Modulation method, demodulation method, and apparatus for multi-user information transmission

The invention claimed is: 1. A modulating method for multi-user information transmission, comprising: acquiring, by a transmitter, a superposed symbol of a first modulated symbol and a second modulated symbol determined according to a first information bit, a second information bit, and a mapping table, the superposed symbol being mapped to a constellation point on a diagram of constellations of a nature of Gray mapping, wherein the first modulated symbol is acquired by modulating the first information bit according to Long Term Evolution (LTE), wherein the second modulated symbol is acquired by modulating the second information bit according to LTE to acquire a modulated symbol, and flipping a sign of at least one of a real part or an imaginary part of the modulated symbol, or flipping no sign of the real part and the imaginary part of the modulated symbol, depending on a value of the first information bit. 2. The method according to claim 1 , wherein the transmitter acquires the first modulated symbol according to the first information bit and a first mapping in the mapping table, wherein the transmitter acquires the second modulated symbol according to the second information bit and a second mapping in the mapping table. 3. The method according to claim 2 , wherein the first mapping corresponds to multiple second mappings. 4. The method according to claim 1 , wherein in response to determining that the first information bit is of 1 bit, the transmitter acquires the first modulated symbol by applying first Binary Phase Shift Keying (BPSK) to the first information bit, wherein in response to determining that the first information bit is of 2 bits, the transmitter acquires the first modulated symbol by applying first Quadri Phase Shift Keying (QPSK) to the first information bit. 5. The method according to claim 1 , wherein in response to determining that the second information bit is of 2 bits, the transmitter acquires the second modulated symbol by applying second Quadri Phase Shift Keying (QPSK) to the second information bit, depending on the value of the first information bit, the second QPSK being: flipping a sign of a real part of a modulated symbol acquired by applying first QPSK, flipping a sign of an imaginary part of the modulated symbol acquired by applying the first QPSK, the first QPSK, or flipping both the sign of the real part and the sign of the imaginary part of the modulated symbol acquired by applying the first QPSK, wherein in response to determining that the second information bit is of 4 bits, the transmitter acquires the second modulated symbol by applying second 16 Quadrature Amplitude Modulation (QAM) to the second information bit, depending on the value of the first information bit, the second 16 QAM being: flipping a sign of a real part of a modulated symbol acquired by applying 16 QAM, flipping a sign of an imaginary part of the modulated symbol acquired by applying the 16 QAM, the 16 QAM, or flipping both the sign of the real part and the sign of the imaginary part of the modulated symbol acquired by applying the 16 QAM, wherein in response to determining that the second information bit is of 6 bits, the transmitter acquires the second modulated symbol by applying second 64 QAM to the second information bit, depending on the value of the first information bit, the second 64 QAM being: flipping a sign of a real part of a modulated symbol acquired by applying 64 QAM, flipping a sign of an imaginary part of the modulated symbol acquired by applying the 64 QAM, the 64 QAM, or flipping both the sign of the real part and the sign of the imaginary part of the modulated symbol acquired by applying the 64 QAM. 6. The method according to claim 1 , wherein the superposed symbol is a linear superposition of the first modulated symbol and the second modulated symbol. 7. The method according to claim 1 , wherein the acquiring, by a transmitter, a superposed symbol of a first modulated symbol and a second modulated symbol comprises: acquiring, by the transmitter, a first weighted modulated symbol as a product of the first modulated symbol and a first power factor, and acquiring a second weighted modulated symbol as a product of the second modulated symbol and a second power factor, the first power factor being a square root of a power share of the first information bit, the second power factor being a square root of a power share of the second information bit, a total of the power share of the first information bit and the power share of the second information bit being 1; and acquiring, by the transmitter, the superposed symbol as a sum of the first weighted modulated symbol and the second weighted modulated symbol. 8. The method according to claim 1 , further comprising: before the acquiring, by a transmitter, a superposed symbol of a first modulated symbol and a second modulated symbol determined according to a first information bit, a second information bit, and a mapping table, acquiring, by the transmitter, the first information bit by coding a first stream of bits; and acquiring, by the transmitter, the second information bit by coding a second stream of bits. 9. The method according to claim 1 , further comprising: after the acquiring, by a transmitter, a superposed symbol of a first modulated symbol and a second modulated symbol determined according to a first information bit, a second information bit, and a mapping table, forming, by the transmitter, a signal to be transmitted using the superposed symbol, and transmitting the signal to be transmitted to multiple receivers. 10. A demodulating method for multi-user information transmission, comprising: receiving, by a receiver, a signal transmitted by a transmitter; and determining, by the receiver according to the signal and a mapping table, information sent by the transmitter to the receiver, the mapping table being for determining a correspondence between a first information bit and a first modulated symbol and a correspondence between a second information bit and a second modulated symbol, such that superposition of a set of modulated symbols in the mapping table is mapped onto a diagram of constellations of a nature of Gray mapping, wherein the first modulated symbol is acquired by modulating the first information bit according to Long Term Evolution (LTE), wherein the second modulated symbol is acquired by modulating the second information bit according to LTE to acquire a modulated symbol, and flipping a sign of at least one of a real part or an imaginary part of the modulated symbol, or flipping no sign of the real part and the imaginary part of the modulated symbol, depending on a value of the first information bit. 11. The method according to claim 10 , wherein the determining, by the receiver according to the signal and a mapping table, information sent by the transmitter to the receiver comprises: acquiring, by the receiver as a first receiver, the first modulated symbol by applying Maximum Likelihood (ML) or Minimum Mean-Square Error (MMSE) to the signal, acquiring the first information bit by demodulating the first modulated symbol according to the mapping table, and acquiring the information sent by the transmitter to the receiver by decoding the first information bit. 12. The method according to claim 10 , wherein the determining, by the receiver according to the signal and a mapping table, information sent by the transmitter to the receiver comprises: acquiring, by the receiver as a second receiver, the first modulated symbol by applying Maximum Likelihood (ML) or Minimum Mean-Square Error (MMSE) to the signal, removing the first modulated symbol from the signal by ap