/* * Copyright © 2011 Keith Packard * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ #ifndef AO_FLIGHT_TEST #include "ao.h" #endif #include "ao_kalman.h" static __pdata int32_t ao_k_height; static __pdata int32_t ao_k_speed; static __pdata int32_t ao_k_accel; #define AO_K_STEP_100 to_fix16(0.01) #define AO_K_STEP_2_2_100 to_fix16(0.00005) #define AO_K_STEP_10 to_fix16(0.1) #define AO_K_STEP_2_2_10 to_fix16(0.005) #define AO_K_STEP_1 to_fix16(1) #define AO_K_STEP_2_2_1 to_fix16(0.5) __pdata int16_t ao_height; __pdata int16_t ao_speed; __pdata int16_t ao_accel; __pdata int16_t ao_max_height; static __pdata int32_t ao_avg_height_scaled; __pdata int16_t ao_avg_height; __pdata int16_t ao_error_h; __pdata int16_t ao_error_h_sq_avg; #if HAS_ACCEL __pdata int16_t ao_error_a; #endif static void ao_kalman_predict(void) { #ifdef AO_FLIGHT_TEST if (ao_sample_tick - ao_sample_prev_tick > 50) { ao_k_height += ((int32_t) ao_speed * AO_K_STEP_1 + (int32_t) ao_accel * AO_K_STEP_2_2_1) >> 4; ao_k_speed += (int32_t) ao_accel * AO_K_STEP_1; return; } if (ao_sample_tick - ao_sample_prev_tick > 5) { ao_k_height += ((int32_t) ao_speed * AO_K_STEP_10 + (int32_t) ao_accel * AO_K_STEP_2_2_10) >> 4; ao_k_speed += (int32_t) ao_accel * AO_K_STEP_10; return; } if (ao_flight_debug) { printf ("predict speed %g + (%g * %g) = %g\n", ao_k_speed / (65536.0 * 16.0), ao_accel / 16.0, AO_K_STEP_100 / 65536.0, (ao_k_speed + (int32_t) ao_accel * AO_K_STEP_100) / (65536.0 * 16.0)); } #endif ao_k_height += ((int32_t) ao_speed * AO_K_STEP_100 + (int32_t) ao_accel * AO_K_STEP_2_2_100) >> 4; ao_k_speed += (int32_t) ao_accel * AO_K_STEP_100; } static void ao_kalman_err_height(void) { int16_t e; int16_t height_distrust; #if HAS_ACCEL int16_t speed_distrust; #endif ao_error_h = ao_sample_height - (int16_t) (ao_k_height >> 16); e = ao_error_h; if (e < 0) e = -e; if (e > 127) e = 127; #if HAS_ACCEL ao_error_h_sq_avg -= ao_error_h_sq_avg >> 2; ao_error_h_sq_avg += (e * e) >> 2; #else ao_error_h_sq_avg -= ao_error_h_sq_avg >> 4; ao_error_h_sq_avg += (e * e) >> 4; #endif if (ao_flight_state >= ao_flight_drogue) return; height_distrust = ao_sample_alt - AO_MAX_BARO_HEIGHT; #if HAS_ACCEL /* speed is stored * 16, but we need to ramp between 200 and 328, so * we want to multiply by 2. The result is a shift by 3. */ speed_distrust = (ao_speed - AO_MS_TO_SPEED(AO_MAX_BARO_SPEED)) >> (4 - 1); if (speed_distrust <= 0) speed_distrust = 0; else if (speed_distrust > height_distrust) height_distrust = speed_distrust; #endif if (height_distrust > 0) { #ifdef AO_FLIGHT_TEST int old_ao_error_h = ao_error_h; #endif if (height_distrust > 0x100) height_distrust = 0x100; ao_error_h = (int16_t) (((int32_t) ao_error_h * (0x100 - height_distrust)) >> 8); #ifdef AO_FLIGHT_TEST if (ao_flight_debug) { printf("over height %g over speed %g distrust: %g height: error %d -> %d\n", (double) (ao_sample_alt - AO_MAX_BARO_HEIGHT), (ao_speed - AO_MS_TO_SPEED(AO_MAX_BARO_SPEED)) / 16.0, height_distrust / 256.0, old_ao_error_h, ao_error_h); } #endif } } static void ao_kalman_correct_baro(void) { ao_kalman_err_height(); #ifdef AO_FLIGHT_TEST if (ao_sample_tick - ao_sample_prev_tick > 50) { ao_k_height += (int32_t) AO_BARO_K0_1 * ao_error_h; ao_k_speed += (int32_t) AO_BARO_K1_1 * ao_error_h; ao_k_accel += (int32_t) AO_BARO_K2_1 * ao_error_h; return; } if (ao_sample_tick - ao_sample_prev_tick > 5) { ao_k_height += (int32_t) AO_BARO_K0_10 * ao_error_h; ao_k_speed += (int32_t) AO_BARO_K1_10 * ao_error_h; ao_k_accel += (int32_t) AO_BARO_K2_10 * ao_error_h; return; } #endif ao_k_height += (int32_t) AO_BARO_K0_100 * ao_error_h; ao_k_speed += (int32_t) AO_BARO_K1_100 * ao_error_h; ao_k_accel += (int32_t) AO_BARO_K2_100 * ao_error_h; } #if HAS_ACCEL static void ao_kalman_err_accel(void) { int32_t accel; accel = (ao_ground_accel - ao_sample_accel) * ao_accel_scale; /* Can't use ao_accel here as it is the pre-prediction value still */ ao_error_a = (accel - ao_k_accel) >> 16; } static void ao_kalman_correct_both(void) { ao_kalman_err_height(); ao_kalman_err_accel(); #ifdef AO_FLIGHT_TEST if (ao_sample_tick - ao_sample_prev_tick > 50) { if (ao_flight_debug) { printf ("correct speed %g + (%g * %g) + (%g * %g) = %g\n", ao_k_speed / (65536.0 * 16.0), (double) ao_error_h, AO_BOTH_K10_1 / 65536.0, (double) ao_error_a, AO_BOTH_K11_1 / 65536.0, (ao_k_speed + (int32_t) AO_BOTH_K10_1 * ao_error_h + (int32_t) AO_BOTH_K11_1 * ao_error_a) / (65536.0 * 16.0)); } ao_k_height += (int32_t) AO_BOTH_K00_1 * ao_error_h + (int32_t) AO_BOTH_K01_1 * ao_error_a; ao_k_speed += (int32_t) AO_BOTH_K10_1 * ao_error_h + (int32_t) AO_BOTH_K11_1 * ao_error_a; ao_k_accel += (int32_t) AO_BOTH_K20_1 * ao_error_h + (int32_t) AO_BOTH_K21_1 * ao_error_a; return; } if (ao_sample_tick - ao_sample_prev_tick > 5) { if (ao_flight_debug) { printf ("correct speed %g + (%g * %g) + (%g * %g) = %g\n", ao_k_speed / (65536.0 * 16.0), (double) ao_error_h, AO_BOTH_K10_10 / 65536.0, (double) ao_error_a, AO_BOTH_K11_10 / 65536.0, (ao_k_speed + (int32_t) AO_BOTH_K10_10 * ao_error_h + (int32_t) AO_BOTH_K11_10 * ao_error_a) / (65536.0 * 16.0)); } ao_k_height += (int32_t) AO_BOTH_K00_10 * ao_error_h + (int32_t) AO_BOTH_K01_10 * ao_error_a; ao_k_speed += (int32_t) AO_BOTH_K10_10 * ao_error_h + (int32_t) AO_BOTH_K11_10 * ao_error_a; ao_k_accel += (int32_t) AO_BOTH_K20_10 * ao_error_h + (int32_t) AO_BOTH_K21_10 * ao_error_a; return; } if (ao_flight_debug) { printf ("correct speed %g + (%g * %g) + (%g * %g) = %g\n", ao_k_speed / (65536.0 * 16.0), (double) ao_error_h, AO_BOTH_K10_100 / 65536.0, (double) ao_error_a, AO_BOTH_K11_100 / 65536.0, (ao_k_speed + (int32_t) AO_BOTH_K10_100 * ao_error_h + (int32_t) AO_BOTH_K11_100 * ao_error_a) / (65536.0 * 16.0)); } #endif ao_k_height += (int32_t) AO_BOTH_K00_100 * ao_error_h + (int32_t) AO_BOTH_K01_100 * ao_error_a; ao_k_speed += (int32_t) AO_BOTH_K10_100 * ao_error_h + (int32_t) AO_BOTH_K11_100 * ao_error_a; ao_k_accel += (int32_t) AO_BOTH_K20_100 * ao_error_h + (int32_t) AO_BOTH_K21_100 * ao_error_a; } #ifdef FORCE_ACCEL static void ao_kalman_correct_accel(void) { ao_kalman_err_accel(); if (ao_sample_tick - ao_sample_prev_tick > 5) { ao_k_height +=(int32_t) AO_ACCEL_K0_10 * ao_error_a; ao_k_speed += (int32_t) AO_ACCEL_K1_10 * ao_error_a; ao_k_accel += (int32_t) AO_ACCEL_K2_10 * ao_error_a; return; } ao_k_height += (int32_t) AO_ACCEL_K0_100 * ao_error_a; ao_k_speed += (int32_t) AO_ACCEL_K1_100 * ao_error_a; ao_k_accel += (int32_t) AO_ACCEL_K2_100 * ao_error_a; } #endif #endif /* HAS_ACCEL */ void ao_kalman(void) { ao_kalman_predict(); #if HAS_ACCEL if (ao_flight_state <= ao_flight_coast) { #ifdef FORCE_ACCEL ao_kalman_correct_accel(); #else ao_kalman_correct_both(); #endif } else #endif ao_kalman_correct_baro(); ao_height = from_fix(ao_k_height); ao_speed = from_fix(ao_k_speed); ao_accel = from_fix(ao_k_accel); if (ao_height > ao_max_height) ao_max_height = ao_height; ao_avg_height_scaled = ao_avg_height_scaled - ao_avg_height + ao_sample_height; #ifdef AO_FLIGHT_TEST if (ao_sample_tick - ao_sample_prev_tick > 50) ao_avg_height = (ao_avg_height_scaled + 1) >> 1; else if (ao_sample_tick - ao_sample_prev_tick > 5) ao_avg_height = (ao_avg_height_scaled + 7) >> 4; else #endif ao_avg_height = (ao_avg_height_scaled + 63) >> 7; #ifdef AO_FLIGHT_TEST ao_sample_prev_tick = ao_sample_tick; #endif }