diff options
Diffstat (limited to 'src')
4 files changed, 42 insertions, 20 deletions
diff --git a/src/modules/position_estimator_inav/position_estimator_inav_main.c b/src/modules/position_estimator_inav/position_estimator_inav_main.c index 81271ab52..f9fb5ab1b 100644 --- a/src/modules/position_estimator_inav/position_estimator_inav_main.c +++ b/src/modules/position_estimator_inav/position_estimator_inav_main.c @@ -79,8 +79,8 @@ static bool verbose_mode = false; static const hrt_abstime gps_topic_timeout = 1000000; // GPS topic timeout = 1s static const hrt_abstime flow_topic_timeout = 1000000; // optical flow topic timeout = 1s static const hrt_abstime sonar_timeout = 150000; // sonar timeout = 150ms -static const hrt_abstime sonar_valid_timeout = 1000000; // assume that altitude == distance to surface during this time -static const hrt_abstime flow_valid_timeout = 1000000; // assume that altitude == distance to surface during this time +static const hrt_abstime sonar_valid_timeout = 1000000; // estimate sonar distance during this time after sonar loss +static const hrt_abstime xy_src_timeout = 2000000; // estimate position during this time after position sources loss static const uint32_t updates_counter_len = 1000000; static const uint32_t pub_interval = 10000; // limit publish rate to 100 Hz static const float max_flow = 1.0f; // max flow value that can be used, rad/s @@ -182,6 +182,7 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) int baro_init_num = 200; float baro_offset = 0.0f; // baro offset for reference altitude, initialized only once float surface_offset = 0.0f; // ground level offset from reference altitude + float surface_offset_rate = 0.0f; // surface offset change rate float alt_avg = 0.0f; bool landed = true; hrt_abstime landed_time = 0; @@ -226,7 +227,7 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) float sonar_prev = 0.0f; hrt_abstime sonar_time = 0; // time of last sonar measurement (not filtered) hrt_abstime sonar_valid_time = 0; // time of last sonar measurement used for correction (filtered) - hrt_abstime flow_valid_time = 0; // time of last flow measurement used for correction (filtered) + hrt_abstime xy_src_time = 0; // time of last available position data bool gps_valid = false; // GPS is valid bool sonar_valid = false; // sonar is valid @@ -434,6 +435,7 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) if (fabsf(sonar_corr - sonar_corr_filtered) > params.sonar_err) { /* spike detected, ignore */ sonar_corr = 0.0f; + surface_offset_rate = 0.0f; sonar_valid = false; } else { @@ -441,6 +443,7 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) surface_offset -= sonar_corr; sonar_corr = 0.0f; sonar_corr_filtered = 0.0f; + surface_offset_rate = 0.0f; sonar_valid_time = t; sonar_valid = true; local_pos.surface_bottom_timestamp = t; @@ -448,8 +451,10 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) } } else { + /* correction is ok, use it */ sonar_valid_time = t; sonar_valid = true; + surface_offset_rate = -sonar_corr * params.w_alt_sonar; } } @@ -495,13 +500,12 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) flow_corr[1] = flow_v[1] - y_est[1]; /* adjust correction weight */ float flow_q_weight = (flow_q - params.flow_q_min) / (1.0f - params.flow_q_min); - flow_w = att.R[2][2] * flow_q_weight; - /* if flow is not accurate, lower weight for it */ + flow_w = att.R[2][2] * flow_q_weight / fmaxf(1.0f, flow_dist); + /* if flow is not accurate, reduce weight for it */ // TODO make this more fuzzy if (!flow_accurate) - flow_w *= 0.2f; + flow_w *= 0.05f; flow_valid = true; - flow_valid_time = t; } else { flow_w = 0.0f; @@ -606,6 +610,7 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) /* check for sonar measurement timeout */ if (sonar_valid && t > sonar_time + sonar_timeout) { sonar_corr = 0.0f; + surface_offset_rate = 0.0f; sonar_valid = false; } @@ -616,24 +621,35 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) bool use_gps = ref_xy_inited && gps_valid && params.w_pos_gps_p > 0.00001f; /* use flow if it's valid and (accurate or no GPS available) */ bool use_flow = flow_valid && (flow_accurate || !use_gps); - /* try to estimate xy even if no absolute position source available, - * if using optical flow velocity will be valid */ - bool can_estimate_xy = use_gps || use_flow || (t < flow_valid_time + flow_valid_timeout); + /* try to estimate position during some time after position sources lost */ + if (use_gps || use_flow) { + xy_src_time = t; + } + bool can_estimate_xy = (t < xy_src_time + xy_src_timeout); /* baro offset correction if sonar available, * don't touch reference altitude, local_pos.ref_alt != baro_offset after this */ if (sonar_valid) { - surface_offset -= sonar_corr * params.w_alt_sonar * dt; + surface_offset += surface_offset_rate * dt; } /* accelerometer bias correction */ float accel_bias_corr[3] = { 0.0f, 0.0f, 0.0f }; + float w_pos_gps_p = params.w_pos_gps_p; + float w_pos_gps_v = params.w_pos_gps_v; + + /* reduce GPS weight if optical flow is good */ + if (use_flow && flow_accurate) { + w_pos_gps_p *= params.w_gps_flow; + w_pos_gps_v *= params.w_gps_flow; + } + if (use_gps) { - accel_bias_corr[0] -= gps_corr[0][0] * params.w_pos_gps_p * params.w_pos_gps_p; - accel_bias_corr[0] -= gps_corr[0][1] * params.w_pos_gps_v; - accel_bias_corr[1] -= gps_corr[1][0] * params.w_pos_gps_p * params.w_pos_gps_p; - accel_bias_corr[1] -= gps_corr[1][1] * params.w_pos_gps_v; + accel_bias_corr[0] -= gps_corr[0][0] * w_pos_gps_p * w_pos_gps_p; + accel_bias_corr[0] -= gps_corr[0][1] * w_pos_gps_v; + accel_bias_corr[1] -= gps_corr[1][0] * w_pos_gps_p * w_pos_gps_p; + accel_bias_corr[1] -= gps_corr[1][1] * w_pos_gps_v; } if (use_flow) { @@ -681,12 +697,12 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) } if (use_gps) { - inertial_filter_correct(gps_corr[0][0], dt, x_est, 0, params.w_pos_gps_p); - inertial_filter_correct(gps_corr[1][0], dt, y_est, 0, params.w_pos_gps_p); + inertial_filter_correct(gps_corr[0][0], dt, x_est, 0, w_pos_gps_p); + inertial_filter_correct(gps_corr[1][0], dt, y_est, 0, w_pos_gps_p); if (gps.vel_ned_valid && t < gps.timestamp_velocity + gps_topic_timeout) { - inertial_filter_correct(gps_corr[0][1], dt, x_est, 1, params.w_pos_gps_v); - inertial_filter_correct(gps_corr[1][1], dt, y_est, 1, params.w_pos_gps_v); + inertial_filter_correct(gps_corr[0][1], dt, x_est, 1, w_pos_gps_v); + inertial_filter_correct(gps_corr[1][1], dt, y_est, 1, w_pos_gps_v); } } @@ -765,6 +781,7 @@ int position_estimator_inav_thread_main(int argc, char *argv[]) local_pos.dist_bottom_valid = t < sonar_valid_time + sonar_valid_timeout; if (local_pos.dist_bottom_valid) { local_pos.dist_bottom = -z_est[0] - surface_offset; + local_pos.dist_bottom_rate = -z_est[1] - surface_offset_rate; } local_pos.timestamp = t; diff --git a/src/modules/position_estimator_inav/position_estimator_inav_params.c b/src/modules/position_estimator_inav/position_estimator_inav_params.c index b3c32b180..0a00ae6bb 100644 --- a/src/modules/position_estimator_inav/position_estimator_inav_params.c +++ b/src/modules/position_estimator_inav/position_estimator_inav_params.c @@ -47,6 +47,7 @@ PARAM_DEFINE_FLOAT(INAV_W_POS_GPS_P, 1.0f); PARAM_DEFINE_FLOAT(INAV_W_POS_GPS_V, 2.0f); PARAM_DEFINE_FLOAT(INAV_W_POS_ACC, 10.0f); PARAM_DEFINE_FLOAT(INAV_W_POS_FLOW, 5.0f); +PARAM_DEFINE_FLOAT(INAV_W_GPS_FLOW, 0.1f); PARAM_DEFINE_FLOAT(INAV_W_ACC_BIAS, 0.0f); PARAM_DEFINE_FLOAT(INAV_FLOW_K, 0.0165f); PARAM_DEFINE_FLOAT(INAV_FLOW_Q_MIN, 0.5f); @@ -65,6 +66,7 @@ int parameters_init(struct position_estimator_inav_param_handles *h) h->w_pos_gps_v = param_find("INAV_W_POS_GPS_V"); h->w_pos_acc = param_find("INAV_W_POS_ACC"); h->w_pos_flow = param_find("INAV_W_POS_FLOW"); + h->w_gps_flow = param_find("INAV_W_GPS_FLOW"); h->w_acc_bias = param_find("INAV_W_ACC_BIAS"); h->flow_k = param_find("INAV_FLOW_K"); h->flow_q_min = param_find("INAV_FLOW_Q_MIN"); @@ -86,6 +88,7 @@ int parameters_update(const struct position_estimator_inav_param_handles *h, str param_get(h->w_pos_gps_v, &(p->w_pos_gps_v)); param_get(h->w_pos_acc, &(p->w_pos_acc)); param_get(h->w_pos_flow, &(p->w_pos_flow)); + param_get(h->w_gps_flow, &(p->w_gps_flow)); param_get(h->w_acc_bias, &(p->w_acc_bias)); param_get(h->flow_k, &(p->flow_k)); param_get(h->flow_q_min, &(p->flow_q_min)); diff --git a/src/modules/position_estimator_inav/position_estimator_inav_params.h b/src/modules/position_estimator_inav/position_estimator_inav_params.h index 562915f49..e394edfa4 100644 --- a/src/modules/position_estimator_inav/position_estimator_inav_params.h +++ b/src/modules/position_estimator_inav/position_estimator_inav_params.h @@ -48,6 +48,7 @@ struct position_estimator_inav_params { float w_pos_gps_v; float w_pos_acc; float w_pos_flow; + float w_gps_flow; float w_acc_bias; float flow_k; float flow_q_min; @@ -66,6 +67,7 @@ struct position_estimator_inav_param_handles { param_t w_pos_gps_v; param_t w_pos_acc; param_t w_pos_flow; + param_t w_gps_flow; param_t w_acc_bias; param_t flow_k; param_t flow_q_min; diff --git a/src/modules/uORB/topics/vehicle_local_position.h b/src/modules/uORB/topics/vehicle_local_position.h index 807fc6c09..d567f2e02 100644 --- a/src/modules/uORB/topics/vehicle_local_position.h +++ b/src/modules/uORB/topics/vehicle_local_position.h @@ -79,7 +79,7 @@ struct vehicle_local_position_s bool landed; /**< true if vehicle is landed */ /* Distance to surface */ float dist_bottom; /**< Distance to bottom surface (ground) */ - float v_dist_bottom; /**< Distance to bottom surface (ground) change rate */ + float dist_bottom_rate; /**< Distance to bottom surface (ground) change rate */ uint64_t surface_bottom_timestamp; /**< Time when new bottom surface found */ bool dist_bottom_valid; /**< true if distance to bottom surface is valid */ }; |