Advanced Antenna Systems for Spatial Listen-Before-Talk

1 .- 32 . (canceled) 33 . A method, performed by a network node, for transmitting data on a shared channel in a wireless network, the method comprising: performing a plurality of listen-before-talk (LBT) assessments for a corresponding plurality of substantially disjoint subsets of resources of a shared channel; based on the plurality of LBT assessments and on respective thresholds related to respective sizes of the plurality of resource subsets, determining that at least one of the resource subsets is available for transmission; and transmitting signals or data to one or more user equipment (UE) using only resources selected from the at least one resource subset determined to be available. 34 . The method of claim 33 , wherein at least two of the LBT assessments on corresponding at least two resource subsets are performed substantially simultaneously. 35 . The method of claim 34 , wherein: determining that at least one resource subset is available comprises determining that a plurality of resource subsets are available based on the substantially simultaneous LBT assessments; the signals or data are transmitted substantially simultaneously to a corresponding plurality of UEs; and transmission to each UE uses a different one of the available resource subsets. 36 . The method of claim 33 , wherein the LBT assessments are performed sequentially. 37 . The method of claim 33 , wherein: the plurality of resource subsets comprises a plurality of adjacent spatial regions having substantially non-overlapping ranges of azimuths and elevations; performing the plurality of LBT assessments comprises detecting energy levels of transmitted signals in the plurality of spatial regions using a corresponding plurality of spatial receive beams; and each spatial receive beam selectively filters the corresponding spatial region. 38 . The method of claim 37 , wherein: each spatial receive beam is associated with a gain; and determining that at least one resource subset is available comprises, for each spatial region: comparing a detected energy level to a spatial energy detection (ED) threshold that is based on the gain of the spatial receive beam used for the spatial region; and determining that the spatial region is available if the detected energy level is below the spatial ED threshold. 39 . The method of claim 38 , wherein for each spatial region, the spatial ED threshold is a channel ED threshold multiplied by the gain associated with the spatial receive beam used for the spatial region. 40 . The method of claim 38 , wherein for each spatial receive beam, the associated gain is based on the range of azimuth and elevation for the spatial region. 41 . The method of claim 40 , wherein: the plurality of adjacent spatial regions comprise a coverage area; and for each spatial region, the associated gain is based on: position of the spatial region relative to the center of the coverage area; and size of the spatial region relative to the coverage area. 42 . The method of claim 37 , wherein the signals or data is transmitted using respective spatial transmit beams corresponding to the spatial receive beams used for the LBT assessments in the spatial regions determined to be available. 43 . The method of claim 42 , wherein one of the following applies: each spatial receive beam and corresponding spatial transmit beam is associated with a beamforming index; or each spatial receive beam and corresponding spatial transmit beam is determined based on feedback from a UE. 44 . The method of claim 42 , wherein each spatial transmit beam is associated with: the spatial region of the corresponding spatial receive beam; and a transmit power based on the gain associated with the corresponding spatial receive beam. 45 . The method of claim 44 , wherein: for each spatial transmit beam, an associated spatial region is a subset of the spatial region of the corresponding spatial receive beam; and the subset is based on one or more of the following differences with the corresponding spatial receive beam: transmit power that is less than the associated gain; and angular pattern. 46 . The method of claim 42 , wherein: the network node is coupled to an antenna array comprising a plurality of antenna elements; and each spatial receive beam and corresponding spatial transmit beam is formed based on selective weighting of the plurality of antenna elements. 47 . The method of claim 33 , wherein: the plurality of resource subsets comprises a first plurality of adjacent spatial regions having substantially non-overlapping ranges of azimuths and elevations; performing the plurality of LBT assessments comprises detecting energy levels of transmitted signals in the first plurality of spatial regions using a second plurality of spatial receive beams; and each spatial receive beam selectively filters a different subset of multiple adjacent spatial regions comprising the first plurality. 48 . The method of claim 47 , wherein: determining that at least one resource subset is available comprises determining that at least one subset of multiple adjacent spatial regions is available; and the signals or data are transmitted using one or more spatial transmit beams that correspond to respective one or more spatial regions within the at least one subset determined to be available. 49 . The method of claim 47 , wherein each spatial transmit beam has a coverage area that extends beyond a coverage area of a spatial receive beam used to determine availability of a subset that includes a range of azimuths and elevations associated with the spatial transmit beam. 50 . The method of claim 33 , wherein: the plurality of resource subsets comprises a plurality of sub-bandwidths within a bandwidth of the shared channel; and performing the plurality of LBT assessments comprises detecting energy levels of transmitted signals in the plurality of sub-bandwidths using a corresponding plurality of frequency-selective filters. 51 . The method of claim 50 , wherein determining that at least one resource subset is available comprises, for each sub-bandwidth: comparing a detected energy level to a sub-bandwidth energy detection (ED) threshold that is based on the particular sub-bandwidth relative to the bandwidth of the shared channel; and determining that the particular sub-bandwidth is available if the detected energy level is below the sub-bandwidth ED threshold. 52 . The method of claim 51 , wherein the signals or data is transmitted within one or more of the sub-bandwidths determined to be available. 53 . The method of claim 50 , wherein: each sub-bandwidth comprises a plurality of resource blocks (RBs); the signals or data include one or more reference signals (RS) that are transmitted without data in a subset of the RBs comprising each sub-bandwidth; and performing the plurality of LBT assessments comprises, using a corresponding plurality frequency-selective filters, detecting energy levels of transmitted signals only in in the subset of the RBs that include the RS. 54 . The method of claim 53 , wherein determining that at least one resource subset is available comprises, for each RB that includes a RS: comparing a detected energy level to an RB energy detection (ED) threshold that is based on a channel ED threshold and a factor related to having no data in the RB; and determining that the particular RB is available if the detected e