Minimal state-space realizations of 2D convolutional codes

  1. Pinho, Telma Daniela Pereira de
Dirigée par:
  1. Paula Rocha Directeur/trice
  2. María Raquel Rocha Pinto Co-directeur/trice

Université de défendre: Universidade de Aveiro (UA)

Fecha de defensa: 21 mai 2014

Jury:
  1. Vitor José Babau Torres President
  2. Teresa Paula Coelho Azevedo Perdicoúlis Rapporteur
  3. Diego Napp Avelli Rapporteur
  4. Ettore Fornasini Rapporteur
  5. Joan-Josep Climent Coloma Rapporteur

Type: Thèses

Résumé

In this thesis we consider two-dimensional (2D) convolutional codes. As happens in the one-dimensional (1D) case one of the major issues is obtaining minimal state-space realizations for these codes. It turns out that the problem of minimal realization of codes is not equivalent to the minimal realization of encoders. This is due to the fact that the same code may admit different encoders with different McMillan degrees. Here we focus on the study of minimality of the realizations of 2D convolutional codes by means of separable Roesser models. Such models can be regarded as a series connection between two 1D systems. As a first step we provide an algorithm to obtain a minimal realization of a 1D convolutional code starting from a minimal realization of an encoder of the code. Then, we restrict our study to two particular classes of 2D convolutional codes. The first class to be considered is the one of codes which admit encoders of type n 1. For these codes, minimal encoders (i.e., encoders for which a minimal realization is also minimal as a code realization) are characterized enabling the construction of minimal code realizations starting from such encoders. The second class of codes to be considered is the one constituted by what we have called composition codes. For a subclass of these codes, we propose a method to obtain minimal realizations by means of separable Roesser models.