International Journal of Research

Orthogonal frequency division multiplexing (OFDM) suffers from a high peak-to-average power ratio (PAPR). Tone injection (TI) extends the original constellation to several equivalent points so that these extra freedom degrees can be exploited for the PAPR reduction. However, optimal TI requires an exhaustive search over all possible constellations, which is a hard discrete optimization problem. To address this problem, a novel TI scheme that uses the clipping noise to find the optimal equivalent outer ring extended constellations and hexagonal constellations is proposed. By minimizing the mean rounding error of the clipping noise and possible equivalent constellations, the proposed scheme can easily determine the size and position of the optimal equivalent constellations. Secondly, a new TI scheme is also introduced in order to reduce the nonlinear distortion in the presence of power amplifier. This scheme takes the root-mean-square peak interference-to-carrier ratio (PICR) reduction as the target to obtain a better bit  error rate (BER) performance. Simulation results show that to achieve a considerable  system performance, the proposed TI schemes only need eighteen fast Fourier transforms (FFTs), while other TI and partial transmit sequence (PTS) schemes need hundreds of FFTs.