Your search keyword '"pre-distortion"' showing total 10 results

1. The Joint Channel Coding and Pre-Distortion Technique on the USRP-Based MIMO-OFDM System

Author

Melki Mario Gulo, I Gede Puja Astawa, Arifin, Yoedy Moegiharto, and Hendy Briantoro

Subjects

mimo, ofdm, convolutional coding, usrp, pre-distortion, Systems engineering, TA168, Information technology, T58.5-58.64

Abstract

Modern wireless communication systems use orthogonal frequency division multiplexing (OFDM), a multi-carrier modulation method that resists multipath channels and provides bandwidth efficiency. OFDM is generally used with a Multiple-Input Multiple-Output (MIMO) system to boost diversity gain and channel capacity. MIMO-OFDM has several advantages, but its high PAPR value is a drawback. A non-linear high-power amplifier (HPA) can distort signals with high PAPR values. This issue can be resolved by employing predistortion, which compensates for nonlinear HPA. In addition to PD, channel coding can be used to improve the quality of systems with high PAPR values by adding redundant bits to the bits to be sent. In this paper, we report the experimental evaluations of the joint channel coding and pre-distortion (PD) technique on a 2x2 MIMO OFDM system using USRP hardware. The experiments are conducted in two scenarios: line-of-sight (LOS) and nonline-of-sight (NLOS) scenarios. The channel coding used in this scenario is convolutional code with code rates of 1/2, 2/3, and 3/4. From the results of the experiment, it can be seen that the system that uses PD combined with the convolution code produces better performance in the LOS and NLOS scenarios compared to the system without PD. In the LOS scenario, the use of PD can improve the SNR value of code rates 1/2, 2/3, and 3/4 by approximately 58.74%, 75.97%, and 96.20%. In the NLOS scenario, the use of PD can improve the SNR value of code rates 1/2, 2/3, and 3/4 by about 60.71%, 73.59%, and 71.84%. The measurement of the LOS scenario gives a better SNR value than the NLOS scenario, with a maximum SNR value of 30.86 dB, while the maximum SNR value of the NLOS scenario is 30.23 dB. This happened because the LOS scenario suffered minimal multipath fading compared to the NLOS scenario

Published

2023

2. Pre-Distorted Enhanced ADO-OFDM for Hybrid VLC Networks: A Mutual-Interference-Free Approach.

Author

Huang, Xuan, Yang, Fang, Pan, Changyong, and Song, Jian

Abstract

Mutual interference is a crucial issue for the visible light communication (VLC) systems to be addressed, including both co-channel interference (CCI) and inter-carrier interference (ICI). In this paper, to solve the CCI problem, a novel optical attocell network is introduced, which can be regarded as a hybrid network based on both single frequency network and multi-frequency network. Meanwhile, to eliminate the ICI, a pre-distorted enhanced asymmetrically clipped DC biased optical orthogonal frequency division multiplexing (PEADO-OFDM) approach is designed. In addition, the corresponding properties of PEADO-OFDM are analyzed, and different modulation schemes are employed for downlink and uplink in the same ADO-OFDM modulation framework to reduce the complexity of user processing. Simulation results indicate that the proposed PEADO-OFDM scheme outperforms the conventional ADO-OFDM approach in terms of bit error rate, while the processing latency and computational complexity are greatly reduced at the receiver. [ABSTRACT FROM AUTHOR]

Published

2020

3. Adaptive Modulation Scheme Based on Partially Pre-Distorted LACO-OFDM for VLC System.

Author

Sun, Yaqi and Yang, Fang

Abstract

In this paper, an adaptive modulation scheme for visible light communication (VLC) system based on partially pre-distorted layered asymmetrically clipped optical orthogonal frequency division multiplexing (LACO-OFDM) is proposed. The clipping noise that falls on the higher layers in the conventional LACO-OFDM results in inter layer interference, which can be eliminated by the operation of pre-distortion at the expense of extra power consumption. The proposed partially pre-distorted scheme makes a tradeoff between error propagation and power cost to suit different transmission environments. The probability distribution functions of the conventional and pre-distorted LACO-OFDM schemes are analyzed and compared and the layers that should be pre-distorted in the proposed scheme is decided adaptively by maximizing the achievable rate. The computational complexity of the proposed scheme is also investigated, which is acceptable compared with the previous schemes. Simulation results show that the proposed scheme has a superior bit error rate performance compared with the conventional and pre-distorted LACO-OFDM schemes. [ABSTRACT FROM AUTHOR]

Published

2019

4. Wideband Over-the-Air RF Self-Interference Cancellation by an EML-Based Optical System With Baseband Predistortion.

Author

Yunhao Zhang, Longsheng Li, Shilin Xiao, Meihua Bi, Yinghong Yu, and Weisheng Hu

Abstract

In this paper, we propose and experimentally demonstrate an optical self-interference cancellation (OSIC) system with baseband predistortion for wideband over-theair in-band full-duplex (IBFD) communication. The key factors of OSIC bandwidth limitation are analyzed, and the solution toward it is proposed for the first time. Experimental results show that, by traditional OSIC under over-the-air condition, only narrow even zero band is with enough cancellation depth to satisfy IBFD. But with our proposed baseband predistortion scheme, deep OSIC depth is achieved over the whole 1 GHz/5 GHz baseband within the total 7–25 GHz available band of horn antennas. The employment of baseband predistortion obviously broadens the cancellation bandwidth of an EML-based OSIC system. The largest OSIC bandwidth for over-the-air IBFD communication is demonstrated so far. [ABSTRACT FROM AUTHOR]

Published

2017

5. An adaptive pre-distortion method based on orthogonal polynomials.

Author

Huaming, He, Liang, Tang, Chunsheng, Zhang, Bin, Ye, Kai, Yu, and Zhiyong, Bu

Abstract

Wideband signals without pre-distortion are distorted by memory and nonlinear effect of high power amplifier. To compensate these distortions, we propose an adaptive pre-distorter based on orthogonal polynomials. Based on orthogonal criterion, we derive a series of orthogonal polynomials under circular symmetric complex Gaussian distribution. Indirect learning architecture is used for pre-distorter identification and recursive least square algorithm is introduced for parameters estimation. At last using two power amplifier models, we simulate the performance of the proposed pre-distorter in an OFDM system. Simulation results show that the proposed pre-distorter can effectively compensate the distortions produced by high power amplifier. [ABSTRACT FROM PUBLISHER]

Published

2012

6. An Improved Look-Up Table Predistortion Technique for HPA With Memory Effects in OFDM Systems.

Author

He Zhi-yong, Ge Jian-hua, Geng Shu-jian, and Wang Gang

Subjects

*ELECTRONIC amplifiers, *ELECTRONICS, *BANDWIDTHS, *BROADBAND communication systems, *MULTIPLEXING, *DATA transmission systems, *TELECOMMUNICATION, *BROADCASTING industry, *ALGORITHMS

Abstract

It is well known that HPAs (High Power Amplifiers) are inherently nonlinear devices and many researches have focused on the predistortion for memoryless HPAs. However, memory effects of HPAs can no longer be ignored when communication systems have wider bandwidth. Memoryless predistortion techniques proposed previously seldom have satisfactory effectiveness for typical wideband applications such as OFDM (Orthogonal Frequency Division Multiplexing) systems. In this paper, an improved adaptive predistortion method called 2D LUT (2-dimension look-up table) with different accuracy levels is presented to linearize HPAs with memory effects. Simulation and experimental results show that 2D LUT implements excellent performance in mitigating the signal deterioration caused by memory effects, both rectifies the signal constellation distortion and suppresses the spectrum emission. Large scale matrix computation is also avoidable in these adaptive algorithms, which makes them feasible when a real-time system is necessary. [ABSTRACT FROM AUTHOR]

Published

2006

7. Wideband Over-the-Air RF Self-Interference Cancellation by an EML-Based Optical System With Baseband Predistortion

Author

Longsheng Li, Meihua Bi, Yunhao Zhang, Shilin Xiao, Weisheng Hu, and Yinghong Yu

Subjects

lcsh:Applied optics. Photonics, microwave photonics, Computer science, 02 engineering and technology, OFDM, Predistortion, pre-distortion, RF self-interference cancellation, 020210 optoelectronics & photonics, IBFD, 0202 electrical engineering, electronic engineering, information engineering, lcsh:QC350-467, Electrical and Electronic Engineering, Wideband, Optical filter, business.industry, Over the Air, Bandwidth (signal processing), Electrical engineering, lcsh:TA1501-1820, Self interference, Atomic and Molecular Physics, and Optics, Baseband, Radio frequency, business, lcsh:Optics. Light

Abstract

In this paper, we propose and experimentally demonstrate an optical self-interference cancellation (OSIC) system with baseband predistortion for wideband over-the-air in-band full-duplex (IBFD) communication. The key factors of OSIC bandwidth limitation are analyzed, and the solution toward it is proposed for the first time. Experimental results show that, by traditional OSIC under over-the-air condition, only narrow even zero band is with enough cancellation depth to satisfy IBFD. But with our proposed baseband predistortion scheme, deep OSIC depth is achieved over the whole 1 GHz/5 GHz baseband within the total 7–25 GHz available band of horn antennas. The employment of baseband predistortion obviously broadens the cancellation bandwidth of an EML-based OSIC system. The largest OSIC bandwidth for over-the-air IBFD communication is demonstrated so far.

Published

2017

8. Adaptive predistortion of COFDM signals for a mobile satellite channel.

Author

Rodriguez, Nibaldo, Soto, Ismael, and Carrasco, Rolando

Subjects

*MULTIPLEXING, *DATA transmission systems, *ELECTRIC distortion, *ARTIFICIAL neural networks, *SIGNAL theory

Abstract

In this paper, we consider the optimization of the performance of QPSK and 16-QAM coded orthogonal frequency division multiplexing (COFDM) signals over the non-linear and mobile satellite channel. A high power amplifier and Rician flat fading channel produces non-linear and linear distortions; an adaptive predistortion technique combined with turbo codes will reduce both types of distortion. The predistorter is based on a feedforward neural network, with the coefficients being derived using an extended Kalman filter (EKF). The conventional turbo code is used to mitigate Rician flat fading distortion and Gaussian noise. The performance over a non-linear satellite channel indicates that QPSK COFDM followed by a predistorter provides a gain of about 1.7 dB at a BER of 3×10-3 when compared to QPSK COFDM without the predistortion scheme and 16-QAM COFDM provides a gain of 0.5 dB output back-off and 1.2 dB signal to noise ratio at a BER of 3×10-5 when compared with an adaptive predistorter based on the Harmmerstein model. We also investigate the influence of the guard time interval and Doppler frequency effect on the BER performance. When the guard interval increases from 0 to 0.125T samples and the normalized Doppler frequency is 0.001, there is a gain of 0.7 and 1 dB signal to noise ratio at a BER of 6×10-4 for QPSK and 16-QAM COFDM, respectively. Copyright © 2003 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2003

9. Pré-distorsion adaptative des non-linéarités HPA dans un système OFDM à l’aide des réseaux de neurones

Author

Zayani, Rafik, Zayani, Rafik, Ecole Nationale d'Ingénieurs de Tunis (ENIT), Université de Tunis El Manar (UTM), ENIT, and Daniel Roviras and Ridha Bouallegue

Subjects

Power Amplifier, [SPI] Engineering Sciences [physics], Neural Network, [SPI]Engineering Sciences [physics], Radiocommunications, Pre-distortion, Amplificateur de puissance, Pré-distorsion numérique, Memory effects, Réseaux de neurones, effets de mémoire, [SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing, OFDM, [SPI.SIGNAL] Engineering Sciences [physics]/Signal and Image processing

Abstract

The aim of the research accomplished in this thesis is to introduce linearization techniques applied to power amplifier for broadband radio- ommunications. In this context, we put forward base-band adaptive pre-distortion techniques using neural networks. After showing the non-linear behavior of power amplifier on both the spectrum and the transmitted signal quality, the classic techniques of linearity improvement are introduced. In the second section, neural networks are presented in particular the multilayer perceptrons as well as their learning techniques. Next, we defined the necessary steps for the establishment of a neural pre-distortion architecture able to offer very good performances within a reasonable complexity forthe non-linearity’s compensation of stationary and memoryless power amplifier, in the context of OFDM systems. The pre-distortion architecture chosen proved good performances in terms of the error rate reducing even with relatively low values of IBO. It equally proved a good correction of the transmitted signal quality in both inside and outside his band. The performance degradation correction following the non-stationary behavior ofpower amplifier has been stressed. Hence, a new architecture of adaptive predistortion has been proposed which allowed to obtain good performances using Levenberg-Marquard algorithm that proved to be the most efficient compared to several other algorithms, in terms of reducing time to adapt to power amplifier behavior changes while noting a reduced complexity. The obtained simulation results justify this hypothesis.Finally, a theoretical analysis allowed to highlight the dispersion origins in the power amplifier response and led to the emergence of new neural architecture of predistortion able to take into account memory effects. This survey concludes with some perspectives for research able to extend the work done during this thesis., Les travaux de recherche menés dans cette thèse de doctorat ont visé l’étude et la mise en œuvre des techniques de linéarisation d’amplificateurs de puissance destinés aux émetteurs radiofréquences à large bande. Dans ce cadre, nous avons proposé des techniques de pré-distorsion adaptative en bande de base en utilisant les réseaux de neurones. Après avoir montré les conséquences du comportement non linéaire de l’amplificateur sur le spectre et la qualité du signal transmis, les techniques classiques d’amélioration de la linéarité sont présentées. Dans une deuxième partie, les réseaux de neurones sont présentés et en particulier les perceptrons multicouches sans oublier également les techniques d’apprentissage de ces derniers. Ensuite, nous avons défini les étapes nécessaires pour l’établissement d’une architecture neuronale de pré- istorsion capable d’offrir de très bonnes performances avec une complexité raisonnable pour la compensation des non-linéarités d’un amplificateur considéré stationnaire et sans mémoire, dans le contexte des systèmes de communication OFDM. L’architecture de pré-distorsion choisie a montré de très bonnes performances en terme de réduction du taux d’erreur dans la transmission même avec des IBO assez faibles. Elle a montré également une bonne correction du signal à l’intérieur de sa bande utile et en dehors de celle-ci. La dégradation des performances de correction suite à la non-stationnarité de l’amplificateur de puissance a été soulignée. Ainsi, une nouvelle architecture de pré-distorsion adaptative a été proposée. Cette architecture a permis d’obtenir de bonnes performances en utilisant l’algorithme de Levenberg-Marquardt qui s’est avéré le plus efficace, par rapport à plusieurs autres algorithmes, en terme de réduction du temps d’adaptation aux changements du comportement de l’amplificateur tout en notant une complexité réduite. Les résultats de simulation obtenus justifient cette hypothèse. Finalement, une analyse théorique a permis de mettre en évidence les origines de dispersion dans la réponse de l’amplificateur de puissance et a conduit à proposer de nouvelles architectures neuronales de pré-distorsion capables de tenir compte des effets de mémoire. Ce mémoire se conclut par quelques perspectives de recherche pouvant prolonger les travaux accomplis durant cette thèse.

Published

2009

10. PRE-DISTORSIÓN DIGITAL ADAPTATIVA PARA LINEALIZACIÓN DE AMPLIFICADORES EN SISTEMAS OFDM

Author

Hugo Durney Wasaff

Subjects

amplificadores, non-linear systems, procesado de señal, Pre-distortion, sistemas no lineales, amplifiers, General Materials Science, Predistorsión, signal processing, OFDM

Abstract

Gran parte de los nuevos estándares para sistemas de comunicación digital, concebidos para superar la creciente demanda por mayores velocidades de transmisión y niveles de eficiencia espectral, consideran el uso de modulaciones de amplitud no constante tales como M-QAM en formatos de OFDM. Una de las limitaciones más críticas para el funcionamiento de estos sistemas es la distorsión no lineal típicamente introducida por los amplificadores de alta potencia presentes en la cadena de transmisión. Este artículo resume la propuesta de un algoritmo de procesado de señal para la estimación adaptativa de la característica inversa de ganancia compleja de un amplificador no lineal en un esquema de pre/post-distorsión. Algunos resultados de simulaciones son presentados a fin de evaluar la efectividad del proceso de linealización propuesto y considerar posibles líneas futuras de investigación. Many of the new digital communication standards, conceived to overcome the ever greater demands on bit rate capacity and spectral efficiency, consider the use of non-constant amplitude modulations such as M-QAM in OFDM formats. One of the major limitations on the performance of such systems is the non linear distortion typically introduced by high power amplifiers (HPA) in the transmission chain. This paper summarizes the proposal of a new signal processing algorithm for the adaptive estimation of the complex gain characteristic of a nonlinear HPA, in a pre/post-distortion scheme. Some simulation results are presented in order to evaluate the effectiveness of this linearization procedure and future related research to consider.

Published

2005