Detail publikace

Digital predistorter with Hammerstein structure employing statistical adaptation of nonlinear component

Originální název

Digital predistorter with Hammerstein structure employing statistical adaptation of nonlinear component

Anglický název

Digital predistorter with Hammerstein structure employing statistical adaptation of nonlinear component

Jazyk

en

Originální abstrakt

The performance of wireless communication systems is significantly influenced by the nonlinearity of RF components, such as RF power amplifier. Digital predistortion is often applied in such systems to compensate the nonlinearity. The advanced predistortion methods suffer from their high complexity and requirements on feedback path due to the model order and high wide signal bandwidth. On the contrary, recently proposed statistical methods to adapt predistorter usually do not account for memory effects. This paper demonstrates the possibility to combine statistical method for nonlinearity adaptation with least-squares method for memory compensation adaptation in simple Hammerstein-type of predistorter.

Anglický abstrakt

The performance of wireless communication systems is significantly influenced by the nonlinearity of RF components, such as RF power amplifier. Digital predistortion is often applied in such systems to compensate the nonlinearity. The advanced predistortion methods suffer from their high complexity and requirements on feedback path due to the model order and high wide signal bandwidth. On the contrary, recently proposed statistical methods to adapt predistorter usually do not account for memory effects. This paper demonstrates the possibility to combine statistical method for nonlinearity adaptation with least-squares method for memory compensation adaptation in simple Hammerstein-type of predistorter.

BibTex


@inproceedings{BUT149676,
  author="Roman {Maršálek} and Tomáš {Götthans}",
  title="Digital predistorter with Hammerstein structure employing statistical adaptation of nonlinear component",
  annote="The performance of wireless communication systems
is significantly influenced by the nonlinearity of RF components, such as RF power amplifier. Digital predistortion is often applied in such systems to compensate the nonlinearity. The advanced predistortion methods suffer from their high complexity and requirements on feedback path due to the model order and
high wide signal bandwidth. On the contrary, recently proposed statistical methods to adapt predistorter usually do not account for memory effects. This paper demonstrates the possibility to combine statistical method for nonlinearity adaptation with least-squares method for memory compensation adaptation in simple Hammerstein-type of predistorter.",
  booktitle="Proceedings of 25th International Conference on Telecommunications (ICT)",
  chapter="149676",
  howpublished="electronic, physical medium",
  year="2018",
  month="june",
  pages="1--5",
  type="conference paper"
}