Performance Analysis of Triangular Quadrature Amplitude Modulation in AWGN Channel


Recently, the triangular quadrature amplitude modulation (TQAM) whose signal points are regularly distributed at the vertexes of contiguous equilateral triangles was proposed. In this paper, we have a tendency to derive the general formula calculating the common energy per image of the TQAM and notice out that the asymptotic power gain of the TQAM over the well-known square quadrature amplitude modulation (SQAM) is 0.579nine dB. We have a tendency to additionally analyze the symbol error rate (SER) and also the bit error rate (BER) of the TQAM and compare them with the error performances obtained through computer simulation. Analytical and simulation results coincide at a wide selection of signal to noise power ratio (SNR). The power gain increases gradually and approaches the asymptotic price as modulation order increases and target error rate decreases.

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