diff --git a/src/algorithms/acquisition/gnuradio_blocks/pcps_acquisition.cc b/src/algorithms/acquisition/gnuradio_blocks/pcps_acquisition.cc
index 8e93024a8..7f81d68e3 100644
--- a/src/algorithms/acquisition/gnuradio_blocks/pcps_acquisition.cc
+++ b/src/algorithms/acquisition/gnuradio_blocks/pcps_acquisition.cc
@@ -121,6 +121,7 @@ pcps_acquisition::pcps_acquisition(const Acq_Conf& conf_) : gr::block("pcps_acqu
         }
     grid_ = arma::fmat();
     d_step_two = false;
+    d_dump_number = 0;
 }
 
 
@@ -335,46 +336,47 @@ void pcps_acquisition::send_negative_acquisition()
 }
 
 
-void pcps_acquisition::dump_results(unsigned int doppler_index, int effective_fft_size)
+void pcps_acquisition::dump_results(int effective_fft_size)
 {
-    memcpy(grid_.colptr(doppler_index), d_magnitude, sizeof(float) * effective_fft_size);
-    if (doppler_index == (d_num_doppler_bins - 1))
+    d_dump_number++;
+    std::string filename = acq_parameters.dump_filename;
+    filename.append("_");
+    filename.append(1, d_gnss_synchro->System);
+    filename.append("_");
+    filename.append(1, d_gnss_synchro->Signal[0]);
+    filename.append(1, d_gnss_synchro->Signal[1]);
+    filename.append("_ch_");
+    filename.append(std::to_string(d_channel));
+    filename.append("_");
+    filename.append(std::to_string(d_dump_number));
+    filename.append("_sat_");
+    filename.append(std::to_string(d_gnss_synchro->PRN));
+    filename.append(".mat");
+
+    mat_t* matfp = Mat_CreateVer(filename.c_str(), NULL, MAT_FT_MAT73);
+    if (matfp == NULL)
         {
-            std::string filename = acq_parameters.dump_filename;
-            filename.append("_");
-            filename.append(1, d_gnss_synchro->System);
-            filename.append("_");
-            filename.append(1, d_gnss_synchro->Signal[0]);
-            filename.append(1, d_gnss_synchro->Signal[1]);
-            filename.append("_sat_");
-            filename.append(std::to_string(d_gnss_synchro->PRN));
-            filename.append(".mat");
+            std::cout << "Unable to create or open Acquisition dump file" << std::endl;
+            acq_parameters.dump = false;
+        }
+    else
+        {
+            size_t dims[2] = {static_cast<size_t>(effective_fft_size), static_cast<size_t>(d_num_doppler_bins)};
+            matvar_t* matvar = Mat_VarCreate("grid", MAT_C_SINGLE, MAT_T_SINGLE, 2, dims, grid_.memptr(), 0);
+            Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB);  // or MAT_COMPRESSION_NONE
+            Mat_VarFree(matvar);
 
-            mat_t* matfp = Mat_CreateVer(filename.c_str(), NULL, MAT_FT_MAT73);
-            if (matfp == NULL)
-                {
-                    std::cout << "Unable to create or open Acquisition dump file" << std::endl;
-                    acq_parameters.dump = false;
-                }
-            else
-                {
-                    size_t dims[2] = {static_cast<size_t>(effective_fft_size), static_cast<size_t>(d_num_doppler_bins)};
-                    matvar_t* matvar = Mat_VarCreate("grid", MAT_C_SINGLE, MAT_T_SINGLE, 2, dims, grid_.memptr(), 0);
-                    Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB);  // or MAT_COMPRESSION_NONE
-                    Mat_VarFree(matvar);
+            dims[0] = static_cast<size_t>(1);
+            dims[1] = static_cast<size_t>(1);
+            matvar = Mat_VarCreate("doppler_max", MAT_C_UINT32, MAT_T_UINT32, 1, dims, &acq_parameters.doppler_max, 0);
+            Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB);  // or MAT_COMPRESSION_NONE
+            Mat_VarFree(matvar);
 
-                    dims[0] = static_cast<size_t>(1);
-                    dims[1] = static_cast<size_t>(1);
-                    matvar = Mat_VarCreate("doppler_max", MAT_C_UINT32, MAT_T_UINT32, 1, dims, &acq_parameters.doppler_max, 0);
-                    Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB);  // or MAT_COMPRESSION_NONE
-                    Mat_VarFree(matvar);
+            matvar = Mat_VarCreate("doppler_step", MAT_C_UINT32, MAT_T_UINT32, 1, dims, &d_doppler_step, 0);
+            Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB);  // or MAT_COMPRESSION_NONE
+            Mat_VarFree(matvar);
 
-                    matvar = Mat_VarCreate("doppler_step", MAT_C_UINT32, MAT_T_UINT32, 1, dims, &d_doppler_step, 0);
-                    Mat_VarWrite(matfp, matvar, MAT_COMPRESSION_ZLIB);  // or MAT_COMPRESSION_NONE
-                    Mat_VarFree(matvar);
-
-                    Mat_Close(matfp);
-                }
+            Mat_Close(matfp);
         }
 }
 
@@ -386,7 +388,7 @@ void pcps_acquisition::acquisition_core(unsigned long int samp_count)
     // initialize acquisition algorithm
     uint32_t indext = 0;
     float magt = 0.0;
-    const gr_complex* in = d_data_buffer;  //Get the input samples pointer
+    const gr_complex* in = d_data_buffer;  // Get the input samples pointer
     int effective_fft_size = (acq_parameters.bit_transition_flag ? d_fft_size / 2 : d_fft_size);
     if (d_cshort)
         {
@@ -479,7 +481,7 @@ void pcps_acquisition::acquisition_core(unsigned long int samp_count)
                     // Record results to file if required
                     if (acq_parameters.dump)
                         {
-                            pcps_acquisition::dump_results(doppler_index, effective_fft_size);
+                            memcpy(grid_.colptr(doppler_index), d_magnitude, sizeof(float) * effective_fft_size);
                         }
                 }
         }
@@ -548,10 +550,15 @@ void pcps_acquisition::acquisition_core(unsigned long int samp_count)
                     // Record results to file if required
                     if (acq_parameters.dump)
                         {
-                            pcps_acquisition::dump_results(doppler_index, effective_fft_size);
+                            memcpy(grid_.colptr(doppler_index), d_magnitude, sizeof(float) * effective_fft_size);
                         }
                 }
         }
+    // Record results to file if required
+    if (acq_parameters.dump)
+        {
+            pcps_acquisition::dump_results(effective_fft_size);
+        }
     lk.lock();
     if (!acq_parameters.bit_transition_flag)
         {
diff --git a/src/algorithms/acquisition/gnuradio_blocks/pcps_acquisition.h b/src/algorithms/acquisition/gnuradio_blocks/pcps_acquisition.h
index 429353bd9..f0fd69e7f 100644
--- a/src/algorithms/acquisition/gnuradio_blocks/pcps_acquisition.h
+++ b/src/algorithms/acquisition/gnuradio_blocks/pcps_acquisition.h
@@ -93,7 +93,7 @@ private:
 
     void send_positive_acquisition();
 
-    void dump_results(unsigned int doppler_index, int effective_fft_size);
+    void dump_results(int effective_fft_size);
 
     Acq_Conf acq_parameters;
     bool d_active;
@@ -123,6 +123,7 @@ private:
     gr::fft::fft_complex* d_ifft;
     Gnss_Synchro* d_gnss_synchro;
     arma::fmat grid_;
+    long int d_dump_number;
 
 public:
     ~pcps_acquisition();
diff --git a/src/tests/common-files/gnuplot_i.h b/src/tests/common-files/gnuplot_i.h
index 2df3a9c92..67e6fb1f8 100644
--- a/src/tests/common-files/gnuplot_i.h
+++ b/src/tests/common-files/gnuplot_i.h
@@ -69,7 +69,7 @@
 #elif defined(unix) || defined(__unix) || defined(__unix__) || defined(__APPLE__)
 //all UNIX-like OSs (Linux, *BSD, MacOSX, Solaris, ...)
 #include <unistd.h>  // for access(), mkstemp()
-#define GP_MAX_TMP_FILES 64
+#define GP_MAX_TMP_FILES 1024
 #else
 #error unsupported or unknown operating system
 #endif
@@ -302,9 +302,9 @@ public:
     ///
     /// \return <-- reference to the gnuplot object
     // -----------------------------------------------
-    inline Gnuplot &set_multiplot()
+    inline Gnuplot &set_multiplot(int rows, int cols)
     {
-        cmd("set multiplot");
+        cmd("set multiplot layout " + std::to_string(rows) + "," + std::to_string(cols));  //+ " rowfirst");
         return *this;
     };
 
@@ -1906,11 +1906,11 @@ void Gnuplot::init()
     std::string tmp = Gnuplot::m_sGNUPlotPath + "/" +
                       Gnuplot::m_sGNUPlotFileName;
 
-    // FILE *popen(const char *command, const char *mode);
-    // The popen() function shall execute the command specified by the string
-    // command, create a pipe between the calling program and the executed
-    // command, and return a pointer to a stream that can be used to either read
-    // from or write to the pipe.
+// FILE *popen(const char *command, const char *mode);
+// The popen() function shall execute the command specified by the string
+// command, create a pipe between the calling program and the executed
+// command, and return a pointer to a stream that can be used to either read
+// from or write to the pipe.
 #if defined(WIN32) || defined(_WIN32) || defined(__WIN32__) || defined(__TOS_WIN__)
     gnucmd = _popen(tmp.c_str(), "w");
 #elif defined(unix) || defined(__unix) || defined(__unix__) || defined(__APPLE__)
@@ -1974,7 +1974,7 @@ bool Gnuplot::get_program_path()
 
     std::list<std::string> ls;
 
-    //split path (one long string) into list ls of strings
+//split path (one long string) into list ls of strings
 #if defined(WIN32) || defined(_WIN32) || defined(__WIN32__) || defined(__TOS_WIN__)
     stringtok(ls, path_str, ";");
 #elif defined(unix) || defined(__unix) || defined(__unix__) || defined(__APPLE__)
@@ -2018,16 +2018,16 @@ bool Gnuplot::file_exists(const std::string &filename, int mode)
             return false;
         }
 
-        // int _access(const char *path, int mode);
-        //  returns 0 if the file has the given mode,
-        //  it returns -1 if the named file does not exist or is not accessible in
-        //  the given mode
-        // mode = 0 (F_OK) (default): checks file for existence only
-        // mode = 1 (X_OK): execution permission
-        // mode = 2 (W_OK): write permission
-        // mode = 4 (R_OK): read permission
-        // mode = 6       : read and write permission
-        // mode = 7       : read, write and execution permission
+// int _access(const char *path, int mode);
+//  returns 0 if the file has the given mode,
+//  it returns -1 if the named file does not exist or is not accessible in
+//  the given mode
+// mode = 0 (F_OK) (default): checks file for existence only
+// mode = 1 (X_OK): execution permission
+// mode = 2 (W_OK): write permission
+// mode = 4 (R_OK): read permission
+// mode = 6       : read and write permission
+// mode = 7       : read, write and execution permission
 #if defined(WIN32) || defined(_WIN32) || defined(__WIN32__) || defined(__TOS_WIN__)
     if (_access(filename.c_str(), mode) == 0)
 #elif defined(unix) || defined(__unix) || defined(__unix__) || defined(__APPLE__)
@@ -2089,19 +2089,19 @@ std::string Gnuplot::create_tmpfile(std::ofstream &tmp)
             throw GnuplotException(except.str());
         }
 
-        // int mkstemp(char *name);
-        // shall replace the contents of the string pointed to by "name" by a unique
-        // filename, and return a file descriptor for the file open for reading and
-        // writing.  Otherwise, -1 shall be returned if no suitable file could be
-        // created.  The string in template should look like a filename with six
-        // trailing 'X' s; mkstemp() replaces each 'X' with a character from the
-        // portable filename character set.  The characters are chosen such that the
-        // resulting name does not duplicate the name of an existing file at the
-        // time of a call to mkstemp()
+// int mkstemp(char *name);
+// shall replace the contents of the string pointed to by "name" by a unique
+// filename, and return a file descriptor for the file open for reading and
+// writing.  Otherwise, -1 shall be returned if no suitable file could be
+// created.  The string in template should look like a filename with six
+// trailing 'X' s; mkstemp() replaces each 'X' with a character from the
+// portable filename character set.  The characters are chosen such that the
+// resulting name does not duplicate the name of an existing file at the
+// time of a call to mkstemp()
 
-        //
-        // open temporary files for output
-        //
+//
+// open temporary files for output
+//
 
 #if defined(WIN32) || defined(_WIN32) || defined(__WIN32__) || defined(__TOS_WIN__)
     if (_mktemp(name) == NULL)
diff --git a/src/tests/unit-tests/signal-processing-blocks/libs/acquisition_dump_reader.cc b/src/tests/unit-tests/signal-processing-blocks/libs/acquisition_dump_reader.cc
index 32b6de6e2..5fcd1308b 100644
--- a/src/tests/unit-tests/signal-processing-blocks/libs/acquisition_dump_reader.cc
+++ b/src/tests/unit-tests/signal-processing-blocks/libs/acquisition_dump_reader.cc
@@ -73,6 +73,7 @@ bool acquisition_dump_reader::read_binary_acq()
             Mat_Close(matfile);
             return false;
         }
+
     std::vector<std::vector<float> >::iterator it1;
     std::vector<float>::iterator it2;
     float* aux = static_cast<float*>(var_->data);
@@ -93,7 +94,13 @@ bool acquisition_dump_reader::read_binary_acq()
 }
 
 
-acquisition_dump_reader::acquisition_dump_reader(const std::string& basename, unsigned int sat, unsigned int doppler_max, unsigned int doppler_step, unsigned int samples_per_code)
+acquisition_dump_reader::acquisition_dump_reader(const std::string& basename,
+    unsigned int sat,
+    unsigned int doppler_max,
+    unsigned int doppler_step,
+    unsigned int samples_per_code,
+    int channel,
+    int execution)
 {
     d_basename = basename;
     d_sat = sat;
@@ -103,7 +110,7 @@ acquisition_dump_reader::acquisition_dump_reader(const std::string& basename, un
     d_num_doppler_bins = static_cast<unsigned int>(ceil(static_cast<double>(static_cast<int>(d_doppler_max) - static_cast<int>(-d_doppler_max)) / static_cast<double>(d_doppler_step)));
     std::vector<std::vector<float> > mag_aux(d_num_doppler_bins, std::vector<float>(d_samples_per_code));
     mag = mag_aux;
-    d_dump_filename = d_basename + "_sat_" + std::to_string(d_sat) + ".mat";
+    d_dump_filename = d_basename + "_ch_" + std::to_string(channel) + "_" + std::to_string(execution) + "_sat_" + std::to_string(d_sat) + ".mat";
     for (unsigned int doppler_index = 0; doppler_index < d_num_doppler_bins; doppler_index++)
         {
             doppler.push_back(-static_cast<int>(d_doppler_max) + d_doppler_step * doppler_index);
diff --git a/src/tests/unit-tests/signal-processing-blocks/libs/acquisition_dump_reader.h b/src/tests/unit-tests/signal-processing-blocks/libs/acquisition_dump_reader.h
index 7dd8ee44b..089d36821 100644
--- a/src/tests/unit-tests/signal-processing-blocks/libs/acquisition_dump_reader.h
+++ b/src/tests/unit-tests/signal-processing-blocks/libs/acquisition_dump_reader.h
@@ -38,7 +38,13 @@
 class acquisition_dump_reader
 {
 public:
-    acquisition_dump_reader(const std::string& basename, unsigned int sat, unsigned int doppler_max, unsigned int doppler_step, unsigned int samples_per_code);
+    acquisition_dump_reader(const std::string& basename,
+        unsigned int sat,
+        unsigned int doppler_max,
+        unsigned int doppler_step,
+        unsigned int samples_per_code,
+        int channel = 0,
+        int execution = 1);
     ~acquisition_dump_reader();
     bool read_binary_acq();
 
diff --git a/src/tests/unit-tests/signal-processing-blocks/tracking/gps_l1_ca_dll_pll_tracking_test.cc b/src/tests/unit-tests/signal-processing-blocks/tracking/gps_l1_ca_dll_pll_tracking_test.cc
index d28289e83..1b3598489 100644
--- a/src/tests/unit-tests/signal-processing-blocks/tracking/gps_l1_ca_dll_pll_tracking_test.cc
+++ b/src/tests/unit-tests/signal-processing-blocks/tracking/gps_l1_ca_dll_pll_tracking_test.cc
@@ -61,6 +61,15 @@ DEFINE_double(CN0_dBHz_start, std::numeric_limits<double>::infinity(), "Enable n
 DEFINE_double(CN0_dBHz_stop, std::numeric_limits<double>::infinity(), "Enable noise generator and set the CN0 stop sweep value [dB-Hz]");
 DEFINE_double(CN0_dB_step, 3.0, "Noise generator CN0 sweep step value [dB]");
 
+DEFINE_double(PLL_bw_hz_start, 40.0, "PLL Wide configuration start sweep value [Hz]");
+DEFINE_double(PLL_bw_hz_stop, 40.0, "PLL Wide configuration stop sweep value [Hz]");
+DEFINE_double(PLL_bw_hz_step, 5.0, "PLL Wide configuration sweep step value [Hz]");
+
+DEFINE_double(DLL_bw_hz_start, 1.5, "DLL Wide configuration start sweep value [Hz]");
+DEFINE_double(DLL_bw_hz_stop, 1.5, "DLL Wide configuration stop sweep value [Hz]");
+DEFINE_double(DLL_bw_hz_step, 0.25, "DLL Wide configuration sweep step value [Hz]");
+
+DEFINE_bool(plot_extra, false, "Enable or disable plots of the correlators output and constellation diagrams");
 
 //Emulated acquisition configuration
 
@@ -148,15 +157,21 @@ public:
     std::vector<double> check_results_doppler(arma::vec& true_time_s,
         arma::vec& true_value,
         arma::vec& meas_time_s,
-        arma::vec& meas_value);
+        arma::vec& meas_value,
+        double& mean_error,
+        double& std_dev_error);
     std::vector<double> check_results_acc_carrier_phase(arma::vec& true_time_s,
         arma::vec& true_value,
         arma::vec& meas_time_s,
-        arma::vec& meas_value);
+        arma::vec& meas_value,
+        double& mean_error,
+        double& std_dev_error);
     std::vector<double> check_results_codephase(arma::vec& true_time_s,
         arma::vec& true_value,
         arma::vec& meas_time_s,
-        arma::vec& meas_value);
+        arma::vec& meas_value,
+        double& mean_error,
+        double& std_dev_error);
 
     GpsL1CADllPllTrackingTest()
     {
@@ -170,7 +185,11 @@ public:
     {
     }
 
-    void configure_receiver();
+    void configure_receiver(double PLL_wide_bw_hz,
+        double DLL_wide_bw_hz,
+        double PLL_narrow_bw_hz,
+        double DLL_narrow_bw_hz,
+        int extend_correlation_symbols);
 
     gr::top_block_sptr top_block;
     std::shared_ptr<GNSSBlockFactory> factory;
@@ -225,7 +244,12 @@ int GpsL1CADllPllTrackingTest::generate_signal()
 }
 
 
-void GpsL1CADllPllTrackingTest::configure_receiver()
+void GpsL1CADllPllTrackingTest::configure_receiver(
+    double PLL_wide_bw_hz,
+    double DLL_wide_bw_hz,
+    double PLL_narrow_bw_hz,
+    double DLL_narrow_bw_hz,
+    int extend_correlation_symbols)
 {
     gnss_synchro.Channel_ID = 0;
     gnss_synchro.System = 'G';
@@ -233,26 +257,40 @@ void GpsL1CADllPllTrackingTest::configure_receiver()
     signal.copy(gnss_synchro.Signal, 2, 0);
     gnss_synchro.PRN = FLAGS_test_satellite_PRN;
 
+    config = std::make_shared<InMemoryConfiguration>();
     config->set_property("GNSS-SDR.internal_fs_sps", std::to_string(baseband_sampling_freq));
     // Set Tracking
     config->set_property("Tracking_1C.implementation", implementation);
     config->set_property("Tracking_1C.item_type", "gr_complex");
-    config->set_property("Tracking_1C.pll_bw_hz", "20.0");
-    config->set_property("Tracking_1C.dll_bw_hz", "1.5");
+    config->set_property("Tracking_1C.pll_bw_hz", std::to_string(PLL_wide_bw_hz));
+    config->set_property("Tracking_1C.dll_bw_hz", std::to_string(DLL_wide_bw_hz));
     config->set_property("Tracking_1C.early_late_space_chips", "0.5");
-    config->set_property("Tracking_1C.extend_correlation_symbols", std::to_string(FLAGS_extend_correlation_symbols));
-    config->set_property("Tracking_1C.pll_bw_narrow_hz", "2.0");
-    config->set_property("Tracking_1C.dll_bw_narrow_hz", "1.0");
+    config->set_property("Tracking_1C.extend_correlation_symbols", std::to_string(extend_correlation_symbols));
+    config->set_property("Tracking_1C.pll_bw_narrow_hz", std::to_string(PLL_narrow_bw_hz));
+    config->set_property("Tracking_1C.dll_bw_narrow_hz", std::to_string(DLL_narrow_bw_hz));
     config->set_property("Tracking_1C.early_late_space_narrow_chips", "0.5");
     config->set_property("Tracking_1C.dump", "true");
     config->set_property("Tracking_1C.dump_filename", "./tracking_ch_");
+
+    std::cout << "*****************************************\n";
+    std::cout << "*** Tracking configuration parameters ***\n";
+    std::cout << "*****************************************\n";
+    std::cout << "pll_bw_hz: " << config->property("Tracking_1C.pll_bw_hz", 0.0) << " Hz\n";
+    std::cout << "dll_bw_hz: " << config->property("Tracking_1C.dll_bw_hz", 0.0) << " Hz\n";
+    std::cout << "pll_bw_narrow_hz: " << config->property("Tracking_1C.pll_bw_narrow_hz", 0.0) << " Hz\n";
+    std::cout << "dll_bw_narrow_hz: " << config->property("Tracking_1C.dll_bw_narrow_hz", 0.0) << " Hz\n";
+    std::cout << "extend_correlation_symbols: " << config->property("Tracking_1C.extend_correlation_symbols", 0) << " Symbols\n";
+    std::cout << "*****************************************\n";
+    std::cout << "*****************************************\n";
 }
 
 
 std::vector<double> GpsL1CADllPllTrackingTest::check_results_doppler(arma::vec& true_time_s,
     arma::vec& true_value,
     arma::vec& meas_time_s,
-    arma::vec& meas_value)
+    arma::vec& meas_value,
+    double& mean_error,
+    double& std_dev_error)
 {
     // 1. True value interpolation to match the measurement times
     arma::vec true_value_interp;
@@ -280,6 +318,9 @@ std::vector<double> GpsL1CADllPllTrackingTest::check_results_doppler(arma::vec&
     double error_mean = arma::mean(err);
     double error_var = arma::var(err);
 
+    mean_error = error_mean;
+    std_dev_error = sqrt(error_var);
+
     // 4. Peaks
     double max_error = arma::max(err);
     double min_error = arma::min(err);
@@ -297,7 +338,9 @@ std::vector<double> GpsL1CADllPllTrackingTest::check_results_doppler(arma::vec&
 std::vector<double> GpsL1CADllPllTrackingTest::check_results_acc_carrier_phase(arma::vec& true_time_s,
     arma::vec& true_value,
     arma::vec& meas_time_s,
-    arma::vec& meas_value)
+    arma::vec& meas_value,
+    double& mean_error,
+    double& std_dev_error)
 {
     // 1. True value interpolation to match the measurement times
     arma::vec true_value_interp;
@@ -323,6 +366,8 @@ std::vector<double> GpsL1CADllPllTrackingTest::check_results_acc_carrier_phase(a
     double error_mean = arma::mean(err);
     double error_var = arma::var(err);
 
+    mean_error = error_mean;
+    std_dev_error = sqrt(error_var);
     // 4. Peaks
     double max_error = arma::max(err);
     double min_error = arma::min(err);
@@ -340,7 +385,9 @@ std::vector<double> GpsL1CADllPllTrackingTest::check_results_acc_carrier_phase(a
 std::vector<double> GpsL1CADllPllTrackingTest::check_results_codephase(arma::vec& true_time_s,
     arma::vec& true_value,
     arma::vec& meas_time_s,
-    arma::vec& meas_value)
+    arma::vec& meas_value,
+    double& mean_error,
+    double& std_dev_error)
 {
     // 1. True value interpolation to match the measurement times
     arma::vec true_value_interp;
@@ -367,6 +414,9 @@ std::vector<double> GpsL1CADllPllTrackingTest::check_results_codephase(arma::vec
     double error_mean = arma::mean(err);
     double error_var = arma::var(err);
 
+    mean_error = error_mean;
+    std_dev_error = sqrt(error_var);
+
     // 4. Peaks
     double max_error = arma::max(err);
     double min_error = arma::min(err);
@@ -389,18 +439,18 @@ TEST_F(GpsL1CADllPllTrackingTest, ValidationOfResults)
 
     std::vector<double> generator_CN0_values;
 
-    std::vector<std::vector<double>> prompt_sweep;
-    std::vector<std::vector<double>> early_sweep;
-    std::vector<std::vector<double>> late_sweep;
-    std::vector<std::vector<double>> promptI_sweep;
-    std::vector<std::vector<double>> promptQ_sweep;
-    std::vector<std::vector<double>> CN0_dBHz_sweep;
 
-    //error vectors
-    std::vector<std::vector<double>> doppler_error_sweep;
-    std::vector<std::vector<double>> code_phase_error_sweep;
-    std::vector<std::vector<double>> acc_carrier_phase_error_sweep;
-    std::vector<std::vector<double>> trk_timestamp_s_sweep;
+    //data containers for config param sweep
+    std::vector<std::vector<double>> mean_doppler_error_sweep;     //swep config param and cn0 sweep
+    std::vector<std::vector<double>> std_dev_doppler_error_sweep;  //swep config param and cn0 sweep
+
+    std::vector<std::vector<double>> mean_code_phase_error_sweep;     //swep config param and cn0 sweep
+    std::vector<std::vector<double>> std_dev_code_phase_error_sweep;  //swep config param and cn0 sweep
+
+    std::vector<std::vector<double>> mean_carrier_phase_error_sweep;     //swep config param and cn0 sweep
+    std::vector<std::vector<double>> std_dev_carrier_phase_error_sweep;  //swep config param and cn0 sweep
+
+    std::vector<std::vector<double>> trk_valid_timestamp_s_sweep;
 
     if (FLAGS_CN0_dBHz_start == FLAGS_CN0_dBHz_stop)
         {
@@ -444,192 +494,430 @@ TEST_F(GpsL1CADllPllTrackingTest, ValidationOfResults)
         }
 
 
-    //CN0 LOOP
+    // CONFIG PARAM SWEEP LOOP
+    std::vector<double> PLL_wide_bw_values;
+    std::vector<double> DLL_wide_bw_values;
 
-    for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+
+    if (FLAGS_PLL_bw_hz_start == FLAGS_PLL_bw_hz_stop)
         {
-            //******************************************************************************************
-            //***** Obtain the initial signal sinchronization parameters (emulating an acquisition) ****
-            //******************************************************************************************
-            if (!FLAGS_enable_external_signal_file)
+            if (FLAGS_DLL_bw_hz_start == FLAGS_DLL_bw_hz_stop)
                 {
-                    test_satellite_PRN = FLAGS_test_satellite_PRN;
-                    std::string true_obs_file = std::string("./gps_l1_ca_obs_prn");
-                    true_obs_file.append(std::to_string(test_satellite_PRN));
-                    true_obs_file.append(".dat");
-                    true_obs_data.close_obs_file();
-                    ASSERT_EQ(true_obs_data.open_obs_file(true_obs_file), true) << "Failure opening true observables file";
-                    // load acquisition data based on the first epoch of the true observations
-                    ASSERT_EQ(true_obs_data.read_binary_obs(), true)
-                        << "Failure reading true tracking dump file." << std::endl
-                        << "Maybe sat PRN #" + std::to_string(FLAGS_test_satellite_PRN) +
-                               " is not available?";
-                    std::cout << "Testing satellite PRN=" << test_satellite_PRN << std::endl;
-                    std::cout << "Initial Doppler [Hz]=" << true_obs_data.doppler_l1_hz << " Initial code delay [Chips]=" << true_obs_data.prn_delay_chips << std::endl;
-                    acq_doppler_hz = true_obs_data.doppler_l1_hz;
-                    acq_delay_samples = (GPS_L1_CA_CODE_LENGTH_CHIPS - true_obs_data.prn_delay_chips / GPS_L1_CA_CODE_LENGTH_CHIPS) * static_cast<double>(baseband_sampling_freq) * GPS_L1_CA_CODE_PERIOD;
-                    // restart the epoch counter
-                    true_obs_data.restart();
+                    //NO PLL/DLL BW sweep
+                    PLL_wide_bw_values.push_back(FLAGS_PLL_bw_hz_start);
+                    DLL_wide_bw_values.push_back(FLAGS_DLL_bw_hz_start);
                 }
-
-
-            //***** STEP 4: Configure the signal tracking parameters *****
-            //************************************************************
-            std::chrono::time_point<std::chrono::system_clock> start, end;
-            configure_receiver();
-
-            top_block = gr::make_top_block("Tracking test");
-
-            std::shared_ptr<GNSSBlockInterface> trk_ = factory->GetBlock(config, "Tracking_1C", implementation, 1, 1);
-            std::shared_ptr<TrackingInterface> tracking = std::dynamic_pointer_cast<TrackingInterface>(trk_);
-
-            boost::shared_ptr<GpsL1CADllPllTrackingTest_msg_rx> msg_rx = GpsL1CADllPllTrackingTest_msg_rx_make();
-
-            gnss_synchro.Acq_delay_samples = acq_delay_samples;
-            gnss_synchro.Acq_doppler_hz = acq_doppler_hz;
-            gnss_synchro.Acq_samplestamp_samples = 0;
-
-            ASSERT_NO_THROW({
-                tracking->set_channel(gnss_synchro.Channel_ID);
-            }) << "Failure setting channel.";
-
-            ASSERT_NO_THROW({
-                tracking->set_gnss_synchro(&gnss_synchro);
-            }) << "Failure setting gnss_synchro.";
-
-            ASSERT_NO_THROW({
-                tracking->connect(top_block);
-            }) << "Failure connecting tracking to the top_block.";
-
-            ASSERT_NO_THROW({
-                std::string file = "./" + filename_raw_data + std::to_string(current_cn0_idx);
-                const char* file_name = file.c_str();
-                gr::blocks::file_source::sptr file_source = gr::blocks::file_source::make(sizeof(int8_t), file_name, false);
-                gr::blocks::interleaved_char_to_complex::sptr gr_interleaved_char_to_complex = gr::blocks::interleaved_char_to_complex::make();
-                gr::blocks::null_sink::sptr sink = gr::blocks::null_sink::make(sizeof(Gnss_Synchro));
-                top_block->connect(file_source, 0, gr_interleaved_char_to_complex, 0);
-                top_block->connect(gr_interleaved_char_to_complex, 0, tracking->get_left_block(), 0);
-                top_block->connect(tracking->get_right_block(), 0, sink, 0);
-                top_block->msg_connect(tracking->get_right_block(), pmt::mp("events"), msg_rx, pmt::mp("events"));
-            }) << "Failure connecting the blocks of tracking test.";
-
-
-            //********************************************************************
-            //***** STEP 5: Perform the signal tracking and read the results *****
-            //********************************************************************
-            tracking->start_tracking();
-
-            EXPECT_NO_THROW({
-                start = std::chrono::system_clock::now();
-                top_block->run();  // Start threads and wait
-                end = std::chrono::system_clock::now();
-            }) << "Failure running the top_block.";
-
-            std::chrono::duration<double> elapsed_seconds = end - start;
-            std::cout << "Signal tracking completed in " << elapsed_seconds.count() << " seconds" << std::endl;
-
-            //check results
-            //load the measured values
-            tracking_dump_reader trk_dump;
-            ASSERT_EQ(trk_dump.open_obs_file(std::string("./tracking_ch_0.dat")), true)
-                << "Failure opening tracking dump file";
-
-            long int n_measured_epochs = trk_dump.num_epochs();
-            std::cout << "Measured observation epochs=" << n_measured_epochs << std::endl;
-
-            arma::vec trk_timestamp_s = arma::zeros(n_measured_epochs, 1);
-            arma::vec trk_acc_carrier_phase_cycles = arma::zeros(n_measured_epochs, 1);
-            arma::vec trk_Doppler_Hz = arma::zeros(n_measured_epochs, 1);
-            arma::vec trk_prn_delay_chips = arma::zeros(n_measured_epochs, 1);
-
-            long int epoch_counter = 0;
-
-            std::vector<double> prompt;
-            std::vector<double> early;
-            std::vector<double> late;
-            std::vector<double> promptI;
-            std::vector<double> promptQ;
-            std::vector<double> CN0_dBHz;
-            while (trk_dump.read_binary_obs())
+            else
                 {
-                    trk_timestamp_s(epoch_counter) = static_cast<double>(trk_dump.PRN_start_sample_count) / static_cast<double>(baseband_sampling_freq);
-                    trk_acc_carrier_phase_cycles(epoch_counter) = trk_dump.acc_carrier_phase_rad / GPS_TWO_PI;
-                    trk_Doppler_Hz(epoch_counter) = trk_dump.carrier_doppler_hz;
-                    double delay_chips = GPS_L1_CA_CODE_LENGTH_CHIPS - GPS_L1_CA_CODE_LENGTH_CHIPS * (fmod((static_cast<double>(trk_dump.PRN_start_sample_count) + trk_dump.aux1) / static_cast<double>(baseband_sampling_freq), 1.0e-3) / 1.0e-3);
-
-                    trk_prn_delay_chips(epoch_counter) = delay_chips;
-                    epoch_counter++;
-
-
-                    prompt.push_back(trk_dump.abs_P);
-                    early.push_back(trk_dump.abs_E);
-                    late.push_back(trk_dump.abs_L);
-                    promptI.push_back(trk_dump.prompt_I);
-                    promptQ.push_back(trk_dump.prompt_Q);
-                    CN0_dBHz.push_back(trk_dump.CN0_SNV_dB_Hz);
+                    //DLL BW Sweep
+                    for (double dll_bw = FLAGS_DLL_bw_hz_start; dll_bw > FLAGS_DLL_bw_hz_stop; dll_bw = dll_bw - FLAGS_DLL_bw_hz_step)
+                        {
+                            PLL_wide_bw_values.push_back(FLAGS_PLL_bw_hz_start);
+                            DLL_wide_bw_values.push_back(dll_bw);
+                        }
                 }
-
-            prompt_sweep.push_back(prompt);
-            early_sweep.push_back(early);
-            late_sweep.push_back(late);
-            promptI_sweep.push_back(promptI);
-            promptQ_sweep.push_back(promptQ);
-            CN0_dBHz_sweep.push_back(CN0_dBHz);
-
-            //***********************************************************
-            //***** STEP 6: Compare with true values (if available) *****
-            //***********************************************************
-            if (!FLAGS_enable_external_signal_file)
+        }
+    else
+        {
+            //PLL BW Sweep
+            for (double pll_bw = FLAGS_PLL_bw_hz_start; pll_bw > FLAGS_PLL_bw_hz_stop; pll_bw = pll_bw - FLAGS_PLL_bw_hz_step)
                 {
-                    // load the true values
-                    long int n_true_epochs = true_obs_data.num_epochs();
-                    std::cout << "True observation epochs=" << n_true_epochs << std::endl;
+                    PLL_wide_bw_values.push_back(pll_bw);
+                    DLL_wide_bw_values.push_back(FLAGS_DLL_bw_hz_start);
+                }
+        }
 
-                    arma::vec true_timestamp_s = arma::zeros(n_true_epochs, 1);
-                    arma::vec true_acc_carrier_phase_cycles = arma::zeros(n_true_epochs, 1);
-                    arma::vec true_Doppler_Hz = arma::zeros(n_true_epochs, 1);
-                    arma::vec true_prn_delay_chips = arma::zeros(n_true_epochs, 1);
-                    arma::vec true_tow_s = arma::zeros(n_true_epochs, 1);
+    for (int config_idx = 0; config_idx < PLL_wide_bw_values.size(); config_idx++)
+        {
+            //CN0 LOOP
+            // data containers for CN0 sweep
+            std::vector<std::vector<double>> prompt_sweep;
+            std::vector<std::vector<double>> early_sweep;
+            std::vector<std::vector<double>> late_sweep;
+            std::vector<std::vector<double>> promptI_sweep;
+            std::vector<std::vector<double>> promptQ_sweep;
+            std::vector<std::vector<double>> CN0_dBHz_sweep;
+            std::vector<std::vector<double>> trk_timestamp_s_sweep;
+
+            std::vector<std::vector<double>> doppler_error_sweep;
+            std::vector<std::vector<double>> code_phase_error_sweep;
+            std::vector<std::vector<double>> acc_carrier_phase_error_sweep;
+
+            std::vector<double> mean_doppler_error;
+            std::vector<double> std_dev_doppler_error;
+            std::vector<double> mean_code_phase_error;
+            std::vector<double> std_dev_code_phase_error;
+            std::vector<double> mean_carrier_phase_error;
+            std::vector<double> std_dev_carrier_phase_error;
+
+            configure_receiver(PLL_wide_bw_values.at(config_idx),
+                DLL_wide_bw_values.at(config_idx),
+                2.0,
+                1.0,
+                FLAGS_extend_correlation_symbols);
+            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+                {
+                    //******************************************************************************************
+                    //***** Obtain the initial signal sinchronization parameters (emulating an acquisition) ****
+                    //******************************************************************************************
+                    if (!FLAGS_enable_external_signal_file)
+                        {
+                            test_satellite_PRN = FLAGS_test_satellite_PRN;
+                            std::string true_obs_file = std::string("./gps_l1_ca_obs_prn");
+                            true_obs_file.append(std::to_string(test_satellite_PRN));
+                            true_obs_file.append(".dat");
+                            true_obs_data.close_obs_file();
+                            ASSERT_EQ(true_obs_data.open_obs_file(true_obs_file), true) << "Failure opening true observables file";
+                            // load acquisition data based on the first epoch of the true observations
+                            ASSERT_EQ(true_obs_data.read_binary_obs(), true)
+                                << "Failure reading true tracking dump file." << std::endl
+                                << "Maybe sat PRN #" + std::to_string(FLAGS_test_satellite_PRN) +
+                                       " is not available?";
+                            std::cout << "Testing satellite PRN=" << test_satellite_PRN << std::endl;
+                            std::cout << "Initial Doppler [Hz]=" << true_obs_data.doppler_l1_hz << " Initial code delay [Chips]=" << true_obs_data.prn_delay_chips << std::endl;
+                            acq_doppler_hz = true_obs_data.doppler_l1_hz;
+                            acq_delay_samples = (GPS_L1_CA_CODE_LENGTH_CHIPS - true_obs_data.prn_delay_chips / GPS_L1_CA_CODE_LENGTH_CHIPS) * static_cast<double>(baseband_sampling_freq) * GPS_L1_CA_CODE_PERIOD;
+                            // restart the epoch counter
+                            true_obs_data.restart();
+                        }
+
+
+                    //***** STEP 4: Configure the signal tracking parameters *****
+                    //************************************************************
+                    std::chrono::time_point<std::chrono::system_clock> start, end;
+
+                    top_block = gr::make_top_block("Tracking test");
+
+                    std::shared_ptr<GNSSBlockInterface> trk_ = factory->GetBlock(config, "Tracking_1C", implementation, 1, 1);
+                    std::shared_ptr<TrackingInterface> tracking = std::dynamic_pointer_cast<TrackingInterface>(trk_);
+
+                    boost::shared_ptr<GpsL1CADllPllTrackingTest_msg_rx> msg_rx = GpsL1CADllPllTrackingTest_msg_rx_make();
+
+                    gnss_synchro.Acq_delay_samples = acq_delay_samples;
+                    gnss_synchro.Acq_doppler_hz = acq_doppler_hz;
+                    gnss_synchro.Acq_samplestamp_samples = 0;
+
+                    ASSERT_NO_THROW({
+                        tracking->set_channel(gnss_synchro.Channel_ID);
+                    }) << "Failure setting channel.";
+
+                    ASSERT_NO_THROW({
+                        tracking->set_gnss_synchro(&gnss_synchro);
+                    }) << "Failure setting gnss_synchro.";
+
+                    ASSERT_NO_THROW({
+                        tracking->connect(top_block);
+                    }) << "Failure connecting tracking to the top_block.";
+
+                    ASSERT_NO_THROW({
+                        std::string file = "./" + filename_raw_data + std::to_string(current_cn0_idx);
+                        const char* file_name = file.c_str();
+                        gr::blocks::file_source::sptr file_source = gr::blocks::file_source::make(sizeof(int8_t), file_name, false);
+                        gr::blocks::interleaved_char_to_complex::sptr gr_interleaved_char_to_complex = gr::blocks::interleaved_char_to_complex::make();
+                        gr::blocks::null_sink::sptr sink = gr::blocks::null_sink::make(sizeof(Gnss_Synchro));
+                        top_block->connect(file_source, 0, gr_interleaved_char_to_complex, 0);
+                        top_block->connect(gr_interleaved_char_to_complex, 0, tracking->get_left_block(), 0);
+                        top_block->connect(tracking->get_right_block(), 0, sink, 0);
+                        top_block->msg_connect(tracking->get_right_block(), pmt::mp("events"), msg_rx, pmt::mp("events"));
+                    }) << "Failure connecting the blocks of tracking test.";
+
+
+                    //********************************************************************
+                    //***** STEP 5: Perform the signal tracking and read the results *****
+                    //********************************************************************
+                    tracking->start_tracking();
+
+                    EXPECT_NO_THROW({
+                        start = std::chrono::system_clock::now();
+                        top_block->run();  // Start threads and wait
+                        end = std::chrono::system_clock::now();
+                    }) << "Failure running the top_block.";
+
+                    std::chrono::duration<double> elapsed_seconds = end - start;
+                    std::cout << "Signal tracking completed in " << elapsed_seconds.count() << " seconds" << std::endl;
+
+                    //check results
+                    //load the measured values
+                    tracking_dump_reader trk_dump;
+                    ASSERT_EQ(trk_dump.open_obs_file(std::string("./tracking_ch_0.dat")), true)
+                        << "Failure opening tracking dump file";
+
+                    long int n_measured_epochs = trk_dump.num_epochs();
+                    std::cout << "Measured observation epochs=" << n_measured_epochs << std::endl;
+
+                    arma::vec trk_timestamp_s = arma::zeros(n_measured_epochs, 1);
+                    arma::vec trk_acc_carrier_phase_cycles = arma::zeros(n_measured_epochs, 1);
+                    arma::vec trk_Doppler_Hz = arma::zeros(n_measured_epochs, 1);
+                    arma::vec trk_prn_delay_chips = arma::zeros(n_measured_epochs, 1);
 
                     long int epoch_counter = 0;
-                    while (true_obs_data.read_binary_obs())
+
+                    std::vector<double> timestamp_s;
+                    std::vector<double> prompt;
+                    std::vector<double> early;
+                    std::vector<double> late;
+                    std::vector<double> promptI;
+                    std::vector<double> promptQ;
+                    std::vector<double> CN0_dBHz;
+                    while (trk_dump.read_binary_obs())
                         {
-                            true_timestamp_s(epoch_counter) = true_obs_data.signal_timestamp_s;
-                            true_acc_carrier_phase_cycles(epoch_counter) = true_obs_data.acc_carrier_phase_cycles;
-                            true_Doppler_Hz(epoch_counter) = true_obs_data.doppler_l1_hz;
-                            true_prn_delay_chips(epoch_counter) = true_obs_data.prn_delay_chips;
-                            true_tow_s(epoch_counter) = true_obs_data.tow;
+                            trk_timestamp_s(epoch_counter) = static_cast<double>(trk_dump.PRN_start_sample_count) / static_cast<double>(baseband_sampling_freq);
+                            trk_acc_carrier_phase_cycles(epoch_counter) = trk_dump.acc_carrier_phase_rad / GPS_TWO_PI;
+                            trk_Doppler_Hz(epoch_counter) = trk_dump.carrier_doppler_hz;
+                            double delay_chips = GPS_L1_CA_CODE_LENGTH_CHIPS - GPS_L1_CA_CODE_LENGTH_CHIPS * (fmod((static_cast<double>(trk_dump.PRN_start_sample_count) + trk_dump.aux1) / static_cast<double>(baseband_sampling_freq), 1.0e-3) / 1.0e-3);
+
+                            trk_prn_delay_chips(epoch_counter) = delay_chips;
+
+                            timestamp_s.push_back(trk_timestamp_s(epoch_counter));
+                            prompt.push_back(trk_dump.abs_P);
+                            early.push_back(trk_dump.abs_E);
+                            late.push_back(trk_dump.abs_L);
+                            promptI.push_back(trk_dump.prompt_I);
+                            promptQ.push_back(trk_dump.prompt_Q);
+                            CN0_dBHz.push_back(trk_dump.CN0_SNV_dB_Hz);
+
                             epoch_counter++;
                         }
-                    // Align initial measurements and cut the tracking pull-in transitory
-                    double pull_in_offset_s = 1.0;
-                    arma::uvec initial_meas_point = arma::find(trk_timestamp_s >= (true_timestamp_s(0) + pull_in_offset_s), 1, "first");
+                    trk_timestamp_s_sweep.push_back(timestamp_s);
+                    prompt_sweep.push_back(prompt);
+                    early_sweep.push_back(early);
+                    late_sweep.push_back(late);
+                    promptI_sweep.push_back(promptI);
+                    promptQ_sweep.push_back(promptQ);
+                    CN0_dBHz_sweep.push_back(CN0_dBHz);
 
-                    trk_timestamp_s = trk_timestamp_s.subvec(initial_meas_point(0), trk_timestamp_s.size() - 1);
-                    trk_acc_carrier_phase_cycles = trk_acc_carrier_phase_cycles.subvec(initial_meas_point(0), trk_acc_carrier_phase_cycles.size() - 1);
-                    trk_Doppler_Hz = trk_Doppler_Hz.subvec(initial_meas_point(0), trk_Doppler_Hz.size() - 1);
-                    trk_prn_delay_chips = trk_prn_delay_chips.subvec(initial_meas_point(0), trk_prn_delay_chips.size() - 1);
+                    //***********************************************************
+                    //***** STEP 6: Compare with true values (if available) *****
+                    //***********************************************************
+                    if (!FLAGS_enable_external_signal_file)
+                        {
+                            std::vector<double> doppler_error_hz;
+                            std::vector<double> code_phase_error_chips;
+                            std::vector<double> acc_carrier_phase_hz;
+                            try
+                                {
+                                    // load the true values
+                                    long int n_true_epochs = true_obs_data.num_epochs();
+                                    std::cout << "True observation epochs=" << n_true_epochs << std::endl;
 
-                    std::vector<double> doppler_error_hz;
-                    std::vector<double> code_phase_error_chips;
-                    std::vector<double> acc_carrier_phase_hz;
-                    doppler_error_hz = check_results_doppler(true_timestamp_s, true_Doppler_Hz, trk_timestamp_s, trk_Doppler_Hz);
-                    code_phase_error_chips = check_results_codephase(true_timestamp_s, true_prn_delay_chips, trk_timestamp_s, trk_prn_delay_chips);
-                    acc_carrier_phase_hz = check_results_acc_carrier_phase(true_timestamp_s, true_acc_carrier_phase_cycles, trk_timestamp_s, trk_acc_carrier_phase_cycles);
-                    //save tracking measurement timestamps to std::vector
-                    std::vector<double> vector_trk_timestamp_s(trk_timestamp_s.colptr(0), trk_timestamp_s.colptr(0) + trk_timestamp_s.n_rows);
-                    trk_timestamp_s_sweep.push_back(vector_trk_timestamp_s);
+                                    arma::vec true_timestamp_s = arma::zeros(n_true_epochs, 1);
+                                    arma::vec true_acc_carrier_phase_cycles = arma::zeros(n_true_epochs, 1);
+                                    arma::vec true_Doppler_Hz = arma::zeros(n_true_epochs, 1);
+                                    arma::vec true_prn_delay_chips = arma::zeros(n_true_epochs, 1);
+                                    arma::vec true_tow_s = arma::zeros(n_true_epochs, 1);
 
-                    doppler_error_sweep.push_back(doppler_error_hz);
-                    code_phase_error_sweep.push_back(code_phase_error_chips);
-                    acc_carrier_phase_error_sweep.push_back(acc_carrier_phase_hz);
+                                    long int epoch_counter = 0;
+                                    while (true_obs_data.read_binary_obs())
+                                        {
+                                            true_timestamp_s(epoch_counter) = true_obs_data.signal_timestamp_s;
+                                            true_acc_carrier_phase_cycles(epoch_counter) = true_obs_data.acc_carrier_phase_cycles;
+                                            true_Doppler_Hz(epoch_counter) = true_obs_data.doppler_l1_hz;
+                                            true_prn_delay_chips(epoch_counter) = true_obs_data.prn_delay_chips;
+                                            true_tow_s(epoch_counter) = true_obs_data.tow;
+                                            epoch_counter++;
+                                        }
+                                    // Align initial measurements and cut the tracking pull-in transitory
+                                    double pull_in_offset_s = 1.0;
+
+                                    arma::uvec initial_meas_point = arma::find(trk_timestamp_s >= (true_timestamp_s(0) + pull_in_offset_s), 1, "first");
+
+                                    trk_timestamp_s = trk_timestamp_s.subvec(initial_meas_point(0), trk_timestamp_s.size() - 1);
+                                    trk_acc_carrier_phase_cycles = trk_acc_carrier_phase_cycles.subvec(initial_meas_point(0), trk_acc_carrier_phase_cycles.size() - 1);
+                                    trk_Doppler_Hz = trk_Doppler_Hz.subvec(initial_meas_point(0), trk_Doppler_Hz.size() - 1);
+                                    trk_prn_delay_chips = trk_prn_delay_chips.subvec(initial_meas_point(0), trk_prn_delay_chips.size() - 1);
+
+
+                                    double mean_error;
+                                    double std_dev_error;
+
+                                    doppler_error_hz = check_results_doppler(true_timestamp_s, true_Doppler_Hz, trk_timestamp_s, trk_Doppler_Hz, mean_error, std_dev_error);
+                                    mean_doppler_error.push_back(mean_error);
+                                    std_dev_doppler_error.push_back(std_dev_error);
+
+                                    code_phase_error_chips = check_results_codephase(true_timestamp_s, true_prn_delay_chips, trk_timestamp_s, trk_prn_delay_chips, mean_error, std_dev_error);
+                                    mean_code_phase_error.push_back(mean_error);
+                                    std_dev_code_phase_error.push_back(std_dev_error);
+
+                                    acc_carrier_phase_hz = check_results_acc_carrier_phase(true_timestamp_s, true_acc_carrier_phase_cycles, trk_timestamp_s, trk_acc_carrier_phase_cycles, mean_error, std_dev_error);
+                                    mean_carrier_phase_error.push_back(mean_error);
+                                    std_dev_carrier_phase_error.push_back(std_dev_error);
+
+                                    //save tracking measurement timestamps to std::vector
+                                    std::vector<double> vector_trk_timestamp_s(trk_timestamp_s.colptr(0), trk_timestamp_s.colptr(0) + trk_timestamp_s.n_rows);
+                                    trk_valid_timestamp_s_sweep.push_back(vector_trk_timestamp_s);
+
+                                    doppler_error_sweep.push_back(doppler_error_hz);
+                                    code_phase_error_sweep.push_back(code_phase_error_chips);
+                                    acc_carrier_phase_error_sweep.push_back(acc_carrier_phase_hz);
+                                }
+                            catch (const std::exception& ex)
+                                {
+                                    std::cout << "Tracking output could not be used, possible loss of lock " << ex.what() << std::endl;
+
+                                    std::vector<double> vector_trk_timestamp_s;
+                                    trk_valid_timestamp_s_sweep.push_back(vector_trk_timestamp_s);
+                                    doppler_error_sweep.push_back(doppler_error_hz);
+                                    code_phase_error_sweep.push_back(code_phase_error_chips);
+                                    acc_carrier_phase_error_sweep.push_back(acc_carrier_phase_hz);
+                                }
+                        }
+
+                }  //CN0 LOOP
+
+            if (!FLAGS_enable_external_signal_file)
+                {
+                    mean_doppler_error_sweep.push_back(mean_doppler_error);
+                    std_dev_doppler_error_sweep.push_back(std_dev_doppler_error);
+                    mean_code_phase_error_sweep.push_back(mean_code_phase_error);
+                    std_dev_code_phase_error_sweep.push_back(std_dev_code_phase_error);
+                    mean_carrier_phase_error_sweep.push_back(mean_carrier_phase_error);
+                    std_dev_carrier_phase_error_sweep.push_back(std_dev_carrier_phase_error);
                 }
 
-        }  //CN0 LOOP
+            std::cout << "A\n\n\n";
+            //********************************
+            //***** STEP 7: Plot results *****
+            //********************************
+            if (FLAGS_plot_gps_l1_tracking_test == true)
+                {
+                    const std::string gnuplot_executable(FLAGS_gnuplot_executable);
+                    if (gnuplot_executable.empty())
+                        {
+                            std::cout << "WARNING: Although the flag plot_gps_l1_tracking_test has been set to TRUE," << std::endl;
+                            std::cout << "gnuplot has not been found in your system." << std::endl;
+                            std::cout << "Test results will not be plotted." << std::endl;
+                        }
+                    else
+                        {
+                            try
+                                {
+                                    boost::filesystem::path p(gnuplot_executable);
+                                    boost::filesystem::path dir = p.parent_path();
+                                    std::string gnuplot_path = dir.native();
+                                    Gnuplot::set_GNUPlotPath(gnuplot_path);
+                                    unsigned int decimate = static_cast<unsigned int>(FLAGS_plot_decimate);
+
+                                    if (FLAGS_plot_extra)
+                                        {
+                                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+                                                {
+                                                    Gnuplot g1("linespoints");
+                                                    g1.showonscreen();  // window output
+                                                    g1.set_title(std::to_string(generator_CN0_values.at(current_cn0_idx)) + " dB-Hz, " + "PLL/DLL BW: " + std::to_string(PLL_wide_bw_values.at(config_idx)) + "," + std::to_string(DLL_wide_bw_values.at(config_idx)) + " Hz" + "GPS L1 C/A (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                                    g1.set_grid();
+                                                    g1.set_xlabel("Time [s]");
+                                                    g1.set_ylabel("Correlators' output");
+                                                    //g1.cmd("set key box opaque");
+                                                    g1.plot_xy(trk_timestamp_s_sweep.at(current_cn0_idx), prompt_sweep.at(current_cn0_idx), "Prompt", decimate);
+                                                    g1.plot_xy(trk_timestamp_s_sweep.at(current_cn0_idx), early_sweep.at(current_cn0_idx), "Early", decimate);
+                                                    g1.plot_xy(trk_timestamp_s_sweep.at(current_cn0_idx), late_sweep.at(current_cn0_idx), "Late", decimate);
+                                                    g1.set_legend();
+                                                    g1.savetops("Correlators_outputs" + std::to_string(generator_CN0_values.at(current_cn0_idx)));
+                                                    g1.savetopdf("Correlators_outputs" + std::to_string(generator_CN0_values.at(current_cn0_idx)), 18);
+                                                }
+                                            Gnuplot g2("points");
+                                            g2.showonscreen();  // window output
+                                            g2.set_multiplot(ceil(static_cast<float>(generator_CN0_values.size()) / 2.0),
+                                                ceil(static_cast<float>(generator_CN0_values.size()) / 2));
+                                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+                                                {
+                                                    g2.reset_plot();
+                                                    g2.set_title(std::to_string(generator_CN0_values.at(current_cn0_idx)) + " dB-Hz Constellation " + "PLL/DLL BW: " + std::to_string(PLL_wide_bw_values.at(config_idx)) + "," + std::to_string(DLL_wide_bw_values.at(config_idx)) + " Hz" + "GPS L1 C/A (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                                    g2.set_grid();
+                                                    g2.set_xlabel("Inphase");
+                                                    g2.set_ylabel("Quadrature");
+                                                    //g2.cmd("set size ratio -1");
+                                                    g2.plot_xy(promptI_sweep.at(current_cn0_idx), promptQ_sweep.at(current_cn0_idx));
+                                                }
+                                            g2.unset_multiplot();
+                                            g2.savetops("Constellation");
+                                            g2.savetopdf("Constellation", 18);
+
+                                            Gnuplot g3("linespoints");
+                                            g3.set_title("GPS L1 C/A tracking CN0 output (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                            g3.set_grid();
+                                            g3.set_xlabel("Time [s]");
+                                            g3.set_ylabel("Reported CN0 [dB-Hz]");
+                                            g3.cmd("set key box opaque");
+                                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+                                                {
+                                                    g3.plot_xy(trk_timestamp_s_sweep.at(current_cn0_idx), CN0_dBHz_sweep.at(current_cn0_idx),
+                                                        std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz]", decimate);
+                                                }
+                                            g3.set_legend();
+                                            g3.savetops("CN0_output");
+                                            g3.savetopdf("CN0_output", 18);
+                                            g3.showonscreen();  // window output
+                                        }
+
+                                    std::cout << "B\n\n\n";
+                                    //PLOT ERROR FIGURES (only if it is used the signal generator)
+                                    if (!FLAGS_enable_external_signal_file)
+                                        {
+                                            Gnuplot g4("points");
+                                            g4.showonscreen();  // window output
+                                            g4.set_multiplot(ceil(static_cast<float>(generator_CN0_values.size()) / 2.0),
+                                                ceil(static_cast<float>(generator_CN0_values.size()) / 2));
+                                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+                                                {
+                                                    g4.reset_plot();
+                                                    g4.set_title(std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz] Doppler error " + "PLL/DLL BW: " + std::to_string(PLL_wide_bw_values.at(config_idx)) + "," + std::to_string(DLL_wide_bw_values.at(config_idx)) + " Hz (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                                    g4.set_grid();
+                                                    //g4.cmd("set key box opaque");
+                                                    g4.set_xlabel("Time [s]");
+                                                    g4.set_ylabel("Dopper error [Hz]");
+                                                    g4.plot_xy(trk_valid_timestamp_s_sweep.at(current_cn0_idx), doppler_error_sweep.at(current_cn0_idx),
+                                                        std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz]", decimate);
+                                                    //g4.set_legend();
+                                                }
+                                            g4.unset_multiplot();
+                                            g4.savetops("Doppler_error_output");
+                                            g4.savetopdf("Doppler_error_output", 18);
+
+                                            Gnuplot g5("points");
+                                            g5.set_title("Code delay error, PLL/DLL BW: " + std::to_string(PLL_wide_bw_values.at(config_idx)) + "," + std::to_string(DLL_wide_bw_values.at(config_idx)) + " Hz (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                            g5.set_grid();
+                                            g5.set_xlabel("Time [s]");
+                                            g5.set_ylabel("Code delay error [Chips]");
+                                            g5.cmd("set key box opaque");
+
+                                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+                                                {
+                                                    g5.plot_xy(trk_valid_timestamp_s_sweep.at(current_cn0_idx), code_phase_error_sweep.at(current_cn0_idx),
+                                                        std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz]", decimate);
+                                                }
+                                            g5.set_legend();
+                                            g5.savetops("Code_error_output");
+                                            g5.savetopdf("Code_error_output", 18);
+                                            g5.showonscreen();  // window output
+
+                                            Gnuplot g6("points");
+                                            g6.set_title("Accumulated carrier phase error, PLL/DLL BW: " + std::to_string(PLL_wide_bw_values.at(config_idx)) + "," + std::to_string(DLL_wide_bw_values.at(config_idx)) + " Hz (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                            g6.set_grid();
+                                            g6.set_xlabel("Time [s]");
+                                            g6.set_ylabel("Accumulated carrier phase error [Cycles]");
+                                            g6.cmd("set key box opaque");
+
+                                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+                                                {
+                                                    g6.plot_xy(trk_valid_timestamp_s_sweep.at(current_cn0_idx), acc_carrier_phase_error_sweep.at(current_cn0_idx),
+                                                        std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz]", decimate);
+                                                }
+                                            g6.set_legend();
+                                            g6.savetops("Carrier_phase_error_output");
+                                            g6.savetopdf("Carrier_phase_error_output", 18);
+                                            g6.showonscreen();  // window output
+                                        }
+                                }
+                            catch (const GnuplotException& ge)
+                                {
+                                    std::cout << ge.what() << std::endl;
+                                }
+                        }
+                }
+        }
+
 
-    //********************************
-    //***** STEP 7: Plot results *****
-    //********************************
     if (FLAGS_plot_gps_l1_tracking_test == true)
         {
             const std::string gnuplot_executable(FLAGS_gnuplot_executable);
@@ -643,110 +931,67 @@ TEST_F(GpsL1CADllPllTrackingTest, ValidationOfResults)
                 {
                     try
                         {
-                            boost::filesystem::path p(gnuplot_executable);
-                            boost::filesystem::path dir = p.parent_path();
-                            std::string gnuplot_path = dir.native();
-                            Gnuplot::set_GNUPlotPath(gnuplot_path);
-                            std::vector<double> timevec;
-                            unsigned int decimate = static_cast<unsigned int>(FLAGS_plot_decimate);
-                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
+                            if (generator_CN0_values.size() > 1)
                                 {
-                                    timevec.clear();
-                                    //todo: timevector MUST BE READED from the trk output file
-                                    double t = 0.0;
-                                    for (auto it = prompt_sweep.at(current_cn0_idx).begin(); it != prompt_sweep.at(current_cn0_idx).end(); it++)
+                                    //plot metrics
+
+                                    Gnuplot g7("linespoints");
+                                    g7.set_title("Doppler error metrics (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                    g7.set_grid();
+                                    g7.set_xlabel("CN0 [dB-Hz]");
+                                    g7.set_ylabel("Doppler error [Hz]");
+                                    g7.set_pointsize(2);
+                                    g7.cmd("set termoption lw 2");
+                                    g7.cmd("set key box opaque");
+                                    for (int config_sweep_idx = 0; config_sweep_idx < mean_doppler_error_sweep.size(); config_sweep_idx++)
                                         {
-                                            timevec.push_back(t);
-                                            t = t + GPS_L1_CA_CODE_PERIOD;
+                                            g7.plot_xy_err(generator_CN0_values,
+                                                mean_doppler_error_sweep.at(config_sweep_idx),
+                                                std_dev_doppler_error_sweep.at(config_sweep_idx),
+                                                "PLL/DLL BW: " + std::to_string(PLL_wide_bw_values.at(config_sweep_idx)) +
+                                                    +"," + std::to_string(DLL_wide_bw_values.at(config_sweep_idx)) + " Hz");
                                         }
-                                    Gnuplot g1("linespoints");
-                                    g1.set_title("[" + std::to_string(generator_CN0_values.at(current_cn0_idx)) + " dB-Hz ] GPS L1 C/A signal tracking correlators' output (satellite PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
-                                    g1.set_grid();
-                                    g1.set_xlabel("Time [s]");
-                                    g1.set_ylabel("Correlators' output");
-                                    g1.cmd("set key box opaque");
-                                    g1.plot_xy(timevec, prompt_sweep.at(current_cn0_idx), "Prompt", decimate);
-                                    g1.plot_xy(timevec, early_sweep.at(current_cn0_idx), "Early", decimate);
-                                    g1.plot_xy(timevec, late_sweep.at(current_cn0_idx), "Late", decimate);
-                                    g1.savetops("Correlators_outputs");
-                                    g1.savetopdf("Correlators_outputs", 18);
-                                    g1.showonscreen();  // window output
-                                    Gnuplot g2("points");
-                                    g2.set_title("[" + std::to_string(generator_CN0_values.at(current_cn0_idx)) + " dB-Hz ] Constellation diagram (satellite PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
-                                    g2.set_grid();
-                                    g2.set_xlabel("Inphase");
-                                    g2.set_ylabel("Quadrature");
-                                    g2.cmd("set size ratio -1");
-                                    g2.plot_xy(promptI_sweep.at(current_cn0_idx), promptQ_sweep.at(current_cn0_idx));
-                                    g2.savetops("Constellation");
-                                    g2.savetopdf("Constellation", 18);
-                                    g2.showonscreen();  // window output
-                                }
-                            Gnuplot g3("linespoints");
-                            g3.set_title("GPS L1 C/A tracking CN0 output (satellite PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
-                            g3.set_grid();
-                            g3.set_xlabel("Time [s]");
-                            g3.set_ylabel("Reported CN0 [dB-Hz]");
-                            g3.cmd("set key box opaque");
-                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
-                                {
-                                    g3.plot_xy(timevec, CN0_dBHz_sweep.at(current_cn0_idx),
-                                        std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz]", decimate);
-                                }
-                            g3.set_legend();
-                            g3.savetops("CN0_output");
-                            g3.savetopdf("CN0_output", 18);
-                            g3.showonscreen();  // window output
+                                    g7.savetops("Doppler_error_metrics");
+                                    g7.savetopdf("Doppler_error_metrics", 18);
 
-                            Gnuplot g4("points");
-                            g4.set_title("Doppler error (satellite PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
-                            g4.set_grid();
-                            g4.set_xlabel("Time [s]");
-                            g4.set_ylabel("Dopper error [Hz]");
-                            g4.cmd("set key box opaque");
-                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
-                                {
-                                    g4.plot_xy(trk_timestamp_s_sweep.at(current_cn0_idx), doppler_error_sweep.at(current_cn0_idx),
-                                        std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz]", decimate);
+                                    Gnuplot g8("linespoints");
+                                    g8.set_title("Accumulated carrier phase error metrics (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                    g8.set_grid();
+                                    g8.set_xlabel("CN0 [dB-Hz]");
+                                    g8.set_ylabel("Accumulated Carrier Phase error [Cycles]");
+                                    g8.cmd("set key box opaque");
+                                    g8.cmd("set termoption lw 2");
+                                    g8.set_pointsize(2);
+                                    for (int config_sweep_idx = 0; config_sweep_idx < mean_doppler_error_sweep.size(); config_sweep_idx++)
+                                        {
+                                            g8.plot_xy_err(generator_CN0_values,
+                                                mean_carrier_phase_error_sweep.at(config_sweep_idx),
+                                                std_dev_carrier_phase_error_sweep.at(config_sweep_idx),
+                                                "PLL/DLL BW: " + std::to_string(PLL_wide_bw_values.at(config_sweep_idx)) +
+                                                    +"," + std::to_string(DLL_wide_bw_values.at(config_sweep_idx)) + " Hz");
+                                        }
+                                    g8.savetops("Carrier_error_metrics");
+                                    g8.savetopdf("Carrier_error_metrics", 18);
+
+                                    Gnuplot g9("linespoints");
+                                    g9.set_title("Code Phase error metrics (PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
+                                    g9.set_grid();
+                                    g9.set_xlabel("CN0 [dB-Hz]");
+                                    g9.set_ylabel("Code Phase error [Chips]");
+                                    g9.cmd("set key box opaque");
+                                    g9.cmd("set termoption lw 2");
+                                    g9.set_pointsize(2);
+                                    for (int config_sweep_idx = 0; config_sweep_idx < mean_doppler_error_sweep.size(); config_sweep_idx++)
+                                        {
+                                            g9.plot_xy_err(generator_CN0_values,
+                                                mean_code_phase_error_sweep.at(config_sweep_idx),
+                                                std_dev_code_phase_error_sweep.at(config_sweep_idx),
+                                                "PLL/DLL BW: " + std::to_string(PLL_wide_bw_values.at(config_sweep_idx)) +
+                                                    +"," + std::to_string(DLL_wide_bw_values.at(config_sweep_idx)) + " Hz");
+                                        }
+                                    g9.savetops("Code_error_metrics");
+                                    g9.savetopdf("Code_error_metrics", 18);
                                 }
-                            g4.set_legend();
-                            g4.savetops("Doppler_error_output");
-                            g4.savetopdf("Doppler_error_output", 18);
-                            g4.showonscreen();  // window output
-
-                            Gnuplot g5("points");
-                            g5.set_title("Code delay error (satellite PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
-                            g5.set_grid();
-                            g5.set_xlabel("Time [s]");
-                            g5.set_ylabel("Code delay error [Chips]");
-                            g5.cmd("set key box opaque");
-
-                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
-                                {
-                                    g5.plot_xy(trk_timestamp_s_sweep.at(current_cn0_idx), code_phase_error_sweep.at(current_cn0_idx),
-                                        std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz]", decimate);
-                                }
-                            g5.set_legend();
-                            g5.savetops("Code_error_output");
-                            g5.savetopdf("Code_error_output", 18);
-                            g5.showonscreen();  // window output
-
-                            Gnuplot g6("points");
-                            g6.set_title("Accumulated carrier phase error (satellite PRN #" + std::to_string(FLAGS_test_satellite_PRN) + ")");
-                            g6.set_grid();
-                            g6.set_xlabel("Time [s]");
-                            g6.set_ylabel("Accumulated carrier phase error [Cycles]");
-                            g6.cmd("set key box opaque");
-
-                            for (int current_cn0_idx = 0; current_cn0_idx < generator_CN0_values.size(); current_cn0_idx++)
-                                {
-                                    g6.plot_xy(trk_timestamp_s_sweep.at(current_cn0_idx), acc_carrier_phase_error_sweep.at(current_cn0_idx),
-                                        std::to_string(static_cast<int>(round(generator_CN0_values.at(current_cn0_idx)))) + "[dB-Hz]", decimate);
-                                }
-                            g6.set_legend();
-                            g6.savetops("Carrier_phase_error_output");
-                            g6.savetopdf("Carrier_phase_error_output", 18);
-                            g6.showonscreen();  // window output
                         }
                     catch (const GnuplotException& ge)
                         {
diff --git a/src/utils/matlab/plot_acq_grid.m b/src/utils/matlab/plot_acq_grid.m
index c18e44556..182c09b02 100644
--- a/src/utils/matlab/plot_acq_grid.m
+++ b/src/utils/matlab/plot_acq_grid.m
@@ -33,6 +33,8 @@ file = 'acq';
 
 sat = 7;
 
+channel = 0;
+execution = 1;
 % Signal:
 %     1 GPS  L1
 %     2 GPS  L2M
@@ -77,7 +79,7 @@ switch(signal_type)
         system = 'R';
         signal = '1G';
 end
-filename = [path file '_' system '_' signal '_sat_' num2str(sat) '.mat'];
+filename = [path file '_' system '_' signal '_ch_' num2str(channel) '_' num2str(execution) '_sat_' num2str(sat) '.mat'];
 load(filename);
 [n_fft n_dop_bins] = size(grid);
 [d_max f_max] = find(grid == max(max(grid)));