Precoding-codebook-based secure uplink in LTE

What is claimed is: 1. A method of Precoding-codebook-based Secure Uplink (PSU), the method comprising: (a) receiving a first reference signal via a first downlink channel by a user equipment (UE) in a mobile communication network; (b) performing channel estimation based on the first reference signal and thereby obtaining a first channel response matrix H BU of the first downlink channel; (c) generating secrecy information and encoding the secrecy information onto a second reference signal via matching the secrecy information to a plurality of precoding matrix indexes (PMIs) of the first downlink channel; and (d) transmitting the second reference signal via a second uplink channel, wherein the secrecy information is hidden in the second uplink channel through a precoding operation such that the secrecy information can be extracted when the second uplink channel is reciprocal to the first downlink channel, wherein the precoding operation involves generating the second reference signal based on H BU and the plurality of PMIs, wherein the secrecy information comprises a plurality of bits grouped into a plurality of bit sequences with equal length, wherein each bit sequence is mapped to a Precoding Matrix Index (PMI) according to a predefined codebook, wherein the second reference signal is a rotated version of Demodulation Reference Signals (DMRSs), and wherein the rotation is based at least in part on precoding matrixes having corresponding PMIs. 2. The method of claim 1 , wherein a Singular Value Decomposition (SVD) of the H BU comprises a right singular matrix U BU , and wherein the rotation is based at least in part on the U BU . 3. The method of claim 1 , wherein the secrecy information is extracted by finding the nearest precoding matrixes in the predefined codebook based on a vector-wise Chordal distance measure. 4. The method of claim 1 , wherein the first reference signal is rotated with a random unitary matrix. 5. The method of claim 1 , wherein the UE enables PSU for secure data transmission, and wherein the UE disables PSU for normal data transmission. 6. A user equipment (UE), comprising: a receiver that receives a first reference signal via a first downlink channel in a mobile communication network; a channel estimation module that performs channel estimation based on the first reference signal and thereby obtaining a first channel response matrix H BU of the first downlink channel; an encoder that encodes generated secrecy information onto a second reference signal via matching the secrecy information to a plurality of precoding matrix indexes (PMIs) of the first downlink channel; and a transmitter that transmits the second reference signal via a second uplink channel, wherein the secrecy information is hidden in the second uplink channel through a precoding operation such that the secrecy information can be extracted when the second uplink channel is reciprocal to the first downlink channel, wherein the precoding operation involves generating the second reference signal based on H BU and the plurality of PMIs, wherein the secrecy information comprises a plurality of bits grouped into a plurality of bit sequences with equal length, wherein each bit sequence is mapped to a Precoding Matrix Index (PMI) according to a predefined codebook, wherein the second reference signal is a rotated version of Demodulation Reference Signals (DMRSs), and wherein the rotation is based at least in part on precoding matrixes having corresponding PMIs. 7. The UE of claim 6 , wherein a Singular Value Decomposition (SVD) of the H BU comprises a right singular matrix U BU , and wherein the rotation is based at least in part on the U BU . 8. The UE of claim 6 , wherein the secrecy information is extracted by finding the nearest precoding matrixes in the predefined codebook based on a vector-wise Chordal distance measure. 9. The UE of claim 6 , wherein the first reference signal is rotated with a random unitary matrix. 10. The UE of claim 6 , wherein the UE enables PSU for secure data transmission, and wherein the UE disables PSU for normal data transmission. 11. A method of performing secret communication, the method comprising: (a) transmitting a first reference signal via a first downlink channel by a base station in a mobile communication network; (b) receiving a second reference signal via a second uplink channel, wherein the second reference signal contains encoded secrecy information hidden in the uplink channel through a precoding operation, wherein the secrecy information is encoded via matching the secrecy information to a plurality of precoding matrix indexes (PMIs) of the first downlink channel; (c) performing channel estimation based on the second reference signal, wherein the second uplink channel is reciprocal to the first downlink channel; and (d) extracting the secrecy information from the second reference signal, wherein the secrecy information is hidden in the second uplink channel through a precoding operation, and wherein the precoding operation involves generating the second reference signal based on the first downlink channel and the plurality of PMIs, wherein the secrecy information comprises a plurality of bits grouped into a plurality of bit sequences with equal length, wherein each bit sequence is mapped to a Precoding Matrix Index (PMI) according to a predefined codebook, wherein the second reference signal is a rotated version of Demodulation Reference Signals (DMRSs), and wherein the rotation is based at least in part on precoding matrixes having corresponding PMIs. 12. The method of claim 11 , wherein the first reference signal is rotated with a random unitary matrix. 13. The method of claim 12 , wherein the base station either generates the random unitary matrix among a frequency band for a fixed time, or generates the random unitary matrix periodically for a fixed frequency. 14. The method of claim 11 , wherein the extracting in (d) involves finding the nearest precoding matrixes in the predefined codebook based on a vector-wise Chordal distance measure.