Transmitter, receiver, transmission method, and reception method

What is claimed is: 1. A transmission method comprising: mapping, with circuitry, a data sequence to only four symbols according to asymmetric Quadrature Amplitude Modulation (QAM), each of the four symbols having a phase that is different from a phase of an adjacent one of the four symbols by 90 degrees, at least two of the four symbols having different amplitudes; and generating, with circuitry, an Orthogonal Frequency Division Multiplexing (OFDM) signal based on the data sequence mapped; and wirelessly transmitting, with a transmitter, the OFDM signal. 2. The transmission method according to claim 1 , wherein the transmitter has a coverage area overlapping with a coverage area of another transmitter, and four symbols according to asymmetric QAM of the another transmitter are provided by rotating the four symbols according to the asymmetric QAM of the transmitter by a predetermined angle. 3. The transmission method according to claim 1 , wherein the four symbols include: a first symbol which is provided in a first quadrant and which has a first amplitude; a second symbol which is provided in a second quadrant and which has a second amplitude; a third symbol which is provided in a third quadrant and which has the first amplitude; and a fourth symbol which is provided in a fourth quadrant and which has the second amplitude, and the first amplitude is different from the second amplitude. 4. A reception method, comprising: wirelessly-receiving, with a receiver, an Orthogonal Frequency Division Multiplexing (OFDM) signal generated based on a mapped data sequence, the mapped data sequence being generated by mapping a data sequence to only four symbols according to asymmetric Quadrature Amplitude Modulation (QAM), each of the four symbols having a phase that is different from a phase of an adjacent one of the four symbols by 90 degrees, at least two of the four symbols having different amplitudes; and demodulating, with a demodulation circuit, the OFDM signal according to the asymmetric QAM to generate the data sequence. 5. The reception method according to claim 4 , wherein OFDM signals wirelessly transmitted from a first transmitter and a second transmitter are received, and the OFDM signals are demodulated using first asymmetric QAM of the first transmitter and second asymmetric QAM of the second transmitter, four symbols according to the second asymmetric QAM being provided by rotating four symbols according to the first asymmetric QAM by a predetermined angle. 6. The reception method according to claim 4 , wherein the four symbols include: a first symbol which is provided in a first quadrant and which has a first amplitude; a second symbol which is provided in a second quadrant and which has a second amplitude; a third symbol which is provided in a third quadrant and which has the first amplitude; and a fourth symbol which is provided in a fourth quadrant and which has the second amplitude, and the first amplitude is different from the second amplitude.