Codebook design and structure for advanced wireless communication systems

What is claimed: 1 . A user equipment (UE) capable of communicating with a base station, the UE comprising: a transceiver configured to: receive downlink signals indicating precoder codebook parameters, the downlink signal including: first and second quantities of antenna ports indicating respective quantities of antenna ports in first and second dimensions; first and second oversampling factors indicating respective oversampling factors for DFT beams in the first and second dimensions; either at least one beam group configuration among a plurality of beam group configurations or first and second quantities of beams indicating respective quantities of beams in the first and second dimensions forming a beam group; and first and second beam skip numbers indicating respective differences of leading beam indices of two adjacent beam groups in the first and second dimensions; and a controller configured to: determine a precoder, using the received precoder codebook configuration; determine a plurality of precoding matrix indicators (PMIs) based on the received downlink signals; and cause the transceiver to transmit uplink signals containing the plurality of PMIs to the base station. 2 . The UE of claim 1 , wherein the transceiver is further configured to: receive first and second beam spacing numbers indicating a respective difference of two adjacent beam indices within each beam group in the first and second dimensions. 3 . The UE of claim 1 , wherein the transceiver is further configured to: receive first and second codebook restriction parameters indicating a restriction on at least one of beam skipping performed based on the first and second beam skip numbers, beam spacing performed based on the first and second beam spacing numbers, and beam grouping performed based on at least one beam group configuration in the first and second dimensions, wherein each codebook restriction parameter is in a bitmap format. 4 . The UE of claim 1 , wherein the transceiver is further configured to: receive first and second quantities of subset beams indicating respective quantitites of subset beams in the first and second dimensions within each beam group of the configured codebook. 5 . The UE of claim 1 , wherein the transceiver is further configured to: receive a configuration number indicating one of a plurality of beam grouping schemes, each beam grouping scheme comprising a pattern of selected beams within each beam group of the configured codebook, wherein each beam grouping scheme has a different pattern of selected beams for different first and second quantities of subset beams. 6 . The UE of claim 5 , wherein the selected beams within each beam group are orthogonal to one another in at least one of first and second dimensions. 7 . The UE of claim 1 , wherein the UE is configured with the first and second dimension codebook parameters, and codebook restriction parameters via a higher-layer signaling. 8 . A base station capable of communicating with a user equipment (UE), the base station comprising: a transmitter configured to: transmit downlink signals indicating precoder codebook parameters, the downlink signal including: first and second quantitites of antenna ports indicating respective quantitites of antenna ports in the first and second dimensions; first and second oversampling factors indicating respective oversampling factors for DFT beams in the first and second dimensions; either at least one beam group configuration among a plurality of beam group configurations or first and second quantitites of beams indicating respective quantitites of beams in the first and second dimensions forming a beam group; and first and second beam skip numbers indicating respective differences of leading beam indices of two adjacent beam groups in the first and second dimensions; and a receiver configured to: receive uplink signals containing a plurality of precoding matrix indicators (PMIs) from the UE; and determine a precoder, using the received PMIs. 9 . The base station of claim 8 , wherein the transceiver is further configured to: transmit first and second beam spacing numbers indicating a respective difference of two adjacent beam indices within each beam group in the first and second dimensions. 10 . The base station of claim 8 , wherein the transceiver is further configured to: transmit first and second codebook restriction parameters indicating a restriction on at least one of beam skipping performed based on the first and second beam skip numbers, beam spacing performed based on the first and second beam spacing numbers, and beam grouping performed based on at least one beam group configuration in the first and second dimensions, wherein each codebook restriction parameter is in a bitmap format. 11 . The base station of claim 8 , wherein the transceiver is further configured to: transmit first and second quantities of subset beams indicating respective quantities of subset beams in the first and second dimensions within each beam group of the configured codebook. 12 . The base station of claim 8 , wherein the transceiver is further configured to: transmit a configuration number indicating one of a plurality of beam grouping schemes, each beam grouping scheme comprising a pattern of selected beams within each beam group of the configured codebook, wherein each beam grouping scheme has a different pattern of selected beams for different first and second quantities of subset beams. 13 . The base station of claim 12 , wherein the selected beams within each beam group are orthogonal to one another in at least one of first and second dimensions. 14 . The base station of claim 8 , wherein the base station transmits the first and second dimension codebook parameters and codebook restriction parameters via a higher-layer signaling. 15 . A method of operating a base station capable of communicating with a user equipment (UE), the method comprising: transmitting downlink signals indicating precoder codebook parameters, the downlink signal including: first and second quantitites of antenna ports indicating respective quantities of antenna ports in the first and second dimensions; first and second oversampling factors indicating respective oversampling factors for DFT beams in the first and second dimensions; either at least one beam group configuration among a plurality of beam group configurations or first and second quantities of beams indicating respective quantities of beams in the first and second dimensions forming a beam group; and first and second beam skip numbers indicating respective differences of leading beam indices of two adjacent beam groups in the first and second dimensions; receiving uplink signals containing a plurality of precoding matrix indicators (PMIs) from the UE; and determining a precoder, using the received PMIs. 16 . The method of claim 15 , the method further comprising: transmitting first and second beam spacing numbers indicating a respective difference of two adjacent beam indices within each beam group in the first and second dimensions. 17 . The method of claim 15 , the method further comprising: transmitting first and second codebook restriction parameters indicating a restriction on at least one of beam skipping performed based on the first and second beam skip numbers, beam spacing performed based on the first and second beam spacing numbers, and beam grouping performed based on at least one beam group configuration in the first and second dimensions, wherein e