the ICCA slot and the defer period of the LAA cell based on the baseline MCCA slot; and
synchronize and align baseline MCCA slots of multiple LAA cells managed by the eNB.
2. The eNB of claim 1, wherein the slot structure of all LAA cells are synchronized and aligned with the MCCA slot as a fraction of an OFDM symbol.
3. The eNB of claim 1, wherein the length of the defer period is the same as the ICCA slot.
4. The eNB of claim 1, wherein the length of the defer period is at least the length of the ICCA slot, and is calculated based on the access category of the packet or traffic to be transmitted.
5. The eNB of claim 1, wherein the MCCA slot and ICCA slot size are specified with a fixed length that cannot be divided by the length of an OFDM symbol.
6. The eNB of claim 5, wherein the slot structure of a LAA cell is synchronized and aligned with the MCCA slot with a possible merged slot that is longer than the MCCA slot.
7. The eNB of claim 6, wherein the alignment is performed from the end of an OFDM symbol boundary, and the possible merged slot is located at the beginning of an OFDM symbol length.
8. The eNB of claim 6, wherein the alignment is performed from a beginning of an OFDM symbol boundary, and the possible merged slot is located at an end of an OFDM symbol length.
9. The eNB of claim 6, wherein the alignment is performed from the end of a subframe boundary, and the possible merged slot is located at the beginning of a subframe length.
10. The eNB of claim 6, wherein the alignment is performed from the beginning of a subframe boundary, and the possible merged slot is located at the end of a subframe length.
11. The eNB of claim 6, wherein an actual length of at least one of the ICCA slot and the defer period is adjusted and expended according to the baseline MCCA slot structure.
12. The eNB of claim 1, wherein a frame based equipment (FBE) access method is configured for a LAA cell, and the ICCA slot is used for listen-before-talk (LBT) before a subframe allowed for transmission.
13. The eNB of claim 1, wherein an FBE access method is configured for a LAA cell, and the defer period is used for LBT before a subframe allowed for transmission based on the access category of the pending packet or traffic.
14. The eNB of claim 1, wherein both load based equipment (LBE) and FBE access methods are configured for the LAA cells, and the ICCA slot used for LBT before a subframe allowed for transmission for a FBE LAA cell is adjusted based on the CCA slot structure of LBE LAA cells.
15. The eNB of claim 1, wherein both LBE and FBE access methods are configured for the LAA cells, and the CCA slot structure of LBE LAA cells are adjusted with the initial CCA slot used for LBT before a subframe allowed for transmission for a FBE LAA cell.
16. The eNB of claim 1, wherein the CCA slot structure and alignment method are specified or signaled to LAA UEs by higher layer signaling.
17. The eNB of claim 1, wherein the CCA slot structure and alignment method are applied for LAA downlink transmissions.
18. The eNB of claim 1, wherein the CCA slot structure and alignment method are applied for LAA uplink transmissions.
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The information in blue was extracted from the third parties (Standard Setting Organisation, Espacenet)
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