CSI reporting based on linear combination codebook

The invention claimed is: 1. A method performed by a user equipment (UE) for generating a channel state information (CSI) report in a wireless communication system, the method comprising: receiving from a network node, a CSI report configuration information including at least one parameter, D, for indicating a first basis set of D basis vectors used for constructing for each transmission layer a precoding vector or matrix for a rank set, wherein the first basis set is a subset of a basis set comprising N 3 basis vectors, each vector of size N 3 ×1, wherein D<N 3 , and N 3 is a number of subbands; identifying a precoding vector or matrix for each transmission layer based on the first basis set, a second basis set comprising P basis vectors, and a number of combining coefficients for combining selected vectors from the first and second basis sets; generating a CSI report based on the CSI report configuration information for a rank indication value (RI) or v of the rank set, wherein the CSI report comprises for each transmission layer or subsets of transmission layers or all transmission layers an indication of a subset of P′ selected basis vectors from the second basis set, wherein P′<P or P′≤P, and for each of the P′ basis vectors an indication of D′<D or D′≤D selected basis vectors from the first basis set, wherein a maximum number, K 0 , of combining coefficients per layer, or subset of layers, or all layers of the precoding vector or matrix contained in the CSI report is defined by K 0 =αP, wherein α<1 or a α∈{0.5,0.75, 1,1.25,1.5,2}; and transmitting the CSI report to the network node. 2. The method according to claim 1 , wherein the CSI report comprises K 1 combining coefficients per layer, wherein K 1 is selected from K 0 combining coefficients, and wherein K 1 is reported by the UE. 3. The method according to claim 1 , wherein the CSI report comprises K 1 combining coefficients across all layers, wherein K 1 is selected from 2K 0 combining coefficients, and wherein K 1 is reported by the UE. 4. The method according to claim 1 , wherein the number of selected basis vectors, P l ′, from the second basis set per transmission layer satisfies a sum constraint across all RI transmission layers, wherein the total number of basis vectors selected from the second basis set across all layers is smaller or equal than a value, R, with R being a positive integer. 5. The method according to claim 1 , wherein the CSI report comprises at least two parts, CSI part 1 and CSI part 2, wherein the first part, CSI part 1, has a fixed payload size and indicates the size of second part, CSI part 2, and CSI part 1 comprises an indication of the total number of selected basis vectors from the second basis set across all layers of the precoding vector or matrix. 6. The method according to claim 5 , wherein the UE is configured to determine a common basis set comprising at least the selected basis vectors from the second basis set across all RI transmission layers, and to indicate the basis vectors of the common basis set and the basis vectors selected from the common basis set for each transmission layer of the precoding vector or matrix in the CSI report. 7. The method according to claim 5 , wherein the basis vectors of the second basis set are grouped into B basis subsets, wherein each basis subset comprises a number of basis vectors, and the UE is configured to select b l basis subsets out of the B basis subsets per layer for the precoding vector or matrix and to indicate the selected b l basis subsets in the CSI report. 8. The method according to claim 1 , wherein the UE is configured to determine a common basis set comprising at least the selected basis vectors from the second basis set across all RI transmission layers, and to indicate the basis vectors of the common basis set and the basis vectors selected from the common basis set for each transmission layer of the precoding vector or matrix in the CSI report. 9. The method according to claim 1 , wherein the basis vectors of the second basis set are grouped into B basis subsets, wherein each basis subset comprises a number of basis vectors, and the UE is configured to select b l basis subsets out of the B basis subsets per layer for the precoding vector or matrix and to indicate the selected b l basis subsets in the CSI report. 10. The method according to claim 9 , wherein the UE is configured to select a number of basis vectors per layer within each selected basis subset and to indicate the selected basis vectors in the CSI report. 11. A method performed by a network node for receiving a channel state information (CSI) report generated by a user equipment (UE) in a wireless communication system, the method comprising: sending, to the UE, CSI report configuration information including at least one parameter, D, for indicating a first basis set of D basis vectors used for constructing for each transmission layer a precoding vector or matrix for a rank set, wherein the first basis set is a subset of a basis set comprising N 3 basis vectors, each vector of size N 3 ×1, wherein D<N 3 , and N 3 is a number of subbands; and receiving the CSI report from the UE, wherein the CSI report is based on the CSI report configuration information for a rank indication, value, RI, or v of the rank set, and wherein the CSI report comprises for each transmission layer or subsets of transmission layers or all transmission layers an indication of a subset of P′ selected basis vectors from the second basis set, wherein P′<P or P′≤P, and for each of the P′ basis vectors an indication of D′<D or D′≤D selected basis vectors from the first basis set, wherein a maximum number, K 0 , of combining coefficients per layer, or subset of layers, or all layers of the precoding vector or matrix contained in the CSI report is defined by K 0 =αP, wherein α<1 or α∈{0.5,0.75, 1,1.25,1.5,2}. 12. A user equipment (UE) in a wireless communication system adapted to generate a channel state information (CSI) report, the UE being enabled to: receive from a network node, like a base station, CSI report configuration information including at least one parameter, D, for indicating a first basis set of D basis vectors used for constructing for each transmission layer a precoding vector or matrix for a rank set, wherein the first basis set is a subset of a basis set comprising N 3 basis vectors, each vector of size N 3 ×1, wherein D<N 3 , and N 3 is a number of subbands; identify a precoding vector or matrix for each transmission layer based on the first basis set, a second basis set comprising P basis vectors, and a number of combining coefficients for combining selected vectors from the first and second basis sets; generate a CSI report based on the CSI report configuration information for a rank value RI or v of the rank set, wherein the CSI report comprises for each transmission layer or subsets of transmission layers or all transmission layers an indication of a subset of P′ selected basis vectors from the second basis set, wherein P′<P or P′≤P, and for each of the P′ basis vectors an indication of D′<D or D′≤D selected basis vectors from the first basis set, wherein a maximum number, K 0 , of combining coefficients per layer, or subset of layers, or all layers of the precoding vector or matrix contained in the CSI report is defined by K 0 =αP, wherein α<1 or α∈{0.5,0.75, 1,1.25,1.5,2}; and transmit the CSI report to the network node. 13. A User Equipment (UE) comprising a processor and a memory, said memory containing instructions executable by said processor whereby said UE is operative to: receive from a network node, a channel state information (CSI)