even versimpelen
Dependencies: HIDScope MODSERIAL PID QEI biquadFilter mbed
Fork of cpfromralph1 by
Diff: main.cpp
- Revision:
- 40:c40bd1a84e7c
- Parent:
- 39:c15f84af49fd
- Child:
- 41:08d41bb622bb
diff -r c15f84af49fd -r c40bd1a84e7c main.cpp --- a/main.cpp Fri Nov 03 02:32:43 2017 +0000 +++ b/main.cpp Fri Nov 03 03:00:30 2017 +0000 @@ -521,6 +521,7 @@ double beta = inversekinematics2(x,y); setpoint1 = alpha; setpoint2 = beta; + wait(0.1f); } // This part checks for left biceps contractions only @@ -535,7 +536,7 @@ double beta = inversekinematics2(x,y); setpoint1 = alpha; setpoint2 = beta; - + wait(0.1f); } // This part checks for left lower arm contractions only else if (maxpart1>MOVAVG_RB && maxpart2>MOVAVG_LB && maxpart3<MOVAVG_LL && maxpart4>MOVAVG_RL){ @@ -549,7 +550,7 @@ double beta = inversekinematics2(x,y); setpoint1 = alpha; setpoint2 = beta; - + wait(0.1f); } // This part checks for right lower arm contractions only else if (maxpart1>MOVAVG_RB && maxpart2>MOVAVG_LB && maxpart3>MOVAVG_LL && maxpart4<MOVAVG_RL){ @@ -563,7 +564,7 @@ double beta = inversekinematics2(x,y); setpoint1 = alpha; setpoint2 = beta; - + wait(0.1f); } /* // This part checks for both lower arm contractions only else if (maxpart1>MOVAVG_RB && maxpart2>MOVAVG_LB && maxpart3<MOVAVG_LL && maxpart4<MOVAVG_RL){ @@ -665,27 +666,27 @@ // check to see if motor1 needs to be activated void SetMotor1() { //PIDcalculation1(); - filter(); - while (angle1<setpoint1 || angle1>setpoint1 || angle2<setpoint1 || angle2>setpoint2) { - count1 = Encoder1.getPulses(); - count2 = Encoder2.getPulses(); - angle1 += (0.0981 * count1); - angle2 += (0.0981 * count2); + //filter(); + while (angle1<setpoint1 || angle1>setpoint1 || angle2<setpoint2 || angle2>setpoint2) { if (angle1<setpoint1 && angle2<setpoint2) { - motor1direction = 0; // counterclockwise rotation - motor2direction = 0; + motor1direction = 1; // counterclockwise rotation + motor2direction = 1; + } else if (angle1>setpoint1 && angle2<setpoint2) { - motor1direction = 1; // clockwise rotation - motor2direction = 0; + motor1direction = 0; // clockwise rotation + motor2direction = 1; + } else if (angle1<setpoint1 && angle2>setpoint2) { - motor1direction = 0; - motor2direction = 1; + motor1direction = 1; + motor2direction = 0; + } else if (angle1>setpoint1 && angle2>setpoint2) { - motor1direction = 1; - motor2direction = 1; + motor1direction = 0; + motor2direction = 0; + } if ((angle1<setpoint1 || angle1>setpoint1) && (angle2<setpoint2 || angle2>setpoint2)) { motor1pwm = 0.2; @@ -703,6 +704,10 @@ motor1pwm = 0; motor2pwm = 0; } + double count1; + double count2; + angle1 += (0.0981 * count1); + angle2 += (0.0981 * count2); } } /* @@ -739,8 +744,10 @@ main_timer.attach(&filter, 0.001); // set frequency for the filters at 1000Hz max_read1.attach(&get_max1, 2); // set the frequency of the calibration loop at 0.5Hz max_read3.attach(&get_max3, 2); - Motorcontrol.attach(&MeasureAndControl,0.5); + Motorcontrol.attach(&MeasureAndControl,0.1); //PIDtimer.attach(&PIDcalculation1, 0.005); //PIDtimer.attach(&PIDcalculation2, 0.005); + count1 = Encoder1.getPulses(); + count2 = Encoder2.getPulses(); while(1) {} } \ No newline at end of file