altb_pmic / AHRS

AHRS

Dependencies:   Eigen

Dependents:   IndNav_QK3_T265

EKF_RPY.cpp@21:31e01d3e0143, 2019-10-21 (annotated)

Committer:
altb2
Date:
Mon Oct 21 17:14:27 2019 +0000
Revision:
21:31e01d3e0143
Child:
22:495a419e474c
Added EKF_RP, EKF_RPY from pmic, also EIgen Library

Who changed what in which revision?

UserRevisionLine numberNew contents of line
altb2 21:31e01d3e0143 1 #include "EKF_RPY.h"
altb2 21:31e01d3e0143 2
altb2 21:31e01d3e0143 3 using namespace std;
altb2 21:31e01d3e0143 4 using namespace Eigen;
altb2 21:31e01d3e0143 5
altb2 21:31e01d3e0143 6 EKF_RPY::EKF_RPY(float Ts, float mx0, float my0, float mz0)
altb2 21:31e01d3e0143 7 {
altb2 21:31e01d3e0143 8 this->Ts = Ts;
altb2 21:31e01d3e0143 9 /* [n_gyro; n_v; n_b_g] */
altb2 21:31e01d3e0143 10 var_fx << 0.01f, 0.01f, 0.01f, 0.0001f, 0.0001f, 0.0001f, 0.0001f, 0.0001f;
altb2 21:31e01d3e0143 11 /* [n_acc; n_mag] */
altb2 21:31e01d3e0143 12 var_gy << 45.0f, 45.0f, 0.1f, 0.1f;
altb2 21:31e01d3e0143 13 rho = 0.5f;
altb2 21:31e01d3e0143 14 kv = 0.5f; /* k1/m */
altb2 21:31e01d3e0143 15 g = 9.81f;
altb2 21:31e01d3e0143 16 m0 << mx0, my0, mz0;
altb2 21:31e01d3e0143 17 reset();
altb2 21:31e01d3e0143 18 }
altb2 21:31e01d3e0143 19 EKF_RPY::EKF_RPY(float Ts) // Constructor without m0, set m0 later!!!
altb2 21:31e01d3e0143 20 {
altb2 21:31e01d3e0143 21 this->Ts = Ts;
altb2 21:31e01d3e0143 22 /* [n_gyro; n_v; n_b_g] */
altb2 21:31e01d3e0143 23 var_fx << 0.01f, 0.01f, 0.01f, 0.0001f, 0.0001f, 0.0001f, 0.0001f, 0.0001f;
altb2 21:31e01d3e0143 24 /* [n_acc; n_mag] */
altb2 21:31e01d3e0143 25 var_gy << 45.0f, 45.0f, 0.1f, 0.1f;
altb2 21:31e01d3e0143 26 rho = 0.5f;
altb2 21:31e01d3e0143 27 kv = 0.5f; /* k1/m */
altb2 21:31e01d3e0143 28 g = 9.81f;
altb2 21:31e01d3e0143 29 reset();
altb2 21:31e01d3e0143 30 }
altb2 21:31e01d3e0143 31 void EKF_RPY::set_m0(float mx0, float my0, float mz0){
altb2 21:31e01d3e0143 32 m0 << mx0, my0, mz0;
altb2 21:31e01d3e0143 33 }
altb2 21:31e01d3e0143 34
altb2 21:31e01d3e0143 35 EKF_RPY::~EKF_RPY() {}
altb2 21:31e01d3e0143 36
altb2 21:31e01d3e0143 37 void EKF_RPY::reset()
altb2 21:31e01d3e0143 38 {
altb2 21:31e01d3e0143 39 u.setZero();
altb2 21:31e01d3e0143 40 y.setZero();
altb2 21:31e01d3e0143 41 x.setZero();
altb2 21:31e01d3e0143 42 update_angles();
altb2 21:31e01d3e0143 43 calc_F();
altb2 21:31e01d3e0143 44 calc_H();
altb2 21:31e01d3e0143 45 initialize_Q();
altb2 21:31e01d3e0143 46 initialize_R();
altb2 21:31e01d3e0143 47 P = Q;
altb2 21:31e01d3e0143 48 K.setZero();
altb2 21:31e01d3e0143 49 I.setIdentity();
altb2 21:31e01d3e0143 50 }
altb2 21:31e01d3e0143 51
altb2 21:31e01d3e0143 52 float EKF_RPY::get_est_state(uint8_t i)
altb2 21:31e01d3e0143 53 {
altb2 21:31e01d3e0143 54 /* x = [ang; v; b_g] = [0: phi
altb2 21:31e01d3e0143 55 1: theta
altb2 21:31e01d3e0143 56 2: psi
altb2 21:31e01d3e0143 57 3: b_gx
altb2 21:31e01d3e0143 58 4: b_gy
altb2 21:31e01d3e0143 59 5: b_gz
altb2 21:31e01d3e0143 60 6: vx
altb2 21:31e01d3e0143 61 7: vy] */
altb2 21:31e01d3e0143 62 return x(i);
altb2 21:31e01d3e0143 63 }
altb2 21:31e01d3e0143 64
altb2 21:31e01d3e0143 65 void EKF_RPY::update(float gyro_x, float gyro_y, float gyro_z, float accel_x, float accel_y, float magnet_x, float magnet_y)
altb2 21:31e01d3e0143 66 {
altb2 21:31e01d3e0143 67 u << gyro_x, gyro_y, gyro_z;
altb2 21:31e01d3e0143 68 y << accel_x, accel_y, magnet_x, magnet_y;
altb2 21:31e01d3e0143 69 update_angles();
altb2 21:31e01d3e0143 70
altb2 21:31e01d3e0143 71 calc_F();
altb2 21:31e01d3e0143 72 calc_H();
altb2 21:31e01d3e0143 73 calc_Q();
altb2 21:31e01d3e0143 74
altb2 21:31e01d3e0143 75 x = fxd();
altb2 21:31e01d3e0143 76 P = F * P * F.transpose() + Q;
altb2 21:31e01d3e0143 77
altb2 21:31e01d3e0143 78 K = P * H.transpose() * ( H * P * H.transpose() + R ).inverse();
altb2 21:31e01d3e0143 79
altb2 21:31e01d3e0143 80 x = x + K * (y - gy());
altb2 21:31e01d3e0143 81 P = (I - K * H) * P;
altb2 21:31e01d3e0143 82 }
altb2 21:31e01d3e0143 83
altb2 21:31e01d3e0143 84 void EKF_RPY::update_angles()
altb2 21:31e01d3e0143 85 {
altb2 21:31e01d3e0143 86 s1 = sinf(x(0));
altb2 21:31e01d3e0143 87 c1 = cosf(x(0));
altb2 21:31e01d3e0143 88 s2 = sinf(x(1));
altb2 21:31e01d3e0143 89 c2 = cosf(x(1));
altb2 21:31e01d3e0143 90 s3 = sinf(x(2));
altb2 21:31e01d3e0143 91 c3 = cosf(x(2));
altb2 21:31e01d3e0143 92 }
altb2 21:31e01d3e0143 93
altb2 21:31e01d3e0143 94 void EKF_RPY::calc_F()
altb2 21:31e01d3e0143 95 {
altb2 21:31e01d3e0143 96 F << Ts*(c1*s2*(u(1) - x(6)) - s1*s2*(u(2) - x(7)))/c2 + 1.0f, Ts*(c1*(u(2) - x(7)) + s1*(u(1) - x(6)))/(c2*c2), 0.0f, 0.0f, 0.0f, -Ts, -Ts*s1*s2/c2, -Ts*c1*s2/c2,
altb2 21:31e01d3e0143 97 -Ts*(c1*(u(2) - x(7)) + s1*(u(1) - x(6))), 1.0f, 0.0f, 0.0f, 0.0f, 0.0f, -Ts*c1, Ts*s1,
altb2 21:31e01d3e0143 98 Ts*(c1*(u(1) - x(6)) - s1*(u(2) - x(7)))/c2, Ts*(c1*(u(2) - x(7)) + s1*(u(1) - x(6)))*s2/(c2*c2), 1.0f, 0.0f, 0.0f, 0.0f, -Ts*s1/c2, -Ts*c1/c2,
altb2 21:31e01d3e0143 99 0.0f, Ts*c2*g, 0.0f, 1.0f - Ts*kv, Ts*(u(2) - x(7)), 0.0f, 0.0f, -Ts*x(4),
altb2 21:31e01d3e0143 100 -Ts*c1*c2*g, Ts*g*s1*s2, 0.0f, -Ts*(u(2) - x(7)), 1.0f - Ts*kv, 0.0f, 0.0f, Ts*x(3),
altb2 21:31e01d3e0143 101 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f, 0.0f, 0.0f,
altb2 21:31e01d3e0143 102 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f, 0.0f,
altb2 21:31e01d3e0143 103 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f;
altb2 21:31e01d3e0143 104 }
altb2 21:31e01d3e0143 105
altb2 21:31e01d3e0143 106 void EKF_RPY::calc_H()
altb2 21:31e01d3e0143 107 {
altb2 21:31e01d3e0143 108 H << 0.0f, 0.0f, 0.0f, -kv, u(2) - x(7), 0.0f, 0.0f, -x(4),
altb2 21:31e01d3e0143 109 0.0f, 0.0f, 0.0f, x(7) - u(2), -kv, 0.0f, 0.0f, x(3),
altb2 21:31e01d3e0143 110 0.0f, - c2*m0(2) - c3*m0(0)*s2 - m0(1)*s2*s3, c2*(c3*m0(1) - m0(0)*s3), 0.0f, 0.0f, 0.0f, 0.0f, 0.0f,
altb2 21:31e01d3e0143 111 m0(0)*(s1*s3 + c1*c3*s2) - m0(1)*(c3*s1 - c1*s2*s3) + c1*c2*m0(2), s1*(c2*c3*m0(0) - m0(2)*s2 + c2*m0(1)*s3), - m0(0)*(c1*c3 + s1*s2*s3) - m0(1)*(c1*s3 - c3*s1*s2), 0.0f, 0.0f, 0.0f, 0.0f, 0.0f;
altb2 21:31e01d3e0143 112 }
altb2 21:31e01d3e0143 113
altb2 21:31e01d3e0143 114 void EKF_RPY::initialize_R()
altb2 21:31e01d3e0143 115 {
altb2 21:31e01d3e0143 116 R << rho*var_gy(0)/Ts, 0.0f, 0.0f, 0.0f,
altb2 21:31e01d3e0143 117 0.0f, rho*var_gy(1)/Ts, 0.0f, 0.0f,
altb2 21:31e01d3e0143 118 0.0f, 0.0f, rho*var_gy(2)/Ts, 0.0f,
altb2 21:31e01d3e0143 119 0.0f, 0.0f, 0.0f, rho*var_gy(3)/Ts;
altb2 21:31e01d3e0143 120 }
altb2 21:31e01d3e0143 121
altb2 21:31e01d3e0143 122 void EKF_RPY::initialize_Q()
altb2 21:31e01d3e0143 123 {
altb2 21:31e01d3e0143 124 Q << Ts*(var_fx(0) + (c1*c1*var_fx(2) + s1*s1*var_fx(1))*s2*s2/(c2*c2)), Ts*(var_fx(1) - var_fx(2))*c1*s1*s2/c2, Ts*(c1*c1*var_fx(2) + s1*s1*var_fx(1))*s2/(c2*c2), 0.0f, 0.0f, 0.0f, 0.0f, 0.0f,
altb2 21:31e01d3e0143 125 Ts*(var_fx(1) - var_fx(2))*c1*s1*s2/c2, Ts*(var_fx(1)*c1*c1 + var_fx(2)*s1*s1), Ts*(var_fx(1) - var_fx(2))*c1*s1/c2, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f,
altb2 21:31e01d3e0143 126 Ts*(c1*c1*var_fx(2) + s1*s1*var_fx(1))*s2/(c2*c2), Ts*(var_fx(1) - var_fx(2))*c1*s1/c2, Ts*(c1*c1*var_fx(2) + s1*s1*var_fx(1))/(c2*c2), 0.0f, 0.0f, 0.0f, 0.0f, 0.0f,
altb2 21:31e01d3e0143 127 0.0f, 0.0f, 0.0f, Ts*var_fx(3), 0.0f, 0.0f, 0.0f, 0.0f,
altb2 21:31e01d3e0143 128 0.0f, 0.0f, 0.0f, 0.0f, Ts*var_fx(4), 0.0f, 0.0f, 0.0f,
altb2 21:31e01d3e0143 129 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, Ts*var_fx(5), 0.0f, 0.0f,
altb2 21:31e01d3e0143 130 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, Ts*var_fx(6), 0.0f,
altb2 21:31e01d3e0143 131 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, Ts*var_fx(7);
altb2 21:31e01d3e0143 132 }
altb2 21:31e01d3e0143 133
altb2 21:31e01d3e0143 134 void EKF_RPY::calc_Q()
altb2 21:31e01d3e0143 135 {
altb2 21:31e01d3e0143 136 Q(0,0) = Ts*(var_fx(0) + (c1*c1*var_fx(2) + s1*s1*var_fx(1))*s2*s2/(c2*c2));
altb2 21:31e01d3e0143 137 Q(0,1) = Ts*(var_fx(1) - var_fx(2))*c1*s1*s2/c2;
altb2 21:31e01d3e0143 138 Q(0,2) = Ts*(c1*c1*var_fx(2) + s1*s1*var_fx(1))*s2/(c2*c2);
altb2 21:31e01d3e0143 139 Q(1,0) = Q(0,1);
altb2 21:31e01d3e0143 140 Q(1,1) = Ts*(var_fx(1)*c1*c1 + var_fx(2)*s1*s1);
altb2 21:31e01d3e0143 141 Q(1,2) = Ts*(var_fx(1) - var_fx(2))*c1*s1/c2;
altb2 21:31e01d3e0143 142 Q(2,0) = Q(0,2);
altb2 21:31e01d3e0143 143 Q(2,1) = Q(1,2);
altb2 21:31e01d3e0143 144 Q(2,2) = Ts*(c1*c1*var_fx(2) + s1*s1*var_fx(1))/(c2*c2);
altb2 21:31e01d3e0143 145 }
altb2 21:31e01d3e0143 146
altb2 21:31e01d3e0143 147 Matrix <float, 8, 1> EKF_RPY::fxd()
altb2 21:31e01d3e0143 148 {
altb2 21:31e01d3e0143 149 Matrix <float, 8, 1> retval;
altb2 21:31e01d3e0143 150 retval << x(0) + Ts*(u(0) - x(5) + (c1*s2*(u(2) - x(7)))/c2 + (s1*s2*(u(1) - x(6)))/c2),
altb2 21:31e01d3e0143 151 x(1) + Ts*(c1*(u(1) - x(6)) - s1*(u(2) - x(7))),
altb2 21:31e01d3e0143 152 x(2) + Ts*((c1*(u(2) - x(7)))/c2 + (s1*(u(1) - x(6)))/c2),
altb2 21:31e01d3e0143 153 x(3) + Ts*(g*s2 - kv*x(3) + x(4)*(u(2) - x(7))),
altb2 21:31e01d3e0143 154 x(4) - Ts*(kv*x(4) + x(3)*(u(2) - x(7)) + c2*g*s1),
altb2 21:31e01d3e0143 155 x(5),
altb2 21:31e01d3e0143 156 x(6),
altb2 21:31e01d3e0143 157 x(7);
altb2 21:31e01d3e0143 158 return retval;
altb2 21:31e01d3e0143 159 }
altb2 21:31e01d3e0143 160
altb2 21:31e01d3e0143 161 Matrix <float, 4, 1> EKF_RPY::gy()
altb2 21:31e01d3e0143 162 {
altb2 21:31e01d3e0143 163 Matrix <float, 4, 1> retval;
altb2 21:31e01d3e0143 164 retval << x(4)*(u(2) - x(7)) - kv*x(3),
altb2 21:31e01d3e0143 165 - kv*x(4) - x(3)*(u(2) - x(7)),
altb2 21:31e01d3e0143 166 - m0(2)*s2 + c2*c3*m0(0) + c2*m0(1)*s3,
altb2 21:31e01d3e0143 167 - m0(0)*(c1*s3 - c3*s1*s2) + m0(1)*(c1*c3 + s1*s2*s3) + c2*m0(2)*s1;
altb2 21:31e01d3e0143 168 return retval;
altb2 21:31e01d3e0143 169 }
altb2 21:31e01d3e0143 170