Systems and methods for polarization control using blind source separation

What is claimed is: 1. A method for analog polarization control using blind source separation (BSS), the method comprising: initializing a set of polarization control state variables; using a set of sample-and-hold and ADC circuits in a receiver to obtain a number of samples from XI, XQ, YI, and YQ branches of the receiver; accumulating the samples into a set of memory buffers; applying to the samples in the set of memory buffers complex independent component analysis (ICA) to perform BSS; factorizing a demixing matrix to obtain incremental angles; adding the incremental angles to the set of polarization control state variables to obtain updated polarization control state variables; and using the updated polarization control state variables to perform polarization control. 2. The method according to claim 1 , further comprising adjusting a demixing matrix to become unitary. 3. The method according to claim 1 , wherein obtaining updated polarization state variables comprises obtaining updated carrier phase state variables. 4. The method according to claim 1 , further comprising: in response to receiving a first set of output signals having a first phase and a second set of output signals having a second phase, rotating, by a first phase angle, the first phase of one or more signals in the first set of output signals relative to the second phase of one or more signals in the second set of output signals to generate a set of rotated signals; and rotating the set of rotated signals by a second phase angle to align the set of rotated signals with a polarization frame of reference. 5. The method according to claim 4 , wherein rotating the set of rotated signals reduces at least a component of the second set of output signals from the first set of output signals. 6. The method according to claim 4 , wherein rotating the first phase comprises adjusting a gain that is defined by a set of trigonometric weights that correspond to the first and second phase angles. 7. The method according to claim 6 , further comprising adjusting a polarity of the gain by adjusting relative transconductances of parallel differential amplifiers that are coupled in opposite polarities. 8. The method according to claim 6 , further comprising adjusting gains of one or more amplifiers or attenuators in a plurality of signal paths representing a complex number representation of amplitude and phase of each polarization component. 9. A blind source separation (BSS)-based analog polarization and carrier phase control system, the control system comprising: a polarization controller in a receiver; ADC circuits coupled to the polarization controller; sample-and-hold circuits coupled to the ADC circuits, the sample-and-hold and ADC circuits concurrently acquire a number of samples from XI, XQ, YI, and YQ branches of the receiver; a set of memory buffers coupled to the sample-and-hold circuits to accumulate samples, the polarization controller performing steps comprising: initializing a set of polarization control state variables and a set of carrier phase state variables; applying to the samples in the set of memory buffers complex independent component analysis (ICA) to perform BSS; factorizing a demixing matrix obtain incremental angles; adding the incremental angles to the set of polarization control state variables to obtain updated polarization control state variables; and using the updated polarization control state variables to perform polarization control. 10. The control system according to claim 9 , further comprising adjusting a demixing matrix to become unitary. 11. The control system according to claim 10 , further comprising an analog polarization control circuit that uses amplifiers having variable gain that uses trigonometric weights. 12. The control system according to claim 11 , wherein the analog polarization control circuit, in response to receiving a first set of polarization signals having a first phase and a second set of polarization signal having a second phase: rotates, by a first phase angle, the first phase of one or more signals in the first set of polarization signals relative to the second phase of one or more signals in the second set of polarization signals to generate a set of rotated signals; and rotates the set of rotated signals by a second phase angle to align the set of rotated signals with a polarization frame of reference. 13. The control system according to claim 12 , wherein the analog polarization control circuit rotates the set of rotated signals by the second phase angle to align the set of rotated signals with a polarization frame of reference. 14. The control system according to claim 12 , wherein the set of rotated signals compensates for a polarization rotation of at least one component of the first set of polarization signals relative to the second set of polarization signals. 15. A method for coherent combining of two receiver branches with initially unknown relative phase, the method comprising: vertically concatenating four row vectors representing XI, XQ, YI, and YQ receiver branch signals to form a 4×N matrix; performing a real-valued blind source separation (BSS) to obtain a 4×4 demixing matrix; reversing row permutations that separate complex variables into non-adjacent rows; obtaining an estimate of a 2×2 complex demixing matrix; and using the estimate to determine polarization states in a polarization recovery loop. 16. The method according to claim 15 , further comprising adjusting a demixing matrix to become unitary. 17. The method according to claim 15 , wherein the estimate of the 2×2 complex demixing matrix is obtained by using an averaging method. 18. The method according to claim 15 , wherein performing the real-valued BSS comprises: initializing a set of polarization control state variables; using a set of sample-and-hold and ADC circuits in a receiver to obtain a number of samples from XI, XQ, YI, and YQ branches of the receiver; accumulating the samples into a set of memory buffers; applying to the samples in the set of memory buffers complex independent component analysis (ICA) to perform BSS; factorizing a demixing matrix to obtain incremental angles; adding the incremental angles to the set of polarization control state variables to obtain updated polarization control state variables; and using the updated polarization control state variables to perform polarization control. 19. The method according to claim 18 , wherein obtaining updated polarization state variables comprises obtaining updated carrier phase state variables. 20. The method according to claim 18 , further comprising: in response to receiving a first set of output signals having a first phase and a second set of output signals having a second phase, rotating, by a first phase angle, the first phase of one or more signals in the first set of output signals relative to the second phase of one or more signals in the second set of output signals to generate a set of rotated signals; and rotating the set of rotated signals by a second phase angle to align the set of rotated signals with a polarization frame of reference.