gnuradio/html/linear__equalizer_8h_source.html

 /* -*- c++ -*- */

 /*

  * Copyright 2020 Free Software Foundation, Inc.

  *

  * This file is part of GNU Radio

  *

  * SPDX-License-Identifier: GPL-3.0-or-later

  *

  */


 #ifndef INCLUDED_DIGITAL_LINEAR_EQUALIZER_H

 #define INCLUDED_DIGITAL_LINEAR_EQUALIZER_H


 #include <gnuradio/digital/adaptive_algorithm.h>

 #include <gnuradio/digital/api.h>

 #include <gnuradio/digital/constellation.h>

 #include <gnuradio/sync_decimator.h>


 #include <string>

 #include <vector>


 namespace gr {

 namespace digital {


 /*!

  * \brief Linear Equalizer block provides linear equalization using a specified adaptive

  * algorithm

  *

  * \ingroup equalizers_blk

  *

  */

 class DIGITAL_API linear_equalizer : virtual public gr::sync_decimator

 {


 public:

     typedef std::shared_ptr<linear_equalizer> sptr;


     /*!

      * \brief Return a shared_ptr to a new instance of

      * gr::digital::linear_equalizer.

      *

      * The Linear Equalizer block equalizes the incoming signal using an FIR filter.

      * If provided with a training sequence and a training start tag, data aided

      * equalization will be performed starting with the tagged sample. If training-based

      * equalization is active and the training sequence ends, then optionally decision

      * directed equalization will be performed given the adapt_after_training If no

      * training sequence or no tag is provided, decision directed equalization will be

      * performed

      * This equalizer decimates to the symbol rate according to the samples per symbol

      * param

      *

      * \param num_taps  Number of taps for the FIR filter

      * \param sps  int - Samples per Symbol

      * \param alg  Adaptive algorithm object

      * \param training_sequence  Sequence of samples that will be used to train the

      * equalizer.  Provide empty vector to default to DD equalizer

      * \param adapt_after_training  bool - set true to continue DD training after training

      * sequence has been used up

      * \param training_start_tag  string - tag that indicates the start

      * of the training sequence in the incoming data

      */

     static sptr

     make(unsigned num_taps,

          unsigned sps,

          adaptive_algorithm_sptr alg,

          bool adapt_after_training = true,

          std::vector<gr_complex> training_sequence = std::vector<gr_complex>(),

          const std::string& training_start_tag = "");


     virtual void set_taps(const std::vector<gr_complex>& taps) = 0;

     virtual std::vector<gr_complex> taps() const = 0;


     /*!

      * \brief Public "work" function - equalize a block of input samples

      * \details Behaves similar to the block's work function, but made public

      * to be able to be called outside the GNU Radio scheduler on bursty data

      * \param input_samples   Buffer of input samples to equalize

      * \param output_symbols  Buffer of output symbols post equalization

      * \param num_inputs      Number of input samples provided

      * \param max_num_outputs Size of output_symbols buffer to write into

      * \param training_start_samples Vector of starting positions of training sequences

      * within the input_samples buffer

      * \param history_included  Flag to indicate whether history has been provided at

      * the beginning of the input_samples buffer, as would normally be provided in a

      * work() call.  The work() function of this block sets this to true, but in bursty

      * operation, this should be set to false

      * \param taps            Optional output vector buffer of tap weights calculated at

      * each sample of the output

      * \param state           Optional output state of the equalizer for debug {IDLE,

      * TRAINING, DD}

      */

     virtual int equalize(

         const gr_complex* input_samples,

         gr_complex* output_symbols,

         unsigned int num_inputs,

         unsigned int max_num_outputs,

         std::vector<unsigned int> training_start_samples = std::vector<unsigned int>(0),

         bool history_included = false,

         gr_complex* taps = nullptr,

         unsigned short* state = nullptr) = 0;

 };


 } // namespace digital

 } // namespace gr


 #endif /* INCLUDED_DIGITAL_LINEAR_EQUALIZER_H */

adaptive_algorithm.h

gr::digital::linear_equalizer
Linear Equalizer block provides linear equalization using a specified adaptive algorithm.
Definition: linear_equalizer.h:33

gr::digital::linear_equalizer::sptr
std::shared_ptr< linear_equalizer > sptr
Definition: linear_equalizer.h:36

gr::digital::linear_equalizer::set_taps
virtual void set_taps(const std::vector< gr_complex > &taps)=0

gr::digital::linear_equalizer::equalize
virtual int equalize(const gr_complex *input_samples, gr_complex *output_symbols, unsigned int num_inputs, unsigned int max_num_outputs, std::vector< unsigned int > training_start_samples=std::vector< unsigned int >(0), bool history_included=false, gr_complex *taps=nullptr, unsigned short *state=nullptr)=0
Public "work" function - equalize a block of input samples.

gr::digital::linear_equalizer::make
static sptr make(unsigned num_taps, unsigned sps, adaptive_algorithm_sptr alg, bool adapt_after_training=true, std::vector< gr_complex > training_sequence=std::vector< gr_complex >(), const std::string &training_start_tag="")
Return a shared_ptr to a new instance of gr::digital::linear_equalizer.

gr::digital::linear_equalizer::taps
virtual std::vector< gr_complex > taps() const =0

gr::sync_decimator
synchronous N:1 input to output with history
Definition: sync_decimator.h:26

constellation.h

api.h

DIGITAL_API
#define DIGITAL_API
Definition: gr-digital/include/gnuradio/digital/api.h:18

gr_complex
std::complex< float > gr_complex
Definition: gr_complex.h:15

taps
static constexpr float taps[NSTEPS+1][NTAPS]
Definition: interpolator_taps.h:9

gr
GNU Radio logging wrapper.
Definition: basic_block.h:29

sync_decimator.h