GNU Radio 3.6.5 C++ API
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00001 /* -*- c++ -*- */ 00002 /* 00003 * Copyright 2011 Free Software Foundation, Inc. 00004 * 00005 * This file is part of GNU Radio 00006 * 00007 * GNU Radio is free software; you can redistribute it and/or modify 00008 * it under the terms of the GNU General Public License as published by 00009 * the Free Software Foundation; either version 3, or (at your option) 00010 * any later version. 00011 * 00012 * GNU Radio is distributed in the hope that it will be useful, 00013 * but WITHOUT ANY WARRANTY; without even the implied warranty of 00014 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 00015 * GNU General Public License for more details. 00016 * 00017 * You should have received a copy of the GNU General Public License 00018 * along with GNU Radio; see the file COPYING. If not, write to 00019 * the Free Software Foundation, Inc., 51 Franklin Street, 00020 * Boston, MA 02110-1301, USA. 00021 */ 00022 00023 #ifndef INCLUDED_DIGITAL_CMA_EQUALIZER_CC_H 00024 #define INCLUDED_DIGITAL_CMA_EQUALIZER_CC_H 00025 00026 #include <digital_api.h> 00027 #include <gr_adaptive_fir_ccc.h> 00028 #include <gr_math.h> 00029 #include <iostream> 00030 00031 class digital_cma_equalizer_cc; 00032 typedef boost::shared_ptr<digital_cma_equalizer_cc> digital_cma_equalizer_cc_sptr; 00033 00034 DIGITAL_API digital_cma_equalizer_cc_sptr 00035 digital_make_cma_equalizer_cc(int num_taps, float modulus, float mu, int sps); 00036 00037 /*! 00038 * \brief Implements constant modulus adaptive filter on complex stream 00039 * \ingroup equalizers_blk 00040 * 00041 * \details 00042 * The error value and tap update equations (for p=2) can be found in: 00043 * 00044 * "D. Godard, "Self-Recovering Equalization and Carrier Tracking in 00045 * Two-Dimensional Data Communication Systems," IEEE Transactions on 00046 * Communications, Vol. 28, No. 11, pp. 1867 - 1875, 1980." 00047 */ 00048 class DIGITAL_API digital_cma_equalizer_cc : public gr_adaptive_fir_ccc 00049 { 00050 private: 00051 float d_modulus; 00052 float d_mu; 00053 00054 friend DIGITAL_API digital_cma_equalizer_cc_sptr digital_make_cma_equalizer_cc(int num_taps, 00055 float modulus, 00056 float mu, 00057 int sps); 00058 digital_cma_equalizer_cc(int num_taps, float modulus, float mu, int sps); 00059 00060 protected: 00061 00062 virtual gr_complex error(const gr_complex &out) 00063 { 00064 gr_complex error = out*(norm(out) - d_modulus); 00065 float re = gr_clip(error.real(), 1.0); 00066 float im = gr_clip(error.imag(), 1.0); 00067 return gr_complex(re, im); 00068 } 00069 00070 virtual void update_tap(gr_complex &tap, const gr_complex &in) 00071 { 00072 // Hn+1 = Hn - mu*conj(Xn)*zn*(|zn|^2 - 1) 00073 tap -= d_mu*conj(in)*d_error; 00074 } 00075 00076 public: 00077 float get_gain() 00078 { 00079 return d_mu; 00080 } 00081 00082 void set_gain(float mu) 00083 { 00084 if(mu < 0.0f || mu > 1.0f) { 00085 throw std::out_of_range("digital_cma_equalizer::set_gain: Gain value must be in [0,1]"); 00086 } 00087 d_mu = mu; 00088 } 00089 00090 float get_modulus() 00091 { 00092 return d_modulus; 00093 } 00094 00095 void set_modulus(float mod) 00096 { 00097 if(mod < 0) 00098 throw std::out_of_range("digital_cma_equalizer::set_modulus: Modulus value must be >= 0"); 00099 d_modulus = mod; 00100 } 00101 }; 00102 00103 #endif