IUPUI
Dependencies: FXOS8700 FXAS21002 kalman MotionSensor
Revision 1:615afe04158d, committed 2021-03-15
- Comitter:
- fitzpatrick
- Date:
- Mon Mar 15 19:36:20 2021 +0000
- Parent:
- 0:21d86aae6b2a
- Commit message:
- IUPUI Project 1
Changed in this revision
diff -r 21d86aae6b2a -r 615afe04158d FXAS21002.lib --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/FXAS21002.lib Mon Mar 15 19:36:20 2021 +0000 @@ -0,0 +1,1 @@ +http://developer.mbed.org/users/AswinSivakumar/code/FXAS21002/#c9ebfc81e8b6
diff -r 21d86aae6b2a -r 615afe04158d FXOS8700.lib --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/FXOS8700.lib Mon Mar 15 19:36:20 2021 +0000 @@ -0,0 +1,1 @@ +http://developer.mbed.org/users/AswinSivakumar/code/FXOS8700/#df2167370234
diff -r 21d86aae6b2a -r 615afe04158d Grove_temperature.lib --- a/Grove_temperature.lib Tue Aug 07 04:36:25 2018 +0000 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,1 +0,0 @@ -https://os.mbed.com/users/MACRUM/code/Grove_temperature/#aee37a51ccbb
diff -r 21d86aae6b2a -r 615afe04158d MotionSensor.lib --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/MotionSensor.lib Mon Mar 15 19:36:20 2021 +0000 @@ -0,0 +1,1 @@ +http://mbed.org/teams/components/code/MotionSensor/#4d6e28d4a18a
diff -r 21d86aae6b2a -r 615afe04158d kalman.lib --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/kalman.lib Mon Mar 15 19:36:20 2021 +0000 @@ -0,0 +1,1 @@ +http://mbed.org/users/cdonate/code/kalman/#8a460b0d6f09
diff -r 21d86aae6b2a -r 615afe04158d main.cpp --- a/main.cpp Tue Aug 07 04:36:25 2018 +0000 +++ b/main.cpp Mon Mar 15 19:36:20 2021 +0000 @@ -1,15 +1,158 @@ #include "mbed.h" -#include "Grove_temperature.h" +#include "FXOS8700.h" +#include "FXAS21002.h" +#include "kalman.c" + +#define ROLL_SERVO_CENTER 1570 +#define ROLL_SERVO_MAX 2000 +#define ROLL_SERVO_MIN 1000 + +#define PITCH_SERVO_CENTER 1570 +#define PITCH_SERVO_MAX 2000 +#define PITCH_SERVO_MIN 1000 + +#define PI 3.14159265 +#define Rad2Degree 57.2957795 + + +Serial pc(USBTX, USBRX); // Serial Port 115200 + +// Sensor GPIO Definitions, I2C +FXOS8700 accel(D14,D15); +FXOS8700 mag(D14,D15); +FXAS21002 gyro(D14,D15); + +//Timer used in Kalman filter +Timer ProgramTimer; -Grove_temperature temp(A4); -Serial pc(USBTX, USBRX); +// Servo GPIO Definitions +PwmOut Pitch_M(D11); +PwmOut Roll_M(D10); + +//Define Kalman filter Parameters +kalman filter_pitch; +kalman filter_roll; + +float R; +float Roll_P_C = 1.0f, Roll_I_C = 0.01f, Roll_D_C = 0.01f; //Roll PID coefficient Values +float Roll_P = 0, Roll_I = 0, Roll_D =0, Roll_Correct = 0, Roll_Error = 0; //Roll PID Control Values +float Pitch_P_C = 1.0f, Pitch_I_C = 0.01f, Pitch_D_C = 0.01f; //Pitch PID coefficient Values +float Pitch_P = 0, Pitch_I = 0, Pitch_D = 0, Pitch_Correct = 0, Pitch_Error = 0; //Pitch PID control Values +int Roll_Servo_Val, Pitch_Servo_Val; // Servo pulse widths +double angle[3]; // Kalman Pitch and Roll angles +unsigned long timer; // absolute time stamp +int val, Loop_Count; // Loop_Count used to settel kalman filter + +int main() { + + pc.baud(115200); // Serial Port 115200 + + // Configure Accelerometer FXOS8700, Magnetometer FXOS8700 & Gyroscope FXAS21002 + accel.accel_config(); + mag.mag_config(); + gyro.gyro_config(); + + // Initialize Kalman Filter + kalman_init(&filter_pitch, R_matrix, Q_Gyro_matrix, Q_Accel_matrix); + kalman_init(&filter_roll, R_matrix, Q_Gyro_matrix, Q_Accel_matrix); -// main() runs in its own thread in the OS -int main() { - pc.baud(115200); + // Accelerometer, Magnomometer and Gyro Variables + float adata[3]; //Accelerometer x, y, x values + float mag_data[3]; //Magnomometer x, y, x values + float gyro_data[3]; //Gyro pitch, roll, yaw values + + // Roll Servo Setup + int Roll_pulse = ROLL_SERVO_CENTER; + Roll_M.period_us(20000); // servo requires a 20ms period + Roll_M.pulsewidth_us(Roll_pulse); // servo position determined by a pulsewidth between 1-2ms + // Pitch Servo Setup + int Pitch_pulse = PITCH_SERVO_CENTER; + Pitch_M.period_us(20000); // servo requires a 20ms period + Pitch_M.pulsewidth_us(Pitch_pulse); // servo position determined by a pulsewidth between 1-2ms + wait(1); // Allow servos to settel + + //Absolute Time Needed to Calculate Delta Time + ProgramTimer.start(); + timer = ProgramTimer.read_us(); + + Loop_Count = 15; // Allows Kalman filter to sync. + while (true) { - pc.printf("temperature = %2.2f\n", temp.getTemperature()); - wait(1); - } + + //scanf("%d", &val); // Used for debug + //printf("\r\n Value is %d \r\n", val); // Used for debug + + // Acquire Accelerometer values + accel.acquire_accel_data_g(adata); // Acquire Acceleration Vectors + printf("\r\n Accelerometer Values\r\n"); + printf(" X:%6.1f,\t Y:%6.1f,\t Z:%6.1f\r\n\r\n", adata[0],adata[1],adata[2]); + + // Acquire Magnomometer Vectors + mag.acquire_mag_data_uT(mag_data); // Acquire Magnomometer Vectors + printf("\r\n Magnomometer Values\r\n"); + printf(" X:%6.1f,\t Y:%6.1f,\t Z:%6.1f\r\n\r\n", mag_data[0],mag_data[1],mag_data[2]); + + // Acquire Gyro values + gyro.acquire_gyro_data_dps(gyro_data); // Acquire Gyro values + printf("\r\n Gyro Values\r\n"); + printf(" Pitch: %4.2f,\t Roll: %4.2f,\t Yaw: %4.2f\r\n", gyro_data[0],gyro_data[1],gyro_data[2]); + + // RMS Value of Accelerometer + R = sqrt(std::pow(adata[0], 2) + std::pow(adata[1], 2) + std::pow(adata[2], 2)); + + // Kalman Filter + kalman_predict(&filter_pitch, gyro_data[0], (ProgramTimer.read_us() - timer)); // Predict uses Pitch portion of gyro and delta time + kalman_update(&filter_pitch, acos(adata[0]/R)); //Update uses normalized Pitch portion of accelerometer + kalman_predict(&filter_roll, gyro_data[1], (ProgramTimer.read_us() - timer)); // Predict uses Roll portion of gyro and delta time + kalman_update(&filter_roll, acos(adata[1]/R)); //Update uses normalized Roll portion of accelerometer + + angle[0] = kalman_get_angle(&filter_pitch); // Kalman Pitch + angle[1] = kalman_get_angle(&filter_roll); // Kalman Roll + + timer = ProgramTimer.read_us(); // Update Timer + + printf("\r\n Roll Angle X: %.6f Pitch Angle Y: %.6f \r\n", Rad2Degree * angle[1], Rad2Degree * angle[0]); + + if (Loop_Count > 0) + { + // Loop Iterations to Initialize Kalman Filter to sync. + Loop_Count--; + printf("\n\rLoop_Count = %d\n\r", Loop_Count); + } + else + { + // Loop Iterations Complete, Apply Results of Kalman Filter + // PID Controller (Mostly Proportional) + Roll_Error = (Rad2Degree * angle[1]) - 90; // Calculate Roll Error + Roll_D = Roll_Error - Roll_P; // Differentiation of Roll Error + Roll_I = Roll_I + Roll_Error; // Intigration of Roll Error + Roll_P = Roll_Error; // Proportional Roll Error + Roll_Correct = Roll_P * Roll_P_C + Roll_I * Roll_I_C + Roll_D * Roll_D_C; // Sum product of PID coefficients and values + printf("\n\rRoll_Correct = %f\n\r",Roll_Correct); + + Roll_pulse = Roll_pulse + Roll_Correct; // Update Roll Servo PWM Value + if (Roll_pulse <= ROLL_SERVO_MIN) Roll_pulse = ROLL_SERVO_MIN; + if (Roll_pulse >= ROLL_SERVO_MAX) Roll_pulse = ROLL_SERVO_MAX; + Roll_M.pulsewidth_us(Roll_pulse); // servo position determined by a pulsewidth between 1-2ms + printf("\n\rRoll_pulse = %d\n\r",Roll_pulse); + + Pitch_Error = (Rad2Degree * angle[0]) - 90; // Calculate Pitch Error + Pitch_D = Pitch_Error - Pitch_P; // Differentiation of Pitch Error + Pitch_I = Pitch_I + Pitch_Error; // Intigration of Pitch Error + Pitch_P = Pitch_Error; // Proportional Pitch Error + Pitch_Correct = Pitch_P * Pitch_P_C + Pitch_I * Pitch_I_C + Pitch_D * Pitch_D_C; // Sum product of PID coefficients and values + printf("\n\rPitch_Correct = %f\n\r",Pitch_Correct); + + Pitch_pulse = Pitch_pulse + Pitch_Correct; // Update Roll Servo PWM Value + if (Pitch_pulse <= PITCH_SERVO_MIN) Pitch_pulse = PITCH_SERVO_MIN; + if (Pitch_pulse >= PITCH_SERVO_MAX) Pitch_pulse = PITCH_SERVO_MAX; + Pitch_M.pulsewidth_us(Pitch_pulse); // servo position determined by a pulsewidth between 1-2ms + printf("\n\rPitch_pulse = %d\n\r",Pitch_pulse); + } + + wait(0.01); // Loop timer + } + } +