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AC_Avoidance: correctly set back away speed for minimum alt fences

This commit is contained in:
Andy Piper 2024-06-24 20:46:22 +01:00 committed by Peter Barker
parent e30dc2c536
commit 29a320b310
2 changed files with 56 additions and 49 deletions
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96
libraries/AC_Avoidance/AC_Avoid.cpp
View File

@ -369,6 +369,19 @@ void AC_Avoid::adjust_speed(float kP, float accel, float heading, float &speed,
}
}
// adjust vertical climb rate so vehicle does not break the vertical fence
void AC_Avoid::adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_cms, float dt) {
float backup_speed = 0.0f;
adjust_velocity_z(kP, accel_cmss, climb_rate_cms, backup_speed, dt);
if (!is_zero(backup_speed)) {
if (is_negative(backup_speed)) {
climb_rate_cms = MIN(climb_rate_cms, backup_speed);
} else {
climb_rate_cms = MAX(climb_rate_cms, backup_speed);
}
}
}
// adjust vertical climb rate so vehicle does not break the vertical fence
void AC_Avoid::adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_cms, float& backup_speed, float dt)
{
@ -388,32 +401,10 @@ void AC_Avoid::adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_c
// limit acceleration
const float accel_cmss_limited = MIN(accel_cmss, AC_AVOID_ACCEL_CMSS_MAX);
// if descending, adjust for minimum altitude as necessary
if (climb_rate_cms < 0.0f) {
#if AP_FENCE_ENABLED
// calculate distance below fence
AC_Fence *fence = AP::fence();
if ((_enabled & AC_AVOID_STOP_AT_FENCE) > 0 && fence
&& (fence->get_enabled_fences() & AC_FENCE_TYPE_ALT_MIN) > 0) {
// calculate distance from vehicle to safe altitude
float veh_alt;
_ahrs.get_relative_position_D_home(veh_alt);
// fence.get_safe_alt_min() is UP, veh_alt is DOWN:
const float alt_min = -(fence->get_safe_alt_min() + veh_alt);
if (alt_min <= 0.0f) {
climb_rate_cms = MAX(climb_rate_cms, 0.0f);
// also calculate backup speed that will get us back to safe altitude
backup_speed = get_max_speed(kP, accel_cmss_limited, -alt_min*100.0f, dt);
}
}
#endif
return;
}
bool limit_alt = false;
float alt_diff = 0.0f; // distance from altitude limit to vehicle in metres (positive means vehicle is below limit)
bool limit_min_alt = false;
bool limit_max_alt = false;
float max_alt_diff = 0.0f; // distance from altitude limit to vehicle in metres (positive means vehicle is below limit)
float min_alt_diff = 0.0f;
#if AP_FENCE_ENABLED
// calculate distance below fence
AC_Fence *fence = AP::fence();
@ -421,10 +412,15 @@ void AC_Avoid::adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_c
// calculate distance from vehicle to safe altitude
float veh_alt;
_ahrs.get_relative_position_D_home(veh_alt);
if ((fence->get_enabled_fences() & AC_FENCE_TYPE_ALT_MIN) > 0) {
// fence.get_safe_alt_max() is UP, veh_alt is DOWN:
min_alt_diff = -(fence->get_safe_alt_min() + veh_alt);
limit_min_alt = true;
}
if ((fence->get_enabled_fences() & AC_FENCE_TYPE_ALT_MAX) > 0) {
// fence.get_safe_alt_max() is UP, veh_alt is DOWN:
alt_diff = fence->get_safe_alt_max() + veh_alt;
limit_alt = true;
max_alt_diff = fence->get_safe_alt_max() + veh_alt;
limit_max_alt = true;
}
}
#endif
@ -437,9 +433,9 @@ void AC_Avoid::adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_c
_ahrs.get_relative_position_D_origin(curr_alt)) {
// alt_limit is UP, curr_alt is DOWN:
const float ctrl_alt_diff = alt_limit + curr_alt;
if (!limit_alt || ctrl_alt_diff < alt_diff) {
alt_diff = ctrl_alt_diff;
limit_alt = true;
if (!limit_max_alt || ctrl_alt_diff < max_alt_diff) {
max_alt_diff = ctrl_alt_diff;
limit_max_alt = true;
}
}
@ -449,34 +445,52 @@ void AC_Avoid::adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_c
AP_Proximity *proximity = AP::proximity();
if (proximity && proximity_avoidance_enabled() && proximity->get_upward_distance(proximity_alt_diff)) {
proximity_alt_diff -= _margin;
if (!limit_alt || proximity_alt_diff < alt_diff) {
alt_diff = proximity_alt_diff;
limit_alt = true;
if (!limit_max_alt || proximity_alt_diff < max_alt_diff) {
max_alt_diff = proximity_alt_diff;
limit_max_alt = true;
}
}
#endif
// limit climb rate
if (limit_alt) {
if (limit_max_alt || limit_min_alt) {
const float max_back_spd_cms = _backup_speed_z_max * 100.0;
// do not allow climbing if we've breached the safe altitude
if (alt_diff <= 0.0f) {
if (max_alt_diff <= 0.0f && limit_max_alt) {
climb_rate_cms = MIN(climb_rate_cms, 0.0f);
// also calculate backup speed that will get us back to safe altitude
const float max_back_spd_cms = _backup_speed_z_max * 100.0;
if (is_positive(max_back_spd_cms)) {
backup_speed = -1*(get_max_speed(kP, accel_cmss_limited, -alt_diff*100.0f, dt));
backup_speed = -1*(get_max_speed(kP, accel_cmss_limited, -max_alt_diff*100.0f, dt));
// Constrain to max backup speed
backup_speed = MAX(backup_speed, -max_back_spd_cms);
}
return;
// do not allow descending if we've breached the safe altitude
} else if (min_alt_diff <= 0.0f && limit_min_alt) {
climb_rate_cms = MAX(climb_rate_cms, 0.0f);
// also calculate backup speed that will get us back to safe altitude
if (is_positive(max_back_spd_cms)) {
backup_speed = get_max_speed(kP, accel_cmss_limited, -min_alt_diff*100.0f, dt);
// Constrain to max backup speed
backup_speed = MIN(backup_speed, max_back_spd_cms);
}
return;
}
// limit climb rate
const float max_speed = get_max_speed(kP, accel_cmss_limited, alt_diff*100.0f, dt);
climb_rate_cms = MIN(max_speed, climb_rate_cms);
if (limit_max_alt) {
const float max_alt_max_speed = get_max_speed(kP, accel_cmss_limited, max_alt_diff*100.0f, dt);
climb_rate_cms = MIN(max_alt_max_speed, climb_rate_cms);
}
if (limit_min_alt) {
const float max_alt_min_speed = get_max_speed(kP, accel_cmss_limited, min_alt_diff*100.0f, dt);
climb_rate_cms = MAX(-max_alt_min_speed, climb_rate_cms);
}
}
# endif
#endif
}
// adjust roll-pitch to push vehicle away from objects

9
libraries/AC_Avoidance/AC_Avoid.h
View File

@ -68,14 +68,7 @@ public:
// adjust vertical climb rate so vehicle does not break the vertical fence
void adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_cms, float& backup_speed, float dt);
void adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_cms, float dt) {
float backup_speed = 0.0f;
adjust_velocity_z(kP, accel_cmss, climb_rate_cms, backup_speed, dt);
if (!is_zero(backup_speed)) {
climb_rate_cms = MIN(climb_rate_cms, backup_speed);
}
}
void adjust_velocity_z(float kP, float accel_cmss, float& climb_rate_cms, float dt);
// adjust roll-pitch to push vehicle away from objects
// roll and pitch value are in centi-degrees