Patent ID: 8934782
Filing Date: 2015-01-13
Classification: G02F,H04B,H04J

Abstract:
1. A transmission method comprising: a step of generating a first signal series and a second signal series; a step of modulating a first polarized wave using the first signal series and a second polarized wave orthogonal to the first polarized wave using the second signal series; and a step of performing polarization multiplexing of the modulated first polarized wave and the modulated second polarized wave, wherein the step of generating includes a switching step that selects at least two steps from a first step that generates the second signal series in which a signal identical to an in-phase component of the first signal series is determined as an in-phase component of the second signal series and a signal identical to a quadrature-phase component of the first signal series is determined as a quadrature-phase component of the second signal series, a second step that generates the second signal series in which a signal identical to the quadrature-phase component of the first signal series is determined as an in-phase component of the second signal series and a signal caused by performing logical inversion of an in-phase component of the first signal series is determined as a quadrature-phase component of the second signal series, a third step that generates the second signal series in which a signal caused by performing logical inversion of an in-phase component of the first signal series is determined as an in-phase component of the second signal series and a signal caused by performing logical inversion of a quadrature-phase component of the first signal series is determined as a quadrature-phase component of the second signal series, and a fourth step that generates the second signal series in which a signal caused by performing logical inversion of a quadrature-phase component of the first signal series is determined as an in-phase component of the second signal series and a signal identical to an in-phase component of the first signal series is determined as a quadrature-phase component of the second signal series, and the switching step applies said at least two steps to at least part of each period being divided by a predetermined length by alternately switching every each period.