self-balancing-robot
Dependencies: mbed mbed-rtos Motor
main.cpp
- Committer:
- pandirimukund
- Date:
- 2020-04-24
- Revision:
- 36:e1bbf24a1b66
- Parent:
- 35:02166ac9de6f
- Child:
- 37:702943705f50
File content as of revision 36:e1bbf24a1b66:
#include "mbed.h" #include "rtos.h" #include "LSM9DS1.h" #include "Motor.h" /////////////////////////////////////////////////////////////////////////////// ///////////////////////////// Variable Initialization////////////////////////// /////////////////////////////////////////////////////////////////////////////// Ticker bluetooth; Serial pc(USBTX, USBRX); Mutex parametersmutex; Mutex angleMutex; Mutex imuMutex; Serial blue(p28, p27); LSM9DS1 imu(p9, p10, 0xD6, 0x3C); /////////////////////////////////////////////////////////////////////////////// ///////////////////////////// Control System Variables///////////////////////// /////////////////////////////////////////////////////////////////////////////// float rp = 30; float rd = 30; float ri = 30; float desired_angle = 0; float speed = 0; float pAngle = 0; float dAngle = 0; float iAngle = 0; int time_segment = 5; //Update the speed every 5 milliseconds void get_current_angle(); float angleBias = 0; Motor leftWheel(p21, p24, p23); // pwm, fwd, rev leftWheel(p21); Motor rightWheel(p22, p25, p26); // pwm, fwd, rev rightWheel(p22); void calibrate_imu(); /////////////////////////////////////////////////////////////////////////////// ///////////////////////////// Bluetooth Section /////////////////////////////// /////////////////////////////////////////////////////////////////////////////// void bluetooth_update() { char bnum = 0; char bhit = 0; while (1) { if (blue.getc() == '!') { if (blue.getc() == 'B') { //button data packet bnum = blue.getc(); //button number //pc.printf("%d",bnum); bhit = blue.getc(); //1=hit, 0=release parametersmutex.lock(); if (blue.getc() == char(~('!' + 'B' + bnum + bhit))) { //checksum OK? switch (bnum) { case '1': //number button 1 if (bhit == '1') { rd += 10; } else { //add release code here } break; case '2': //number button 2 if (bhit == '1') { ri += 10; } else { //add release code here } break; case '3': //number button 3 if (bhit == '1') { rd -= 10; } else { //add release code here } break; case '4': //number button 4 if (bhit == '1') { ri -= 10; } else { //add release code here } break; case '5': //button 5 up arrow if (bhit == '1') { rp += 10; } else { //add release code here } break; case '6': //button 6 down arrow if (bhit == '1') { rp -= 10; } else { //add release code here } break; case '7': //button 7 left arrow if (bhit == '1') { desired_angle -= 1; } else { //add release code here } break; case '8': //button 8 right arrow if (bhit == '1') { desired_angle += 1; } else { //add release code here } break; default: break; } } angleMutex.lock(); pAngle = 0; dAngle = 0; iAngle = 0; imuMutex.lock(); calibrate_imu(); imuMutex.unlock(); angleMutex.unlock(); parametersmutex.unlock(); } } Thread::wait(100); } } /////////////////////////////////////////////////////////////////////////////// ///////////////////////////// update motor speeds/////////////////////////// /////////////////////////////////////////////////////////////////////////////// void set_wheel_speed(float speed) { if(speed > 1) speed = 1; if (speed < -1) speed = -1; leftWheel.speed(speed*(-1)); rightWheel.speed(speed*(-1)); } /////////////////////////////////////////////////////////////////////////////// ///////////////////////////// Control System Updates/////////////////////////// /////////////////////////////////////////////////////////////////////////////// //make the calls to IMU here and this should be another thread void update_system() { while(1){ get_current_angle(); angleMutex.lock(); speed = -1*(rp*pAngle + ri*iAngle + rd*dAngle)/(70 * 150 * 3); set_wheel_speed(speed); angleMutex.unlock(); //pc.printf("this is running 100"); Thread::wait(10); } } /////////////////////////////////////////////////////////////////////////////// ///////////////////////////// IMU STUFF//////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// void calibrate_imu() { for(int i = 0; i < 500; i++){ imu.readGyro(); angleBias += imu.gy; } angleBias /= 500; } void get_current_angle() { // return; imuMutex.lock(); imu.readGyro(); int gyro = -(imu.gy-angleBias) * .01; imuMutex.unlock(); //pc.printf("gyro:%f",gyro); angleMutex.lock(); dAngle = pAngle; pAngle += 1*gyro; //+ 0.02*acc; pAngle -= desired_angle*70; dAngle = pAngle - dAngle; iAngle += pAngle * 0.01; angleMutex.unlock(); } /////////////////////////////////////////////////////////////////////////////// ///////////////////////////// Running Main Function//////////////////////////// /////////////////////////////////////////////////////////////////////////////// int main() { pc.printf("this is running"); Thread bluetooth; Thread system_update; imu.begin(); calibrate_imu(); bluetooth.start(bluetooth_update); system_update.start(update_system); //bluetooth.attach(&bluetooth_update, 0.1); while (1) { //bluetooth_update(); //parametersmutex.lock(); // pc.printf("rp: %f, rd: %f, ri: %f, desired_angle: %f\n", rp, rd, ri, desired_angle); // parametersmutex.unlock(); angleMutex.lock(); pc.printf("pAngle: %f", pAngle/70); pc.printf(" speed: %f", speed); parametersmutex.lock(); pc.printf("rp: %f, rd: %f, ri: %f, desired_angle: %f\n\r", rp, rd, ri, desired_angle); parametersmutex.unlock(); angleMutex.unlock(); //get_current_angle(); Thread::wait(100); } }