Bound on Peak-to-Average Power Ratio with Moment and Reduction Method

09/10/2019
by   Hirofumi Tsuda, et al.
0

In this paper, we show bounds on Peak-to-Average Power Ratio (PAPR) and propose a method to reduce PAPR. These bounds are written in terms of moments of transmitted symbols. Further, we show some bounds in special cases and these special bounds include a practical case. From the practical bound, a method to reduce PAPR is derived. Our method is an extension of existing methods, a Partial Transmit Sequence (PTS) technique and a Selective Mapping (SLM) technique. Finally, we numerically verify performance of our method and discuss some conditions for our method.

READ FULL TEXT

page 1

page 2

page 3

page 4

research
02/18/2019

Moment-Based Bound on Peak-to-Average Power Ratio and Reduction with Unitary Matrix

Reducing Peak-to-Average Power Ratio (PAPR) is a significant task in OFD...
research
05/12/2018

Randomization Approaches for Reducing PAPR with Partial Transmit Sequences and Semidefinite Relaxation

To reduce peak-to-average power ratio, we propose a method to choose a s...
research
01/18/2019

On the Achievable Rate of a Sample-based Practical Photon-counting Receiver

We investigate the achievable rate for a practical receiver under on-off...
research
09/11/2023

Low Peak-to-Average Power Ratio FBMC-OQAM System based on Data Mapping and DFT Precoding

Filter bank multicarrier with offset quadrature amplitude modulation (FB...
research
10/07/2019

Four-Dimension Cross Constellations with Gray Mapping

Recently a four-dimension (4D) cross constellation has been proposed, wh...
research
09/23/2019

Low-PAPR Preamble Design for FBMC Systems

This paper presents a family of training preambles for offset QAM (OQAM)...
research
06/29/2023

Constrained RS coding for Low Peak to Average Power Ratio in FBMC – OQAM Systems

Multi-carrier modulation techniques have now become a standard in many c...

Please sign up or login with your details

Forgot password? Click here to reset