Added second order, filtered derivative in stabilize. Works much better than the non-filtered one I used to have.

This commit is contained in:
Jason Short 2011-12-29 10:23:18 -08:00
parent e42d5cb4f9
commit 83d52899b0
1 changed files with 48 additions and 2 deletions

View File

@ -5,6 +5,21 @@ get_stabilize_roll(int32_t target_angle)
{
int32_t error;
int32_t rate;
int32_t current_rate;
int16_t rate_d1 = 0;
static int16_t rate_d2 = 0;
static int16_t rate_d3 = 0;
static int32_t last_rate = 0;
current_rate = (omega.x * DEGX100);
// playing with double derivatives.
// History of last 3 dir
rate_d3 = rate_d2;
rate_d2 = rate_d1;
rate_d1 = current_rate - last_rate;
last_rate = current_rate;
// angle error
error = wrap_180(target_angle - dcm.roll_sensor);
@ -30,9 +45,17 @@ get_stabilize_roll(int32_t target_angle)
int16_t iterm = g.pi_stabilize_roll.get_i(error, G_Dt);
// rate control
error = rate - (omega.x * DEGX100);
error = rate - current_rate;
rate = g.pi_rate_roll.get_pi(error, G_Dt);
// D term
// I had tried this before with little result. Recently, someone mentioned to me that
// MultiWii uses a filter of the last three to get around noise and get a stronger signal.
// Works well! Thanks!
int16_t d_temp = (rate_d1 + rate_d2 + rate_d3) * g.stablize_d;
rate -= d_temp;
// output control:
rate = constrain(rate, -2500, 2500);
return (int)rate + iterm;
@ -44,6 +67,21 @@ get_stabilize_pitch(int32_t target_angle)
{
int32_t error;
int32_t rate;
int32_t current_rate;
int16_t rate_d1 = 0;
static int16_t rate_d2 = 0;
static int16_t rate_d3 = 0;
static int32_t last_rate = 0;
current_rate = (omega.y * DEGX100);
// playing with double derivatives.
// History of last 3 dir
rate_d3 = rate_d2;
rate_d2 = rate_d1;
rate_d1 = current_rate - last_rate;
last_rate = current_rate;
// angle error
error = wrap_180(target_angle - dcm.pitch_sensor);
@ -68,9 +106,15 @@ get_stabilize_pitch(int32_t target_angle)
// experiment to pipe iterm directly into the output
int16_t iterm = g.pi_stabilize_pitch.get_i(error, G_Dt);
// rate control
error = rate - (omega.y * DEGX100);
rate = g.pi_rate_pitch.get_pi(error, G_Dt);
// D term testing
int16_t d_temp = (rate_d1 + rate_d2 + rate_d3) * g.stablize_d;
rate -= d_temp;
// output control:
rate = constrain(rate, -2500, 2500);
return (int)rate + iterm;
@ -109,7 +153,9 @@ get_stabilize_yaw(int32_t target_angle)
rate = g.pi_rate_yaw.get_pi(error, G_Dt);
// output control:
rate = constrain(rate, -2500, 2500);
int16_t yaw_input = 1200 + abs(g.rc_4.control_in);
// smoother Yaw control:
rate = constrain(rate, -yaw_input, yaw_input);
#endif
return (int)rate + iterm;