Esempio n. 1
0
        public static bool estimate_symbol(int rf_mod, P25Heuristics heuristics, int previous_dibit, int analog_value, int dibit)
        {
            bool valid;
            int  i;

            float[] pdfs = new float[4];

            int use_prev_dibit = use_previous_dibit(rf_mod);

            if (use_prev_dibit == 0)
            {
                // Ignore
                previous_dibit = 0;
            }

            valid = true;

            // Check if we have enough values to model the Gaussians for each symbol involved.
            for (i = 0; i < 4; i++)
            {
                if (heuristics.symbols[previous_dibit, i].count >= MIN_ELEMENTS_FOR_HEURISTICS)
                {
                    pdfs[i] = evaluate_pdf(heuristics.symbols[previous_dibit, i], analog_value);
                }
                else
                {
                    // Not enough data, we don't trust this result
                    valid = false;
                    break;
                }
            }

            if (valid)
            {
                // Find the highest pdf
                int   max_index;
                float max;

                max_index = 0;
                max       = pdfs[0];
                for (i = 1; i < 4; i++)
                {
                    if (pdfs[i] > max)
                    {
                        max_index = i;
                        max       = pdfs[i];
                    }
                }

                // The symbol is the one with the highest pdf
                dibit = max_index;
            }

            return(valid);
        }
Esempio n. 2
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        public static void update_error_stats(P25Heuristics heuristics, int bits, int errors)
        {
            heuristics.bit_count       += (uint)bits;
            heuristics.bit_error_count += (uint)errors;

            // Normalize to avoid overflow in the counters
            if ((heuristics.bit_count & 1) == 0 && (heuristics.bit_error_count & 1) == 0)
            {
                // We can divide both values by 2 safely. We just care about their ratio, not the actual value
                heuristics.bit_count       >>= 1;
                heuristics.bit_error_count >>= 1;
            }
        }
Esempio n. 3
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 public static float get_P25_BER_estimate(P25Heuristics heuristics)
 {
     float ber;
     if (heuristics.bit_count == 0)
     {
         ber = 0.0F;
     }
     else
     {
         ber = ((float)heuristics.bit_error_count) * 100.0F / ((float)heuristics.bit_count);
     }
     return ber;
 }
Esempio n. 4
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        public static void update_error_stats(P25Heuristics heuristics, int bits, int errors)
        {
            heuristics.bit_count += (uint)bits;
            heuristics.bit_error_count += (uint)errors;

            // Normalize to avoid overflow in the counters
            if ((heuristics.bit_count & 1) == 0 && (heuristics.bit_error_count & 1) == 0)
            {
                // We can divide both values by 2 safely. We just care about their ratio, not the actual value
                heuristics.bit_count >>= 1;
                heuristics.bit_error_count >>= 1;
            }
        }
Esempio n. 5
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        public static float get_P25_BER_estimate(P25Heuristics heuristics)
        {
            float ber;

            if (heuristics.bit_count == 0)
            {
                ber = 0.0F;
            }
            else
            {
                ber = ((float)heuristics.bit_error_count) * 100.0F / ((float)heuristics.bit_count);
            }
            return(ber);
        }
Esempio n. 6
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        public static void update_p25_heuristics(P25Heuristics heuristics, int previous_dibit, int original_dibit, int dibit, int analog_value)
        {
            float mean;
            int   old_value;
            float old_mean;

            SymbolHeuristics sh;
            int number_errors;

            previous_dibit = 0;

            // Locate the Gaussian (SymbolHeuristics structure) we are going to update
            sh = heuristics.symbols[previous_dibit, dibit];

            // Update the circular buffers of values
            old_value = sh.values[sh.index];
            old_mean  = sh.means[sh.index];

            // Update the BER statistics
            number_errors = 0;
            if (original_dibit != dibit)
            {
                if ((original_dibit == 0 && dibit == 3) || (original_dibit == 3 && dibit == 0) ||
                    (original_dibit == 1 && dibit == 2) || (original_dibit == 2 && dibit == 1))
                {
                    // Interpreting a "00" as "11", "11" as "00", "01" as "10" or "10" as "01" counts as 2 errors
                    number_errors = 2;
                }
                else
                {
                    // The other 8 combinations count (where original_dibit != dibit) as 1 error.
                    number_errors = 1;
                }
            }
            update_error_stats(heuristics, 2, number_errors);

            // Update the running mean and variance. This is to calculate the PDF faster when required
            if (sh.count >= P25_HEURISTICS_SIZE)
            {
                sh.sum     -= old_value;
                sh.var_sum -= (((float)old_value) - old_mean) * (((float)old_value) - old_mean);
            }
            sh.sum += analog_value;

            sh.values[sh.index] = analog_value;
            if (sh.count < P25_HEURISTICS_SIZE)
            {
                sh.count++;
            }
            mean = sh.sum / ((float)sh.count);
            sh.means[sh.index] = mean;
            if (sh.index >= (P25_HEURISTICS_SIZE - 1))
            {
                sh.index = 0;
            }
            else
            {
                sh.index++;
            }

            sh.var_sum += (((float)analog_value) - mean) * (((float)analog_value) - mean);
        }
Esempio n. 7
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        public static void update_p25_heuristics(P25Heuristics heuristics, int previous_dibit, int original_dibit, int dibit, int analog_value)
        {
            float mean;
            int old_value;
            float old_mean;

            SymbolHeuristics sh;
            int number_errors;

            previous_dibit = 0;

            // Locate the Gaussian (SymbolHeuristics structure) we are going to update
            sh = heuristics.symbols[previous_dibit, dibit];

            // Update the circular buffers of values
            old_value = sh.values[sh.index];
            old_mean = sh.means[sh.index];

            // Update the BER statistics
            number_errors = 0;
            if (original_dibit != dibit)
            {
                if ((original_dibit == 0 && dibit == 3) || (original_dibit == 3 && dibit == 0) ||
                    (original_dibit == 1 && dibit == 2) || (original_dibit == 2 && dibit == 1))
                {
                    // Interpreting a "00" as "11", "11" as "00", "01" as "10" or "10" as "01" counts as 2 errors
                    number_errors = 2;
                }
                else
                {
                    // The other 8 combinations count (where original_dibit != dibit) as 1 error.
                    number_errors = 1;
                }
            }
            update_error_stats(heuristics, 2, number_errors);

            // Update the running mean and variance. This is to calculate the PDF faster when required
            if (sh.count >= P25_HEURISTICS_SIZE)
            {
                sh.sum -= old_value;
                sh.var_sum -= (((float)old_value) - old_mean) * (((float)old_value) - old_mean);
            }
            sh.sum += analog_value;

            sh.values[sh.index] = analog_value;
            if (sh.count < P25_HEURISTICS_SIZE)
            {
                sh.count++;
            }
            mean = sh.sum / ((float)sh.count);
            sh.means[sh.index] = mean;
            if (sh.index >= (P25_HEURISTICS_SIZE - 1))
            {
                sh.index = 0;
            }
            else
            {
                sh.index++;
            }

            sh.var_sum += (((float)analog_value) - mean) * (((float)analog_value) - mean);
        }
Esempio n. 8
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        public static bool estimate_symbol(int rf_mod, P25Heuristics heuristics, int previous_dibit, int analog_value, int dibit)
        {
            bool valid;
            int i;
            float[] pdfs = new float[4];

            int use_prev_dibit = use_previous_dibit(rf_mod);

            if (use_prev_dibit == 0)
            {
                // Ignore
                previous_dibit = 0;
            }

            valid = true;

            // Check if we have enough values to model the Gaussians for each symbol involved.
            for (i = 0; i < 4; i++)
            {
                if (heuristics.symbols[previous_dibit, i].count >= MIN_ELEMENTS_FOR_HEURISTICS)
                {
                    pdfs[i] = evaluate_pdf(heuristics.symbols[previous_dibit, i], analog_value);
                }
                else
                {
                    // Not enough data, we don't trust this result
                    valid = false;
                    break;
                }
            }

            if (valid)
            {
                // Find the highest pdf
                int max_index;
                float max;

                max_index = 0;
                max = pdfs[0];
                for (i = 1; i < 4; i++)
                {
                    if (pdfs[i] > max)
                    {
                        max_index = i;
                        max = pdfs[i];
                    }
                }

                // The symbol is the one with the highest pdf
                dibit = max_index;
            }

            return valid;
        }