Tisham Dhar / Mbed OS Hexi_GPSIMU_Hotshoe

Use hexiwear as a GPSIMU-AHRS for Nikon DSLR cameras

Dependencies:   FXOS8700CQ FXAS21000 MBed_Adafruit-GPS-Library Hexi_OLED_SSD1351 Hexi_KW40Z Madgwick

Fork of Hexi_Blinky_Example by Hexiwear

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sensor_fusion.h@25:6e43bbe76aec, 2016-09-24 (annotated)

Committer:
whatnick
Date:
Sat Sep 24 06:10:54 2016 +0000
Revision:
25:6e43bbe76aec
Parent:
24:cbdf0f7d33bd 
Add BLE/haptic module as dependency and start threads properly.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
whatnick 24:cbdf0f7d33bd 1 #ifndef SENSOR_FUSION_H
whatnick 24:cbdf0f7d33bd 2 #define SENSOR_FUSION_H
whatnick 24:cbdf0f7d33bd 3
whatnick 24:cbdf0f7d33bd 4 #include "mbed.h"
whatnick 24:cbdf0f7d33bd 5
whatnick 24:cbdf0f7d33bd 6 // parameters for 6 DoF sensor fusion calculations
whatnick 24:cbdf0f7d33bd 7 float PI = 3.14159265358979323846f;
whatnick 24:cbdf0f7d33bd 8 float GyroMeasError = PI * (60.0f / 180.0f); // gyroscope measurement error in rads/s (start at 60 deg/s), then reduce after ~10 s to 3
whatnick 24:cbdf0f7d33bd 9 float beta = sqrt(3.0f / 4.0f) * GyroMeasError; // compute beta
whatnick 24:cbdf0f7d33bd 10 float GyroMeasDrift = PI * (1.0f / 180.0f); // gyroscope measurement drift in rad/s/s (start at 0.0 deg/s/s)
whatnick 24:cbdf0f7d33bd 11 float zeta = sqrt(3.0f / 4.0f) * GyroMeasDrift; // compute zeta, the other free parameter in the Madgwick scheme usually set to a small or zero value
whatnick 24:cbdf0f7d33bd 12 #define Kp 2.0f * 5.0f // these are the free parameters in the Mahony filter and fusion scheme, Kp for proportional feedback, Ki for integral
whatnick 24:cbdf0f7d33bd 13 #define Ki 0.0f
whatnick 24:cbdf0f7d33bd 14
whatnick 24:cbdf0f7d33bd 15
whatnick 24:cbdf0f7d33bd 16 float q[4] = {1.0f, 0.0f, 0.0f, 0.0f}; // vector to hold quaternion
whatnick 24:cbdf0f7d33bd 17 float eInt[3] = {0.0f, 0.0f, 0.0f}; // vector to hold integral error for Mahony method
whatnick 24:cbdf0f7d33bd 18 float pitch, yaw, roll;
whatnick 25:6e43bbe76aec 19 float mag_dec = 7.97; // Adelaide Magnetic declination http://www.magnetic-declination.com/Australia/Adelaide/116230.html
whatnick 24:cbdf0f7d33bd 20 float deltat = 0.0f; // integration interval for both filter schemes
whatnick 24:cbdf0f7d33bd 21 int lastUpdate = 0, firstUpdate = 0, Now = 0; // used to calculate integration interval
whatnick 24:cbdf0f7d33bd 22
whatnick 24:cbdf0f7d33bd 23 // Implementation of Sebastian Madgwick's "...efficient orientation filter for... inertial/magnetic sensor arrays"
whatnick 24:cbdf0f7d33bd 24 // (see http://www.x-io.co.uk/category/open-source/ for examples and more details)
whatnick 24:cbdf0f7d33bd 25 // which fuses acceleration, rotation rate, and magnetic moments to produce a quaternion-based estimate of absolute
whatnick 24:cbdf0f7d33bd 26 // device orientation -- which can be converted to yaw, pitch, and roll. Useful for stabilizing quadcopters, etc.
whatnick 24:cbdf0f7d33bd 27 // The performance of the orientation filter is at least as good as conventional Kalman-based filtering algorithms
whatnick 24:cbdf0f7d33bd 28 // but is much less computationally intensive---it can be performed on a 3.3 V Pro Mini operating at 8 MHz!
whatnick 24:cbdf0f7d33bd 29 void MadgwickQuaternionUpdate(float ax, float ay, float az, float gx, float gy, float gz, float mx, float my, float mz)
whatnick 24:cbdf0f7d33bd 30 {
whatnick 24:cbdf0f7d33bd 31 float q1 = q[0], q2 = q[1], q3 = q[2], q4 = q[3]; // short name local variable for readability
whatnick 24:cbdf0f7d33bd 32 float norm;
whatnick 24:cbdf0f7d33bd 33 float hx, hy, _2bx, _2bz;
whatnick 24:cbdf0f7d33bd 34 float s1, s2, s3, s4;
whatnick 24:cbdf0f7d33bd 35 float qDot1, qDot2, qDot3, qDot4;
whatnick 24:cbdf0f7d33bd 36
whatnick 24:cbdf0f7d33bd 37 // Auxiliary variables to avoid repeated arithmetic
whatnick 24:cbdf0f7d33bd 38 float _2q1mx;
whatnick 24:cbdf0f7d33bd 39 float _2q1my;
whatnick 24:cbdf0f7d33bd 40 float _2q1mz;
whatnick 24:cbdf0f7d33bd 41 float _2q2mx;
whatnick 24:cbdf0f7d33bd 42 float _4bx;
whatnick 24:cbdf0f7d33bd 43 float _4bz;
whatnick 24:cbdf0f7d33bd 44 float _2q1 = 2.0f * q1;
whatnick 24:cbdf0f7d33bd 45 float _2q2 = 2.0f * q2;
whatnick 24:cbdf0f7d33bd 46 float _2q3 = 2.0f * q3;
whatnick 24:cbdf0f7d33bd 47 float _2q4 = 2.0f * q4;
whatnick 24:cbdf0f7d33bd 48 float _2q1q3 = 2.0f * q1 * q3;
whatnick 24:cbdf0f7d33bd 49 float _2q3q4 = 2.0f * q3 * q4;
whatnick 24:cbdf0f7d33bd 50 float q1q1 = q1 * q1;
whatnick 24:cbdf0f7d33bd 51 float q1q2 = q1 * q2;
whatnick 24:cbdf0f7d33bd 52 float q1q3 = q1 * q3;
whatnick 24:cbdf0f7d33bd 53 float q1q4 = q1 * q4;
whatnick 24:cbdf0f7d33bd 54 float q2q2 = q2 * q2;
whatnick 24:cbdf0f7d33bd 55 float q2q3 = q2 * q3;
whatnick 24:cbdf0f7d33bd 56 float q2q4 = q2 * q4;
whatnick 24:cbdf0f7d33bd 57 float q3q3 = q3 * q3;
whatnick 24:cbdf0f7d33bd 58 float q3q4 = q3 * q4;
whatnick 24:cbdf0f7d33bd 59 float q4q4 = q4 * q4;
whatnick 24:cbdf0f7d33bd 60
whatnick 24:cbdf0f7d33bd 61 // Normalise accelerometer measurement
whatnick 24:cbdf0f7d33bd 62 norm = sqrt(ax * ax + ay * ay + az * az);
whatnick 24:cbdf0f7d33bd 63 if (norm == 0.0f) return; // handle NaN
whatnick 24:cbdf0f7d33bd 64 norm = 1.0f/norm;
whatnick 24:cbdf0f7d33bd 65 ax *= norm;
whatnick 24:cbdf0f7d33bd 66 ay *= norm;
whatnick 24:cbdf0f7d33bd 67 az *= norm;
whatnick 24:cbdf0f7d33bd 68
whatnick 24:cbdf0f7d33bd 69 // Normalise magnetometer measurement
whatnick 24:cbdf0f7d33bd 70 norm = sqrt(mx * mx + my * my + mz * mz);
whatnick 24:cbdf0f7d33bd 71 if (norm == 0.0f) return; // handle NaN
whatnick 24:cbdf0f7d33bd 72 norm = 1.0f/norm;
whatnick 24:cbdf0f7d33bd 73 mx *= norm;
whatnick 24:cbdf0f7d33bd 74 my *= norm;
whatnick 24:cbdf0f7d33bd 75 mz *= norm;
whatnick 24:cbdf0f7d33bd 76
whatnick 24:cbdf0f7d33bd 77 // Reference direction of Earth's magnetic field
whatnick 24:cbdf0f7d33bd 78 _2q1mx = 2.0f * q1 * mx;
whatnick 24:cbdf0f7d33bd 79 _2q1my = 2.0f * q1 * my;
whatnick 24:cbdf0f7d33bd 80 _2q1mz = 2.0f * q1 * mz;
whatnick 24:cbdf0f7d33bd 81 _2q2mx = 2.0f * q2 * mx;
whatnick 24:cbdf0f7d33bd 82 hx = mx * q1q1 - _2q1my * q4 + _2q1mz * q3 + mx * q2q2 + _2q2 * my * q3 + _2q2 * mz * q4 - mx * q3q3 - mx * q4q4;
whatnick 24:cbdf0f7d33bd 83 hy = _2q1mx * q4 + my * q1q1 - _2q1mz * q2 + _2q2mx * q3 - my * q2q2 + my * q3q3 + _2q3 * mz * q4 - my * q4q4;
whatnick 24:cbdf0f7d33bd 84 _2bx = sqrt(hx * hx + hy * hy);
whatnick 24:cbdf0f7d33bd 85 _2bz = -_2q1mx * q3 + _2q1my * q2 + mz * q1q1 + _2q2mx * q4 - mz * q2q2 + _2q3 * my * q4 - mz * q3q3 + mz * q4q4;
whatnick 24:cbdf0f7d33bd 86 _4bx = 2.0f * _2bx;
whatnick 24:cbdf0f7d33bd 87 _4bz = 2.0f * _2bz;
whatnick 24:cbdf0f7d33bd 88
whatnick 24:cbdf0f7d33bd 89 // Gradient decent algorithm corrective step
whatnick 24:cbdf0f7d33bd 90 s1 = -_2q3 * (2.0f * q2q4 - _2q1q3 - ax) + _2q2 * (2.0f * q1q2 + _2q3q4 - ay) - _2bz * q3 * (_2bx * (0.5f - q3q3 - q4q4) + _2bz * (q2q4 - q1q3) - mx) + (-_2bx * q4 + _2bz * q2) * (_2bx * (q2q3 - q1q4) + _2bz * (q1q2 + q3q4) - my) + _2bx * q3 * (_2bx * (q1q3 + q2q4) + _2bz * (0.5f - q2q2 - q3q3) - mz);
whatnick 24:cbdf0f7d33bd 91 s2 = _2q4 * (2.0f * q2q4 - _2q1q3 - ax) + _2q1 * (2.0f * q1q2 + _2q3q4 - ay) - 4.0f * q2 * (1.0f - 2.0f * q2q2 - 2.0f * q3q3 - az) + _2bz * q4 * (_2bx * (0.5f - q3q3 - q4q4) + _2bz * (q2q4 - q1q3) - mx) + (_2bx * q3 + _2bz * q1) * (_2bx * (q2q3 - q1q4) + _2bz * (q1q2 + q3q4) - my) + (_2bx * q4 - _4bz * q2) * (_2bx * (q1q3 + q2q4) + _2bz * (0.5f - q2q2 - q3q3) - mz);
whatnick 24:cbdf0f7d33bd 92 s3 = -_2q1 * (2.0f * q2q4 - _2q1q3 - ax) + _2q4 * (2.0f * q1q2 + _2q3q4 - ay) - 4.0f * q3 * (1.0f - 2.0f * q2q2 - 2.0f * q3q3 - az) + (-_4bx * q3 - _2bz * q1) * (_2bx * (0.5f - q3q3 - q4q4) + _2bz * (q2q4 - q1q3) - mx) + (_2bx * q2 + _2bz * q4) * (_2bx * (q2q3 - q1q4) + _2bz * (q1q2 + q3q4) - my) + (_2bx * q1 - _4bz * q3) * (_2bx * (q1q3 + q2q4) + _2bz * (0.5f - q2q2 - q3q3) - mz);
whatnick 24:cbdf0f7d33bd 93 s4 = _2q2 * (2.0f * q2q4 - _2q1q3 - ax) + _2q3 * (2.0f * q1q2 + _2q3q4 - ay) + (-_4bx * q4 + _2bz * q2) * (_2bx * (0.5f - q3q3 - q4q4) + _2bz * (q2q4 - q1q3) - mx) + (-_2bx * q1 + _2bz * q3) * (_2bx * (q2q3 - q1q4) + _2bz * (q1q2 + q3q4) - my) + _2bx * q2 * (_2bx * (q1q3 + q2q4) + _2bz * (0.5f - q2q2 - q3q3) - mz);
whatnick 24:cbdf0f7d33bd 94 norm = sqrt(s1 * s1 + s2 * s2 + s3 * s3 + s4 * s4); // normalise step magnitude
whatnick 24:cbdf0f7d33bd 95 norm = 1.0f/norm;
whatnick 24:cbdf0f7d33bd 96 s1 *= norm;
whatnick 24:cbdf0f7d33bd 97 s2 *= norm;
whatnick 24:cbdf0f7d33bd 98 s3 *= norm;
whatnick 24:cbdf0f7d33bd 99 s4 *= norm;
whatnick 24:cbdf0f7d33bd 100
whatnick 24:cbdf0f7d33bd 101 // Compute rate of change of quaternion
whatnick 24:cbdf0f7d33bd 102 qDot1 = 0.5f * (-q2 * gx - q3 * gy - q4 * gz) - beta * s1;
whatnick 24:cbdf0f7d33bd 103 qDot2 = 0.5f * (q1 * gx + q3 * gz - q4 * gy) - beta * s2;
whatnick 24:cbdf0f7d33bd 104 qDot3 = 0.5f * (q1 * gy - q2 * gz + q4 * gx) - beta * s3;
whatnick 24:cbdf0f7d33bd 105 qDot4 = 0.5f * (q1 * gz + q2 * gy - q3 * gx) - beta * s4;
whatnick 24:cbdf0f7d33bd 106
whatnick 24:cbdf0f7d33bd 107 // Integrate to yield quaternion
whatnick 24:cbdf0f7d33bd 108 q1 += qDot1 * deltat;
whatnick 24:cbdf0f7d33bd 109 q2 += qDot2 * deltat;
whatnick 24:cbdf0f7d33bd 110 q3 += qDot3 * deltat;
whatnick 24:cbdf0f7d33bd 111 q4 += qDot4 * deltat;
whatnick 24:cbdf0f7d33bd 112 norm = sqrt(q1 * q1 + q2 * q2 + q3 * q3 + q4 * q4); // normalise quaternion
whatnick 24:cbdf0f7d33bd 113 norm = 1.0f/norm;
whatnick 24:cbdf0f7d33bd 114 q[0] = q1 * norm;
whatnick 24:cbdf0f7d33bd 115 q[1] = q2 * norm;
whatnick 24:cbdf0f7d33bd 116 q[2] = q3 * norm;
whatnick 24:cbdf0f7d33bd 117 q[3] = q4 * norm;
whatnick 24:cbdf0f7d33bd 118
whatnick 24:cbdf0f7d33bd 119 }
whatnick 24:cbdf0f7d33bd 120
whatnick 24:cbdf0f7d33bd 121 // Similar to Madgwick scheme but uses proportional and integral filtering on the error between estimated reference vectors and
whatnick 24:cbdf0f7d33bd 122 // measured ones.
whatnick 24:cbdf0f7d33bd 123 void MahonyQuaternionUpdate(float ax, float ay, float az, float gx, float gy, float gz, float mx, float my, float mz)
whatnick 24:cbdf0f7d33bd 124 {
whatnick 24:cbdf0f7d33bd 125 float q1 = q[0], q2 = q[1], q3 = q[2], q4 = q[3]; // short name local variable for readability
whatnick 24:cbdf0f7d33bd 126 float norm;
whatnick 24:cbdf0f7d33bd 127 float hx, hy, bx, bz;
whatnick 24:cbdf0f7d33bd 128 float vx, vy, vz, wx, wy, wz;
whatnick 24:cbdf0f7d33bd 129 float ex, ey, ez;
whatnick 24:cbdf0f7d33bd 130 float pa, pb, pc;
whatnick 24:cbdf0f7d33bd 131
whatnick 24:cbdf0f7d33bd 132 // Auxiliary variables to avoid repeated arithmetic
whatnick 24:cbdf0f7d33bd 133 float q1q1 = q1 * q1;
whatnick 24:cbdf0f7d33bd 134 float q1q2 = q1 * q2;
whatnick 24:cbdf0f7d33bd 135 float q1q3 = q1 * q3;
whatnick 24:cbdf0f7d33bd 136 float q1q4 = q1 * q4;
whatnick 24:cbdf0f7d33bd 137 float q2q2 = q2 * q2;
whatnick 24:cbdf0f7d33bd 138 float q2q3 = q2 * q3;
whatnick 24:cbdf0f7d33bd 139 float q2q4 = q2 * q4;
whatnick 24:cbdf0f7d33bd 140 float q3q3 = q3 * q3;
whatnick 24:cbdf0f7d33bd 141 float q3q4 = q3 * q4;
whatnick 24:cbdf0f7d33bd 142 float q4q4 = q4 * q4;
whatnick 24:cbdf0f7d33bd 143
whatnick 24:cbdf0f7d33bd 144 // Normalise accelerometer measurement
whatnick 24:cbdf0f7d33bd 145 norm = sqrt(ax * ax + ay * ay + az * az);
whatnick 24:cbdf0f7d33bd 146 if (norm == 0.0f) return; // handle NaN
whatnick 24:cbdf0f7d33bd 147 norm = 1.0f / norm; // use reciprocal for division
whatnick 24:cbdf0f7d33bd 148 ax *= norm;
whatnick 24:cbdf0f7d33bd 149 ay *= norm;
whatnick 24:cbdf0f7d33bd 150 az *= norm;
whatnick 24:cbdf0f7d33bd 151
whatnick 24:cbdf0f7d33bd 152 // Normalise magnetometer measurement
whatnick 24:cbdf0f7d33bd 153 norm = sqrt(mx * mx + my * my + mz * mz);
whatnick 24:cbdf0f7d33bd 154 if (norm == 0.0f) return; // handle NaN
whatnick 24:cbdf0f7d33bd 155 norm = 1.0f / norm; // use reciprocal for division
whatnick 24:cbdf0f7d33bd 156 mx *= norm;
whatnick 24:cbdf0f7d33bd 157 my *= norm;
whatnick 24:cbdf0f7d33bd 158 mz *= norm;
whatnick 24:cbdf0f7d33bd 159
whatnick 24:cbdf0f7d33bd 160 // Reference direction of Earth's magnetic field
whatnick 24:cbdf0f7d33bd 161 hx = 2.0f * mx * (0.5f - q3q3 - q4q4) + 2.0f * my * (q2q3 - q1q4) + 2.0f * mz * (q2q4 + q1q3);
whatnick 24:cbdf0f7d33bd 162 hy = 2.0f * mx * (q2q3 + q1q4) + 2.0f * my * (0.5f - q2q2 - q4q4) + 2.0f * mz * (q3q4 - q1q2);
whatnick 24:cbdf0f7d33bd 163 bx = sqrt((hx * hx) + (hy * hy));
whatnick 24:cbdf0f7d33bd 164 bz = 2.0f * mx * (q2q4 - q1q3) + 2.0f * my * (q3q4 + q1q2) + 2.0f * mz * (0.5f - q2q2 - q3q3);
whatnick 24:cbdf0f7d33bd 165
whatnick 24:cbdf0f7d33bd 166 // Estimated direction of gravity and magnetic field
whatnick 24:cbdf0f7d33bd 167 vx = 2.0f * (q2q4 - q1q3);
whatnick 24:cbdf0f7d33bd 168 vy = 2.0f * (q1q2 + q3q4);
whatnick 24:cbdf0f7d33bd 169 vz = q1q1 - q2q2 - q3q3 + q4q4;
whatnick 24:cbdf0f7d33bd 170 wx = 2.0f * bx * (0.5f - q3q3 - q4q4) + 2.0f * bz * (q2q4 - q1q3);
whatnick 24:cbdf0f7d33bd 171 wy = 2.0f * bx * (q2q3 - q1q4) + 2.0f * bz * (q1q2 + q3q4);
whatnick 24:cbdf0f7d33bd 172 wz = 2.0f * bx * (q1q3 + q2q4) + 2.0f * bz * (0.5f - q2q2 - q3q3);
whatnick 24:cbdf0f7d33bd 173
whatnick 24:cbdf0f7d33bd 174 // Error is cross product between estimated direction and measured direction of gravity
whatnick 24:cbdf0f7d33bd 175 ex = (ay * vz - az * vy) + (my * wz - mz * wy);
whatnick 24:cbdf0f7d33bd 176 ey = (az * vx - ax * vz) + (mz * wx - mx * wz);
whatnick 24:cbdf0f7d33bd 177 ez = (ax * vy - ay * vx) + (mx * wy - my * wx);
whatnick 24:cbdf0f7d33bd 178 if (Ki > 0.0f) {
whatnick 24:cbdf0f7d33bd 179 eInt[0] += ex; // accumulate integral error
whatnick 24:cbdf0f7d33bd 180 eInt[1] += ey;
whatnick 24:cbdf0f7d33bd 181 eInt[2] += ez;
whatnick 24:cbdf0f7d33bd 182 } else {
whatnick 24:cbdf0f7d33bd 183 eInt[0] = 0.0f; // prevent integral wind up
whatnick 24:cbdf0f7d33bd 184 eInt[1] = 0.0f;
whatnick 24:cbdf0f7d33bd 185 eInt[2] = 0.0f;
whatnick 24:cbdf0f7d33bd 186 }
whatnick 24:cbdf0f7d33bd 187
whatnick 24:cbdf0f7d33bd 188 // Apply feedback terms
whatnick 24:cbdf0f7d33bd 189 gx = gx + Kp * ex + Ki * eInt[0];
whatnick 24:cbdf0f7d33bd 190 gy = gy + Kp * ey + Ki * eInt[1];
whatnick 24:cbdf0f7d33bd 191 gz = gz + Kp * ez + Ki * eInt[2];
whatnick 24:cbdf0f7d33bd 192
whatnick 24:cbdf0f7d33bd 193 // Integrate rate of change of quaternion
whatnick 24:cbdf0f7d33bd 194 pa = q2;
whatnick 24:cbdf0f7d33bd 195 pb = q3;
whatnick 24:cbdf0f7d33bd 196 pc = q4;
whatnick 24:cbdf0f7d33bd 197 q1 = q1 + (-q2 * gx - q3 * gy - q4 * gz) * (0.5f * deltat);
whatnick 24:cbdf0f7d33bd 198 q2 = pa + (q1 * gx + pb * gz - pc * gy) * (0.5f * deltat);
whatnick 24:cbdf0f7d33bd 199 q3 = pb + (q1 * gy - pa * gz + pc * gx) * (0.5f * deltat);
whatnick 24:cbdf0f7d33bd 200 q4 = pc + (q1 * gz + pa * gy - pb * gx) * (0.5f * deltat);
whatnick 24:cbdf0f7d33bd 201
whatnick 24:cbdf0f7d33bd 202 // Normalise quaternion
whatnick 24:cbdf0f7d33bd 203 norm = sqrt(q1 * q1 + q2 * q2 + q3 * q3 + q4 * q4);
whatnick 24:cbdf0f7d33bd 204 norm = 1.0f / norm;
whatnick 24:cbdf0f7d33bd 205 q[0] = q1 * norm;
whatnick 24:cbdf0f7d33bd 206 q[1] = q2 * norm;
whatnick 24:cbdf0f7d33bd 207 q[2] = q3 * norm;
whatnick 24:cbdf0f7d33bd 208 q[3] = q4 * norm;
whatnick 24:cbdf0f7d33bd 209
whatnick 24:cbdf0f7d33bd 210 }
whatnick 24:cbdf0f7d33bd 211
whatnick 25:6e43bbe76aec 212 void calcEuler()
whatnick 25:6e43bbe76aec 213 {
whatnick 25:6e43bbe76aec 214 yaw = atan2(2.0f * (q[1] * q[2] + q[0] * q[3]), q[0] * q[0] + q[1] * q[1] - q[2] * q[2] - q[3] * q[3]);
whatnick 25:6e43bbe76aec 215 pitch = -asin(2.0f * (q[1] * q[3] - q[0] * q[2]));
whatnick 25:6e43bbe76aec 216 roll = atan2(2.0f * (q[0] * q[1] + q[2] * q[3]), q[0] * q[0] - q[1] * q[1] - q[2] * q[2] + q[3] * q[3]);
whatnick 25:6e43bbe76aec 217 pitch *= 180.0f / PI;
whatnick 25:6e43bbe76aec 218 yaw *= 180.0f / PI;
whatnick 25:6e43bbe76aec 219 yaw -= mag_dec; // Declination from BLE/SD storage at GPS location
whatnick 25:6e43bbe76aec 220 roll *= 180.0f / PI;
whatnick 25:6e43bbe76aec 221 }
whatnick 25:6e43bbe76aec 222
whatnick 24:cbdf0f7d33bd 223 #endif