met demo en click
Dependencies: biquadFilter MODSERIAL QEI Servo mbed
Fork of StateMachine_EMg_RKI_PID_MOTORwerkend by
Diff: main.cpp
- Revision:
- 15:6ad7abc5c691
- Parent:
- 14:fb5d8064830d
--- a/main.cpp Thu Nov 01 19:34:05 2018 +0000 +++ b/main.cpp Thu Nov 01 21:23:12 2018 +0000 @@ -20,14 +20,18 @@ #include "QEI.h" //#include "HIDScope.h" +//Clicker servo library +#include "Servo.h" +Servo myservo(A5); + // GENERAL PIN DEFENITIONS MODSERIAL pc(USBTX, USBRX); -// EMG -- PIN DEFENITIONS +// EMG -- PIN DEFENITIONS DigitalOut gpo(D0); -DigitalIn button2(SW3); +DigitalIn button2(SW3); DigitalIn button1(SW2); //or SW2 DigitalOut led1(LED_GREEN); @@ -47,7 +51,7 @@ AnalogIn emg4(A3); //left triceps -// PID CONTROLLER -- PIN DEFENITIONS +// PID CONTROLLER -- PIN DEFENITIONS //AnalogIn button3(A4); //AnalogIn button4(A5); @@ -186,7 +190,7 @@ emg2_filtered = lowp2.step(emg2_abs); emg3_filtered = lowp3.step(emg3_abs); emg4_filtered = lowp4.step(emg4_abs); - + } @@ -297,6 +301,68 @@ } +//-----------------------------DEMO PART--------------------------------------- + +// DEMO COORDINATES +float px1 = 0.2; +float py1 = 0.15; +float px2 = 0.15; +float py2 =0.15; +float px3 = 0.25; +float py3 = 0.15; +float px5 = 0.2; +float py5 = 0.2; +float px6 = 0.2; +float py6 = 0.1; + +void demomodus() +{ + if(t==2) { + px = px1; + py = py1; + } else if(t==4) { + px = px2; + py = py2; + } else if(t==6) { + px = px3; + py = py3; + } else if(t==8) { + px = px1; + py = py1; + } else if(t==10) { + px = px5; + py = py5; + } else if(t==12) { + px = px6; + py = py6; + } else if(t==14) { + px = px1; + py = py1; + } else if(t==16) { + px = px3; + py = py3; + } else if(t==18) { + px = px5; + py = py5; + } else if(t==20) { + px = px2; + py = py2; + } else if(t==22) { + px = px6; + py = py6; + } else if(t==24) { + px = px1; + py = py1; + } + +} + + + +//----------------------------------------------------------------------------- + + + // ~~~~~~~~~~~~~~ROBOT KINEMATICS ~~~~~~~~~~~~~~~~~~ @@ -347,7 +413,7 @@ //~~~~~~~~~~~~CALCULATIING MOTOR ANGLES ~~~~~~~~ // arm 1 --> reference angle motor 1 -float hoek1(float px, float py) // input: ref x, ref y +float hoek1(float px, float py) // input: ref x, ref y { float c1x = px - rp * cos(thetap +(M_PI/6)); // x locatie hoekpunt end-effector float c1y = py - rp*sin(thetap+(M_PI/6)); // y locatie hoekpunt end-effector @@ -447,8 +513,8 @@ void Motor_mover() { float px = positionx(bicepsR,bicepsL); // EMG: +x, -x - float py = positiony(tricepsR,tricepsL); // EMG: +y, -y - + float py = positiony(tricepsR,tricepsL); // EMG: +y, -y + double motor_position = encoder1.getPulses(); //output in counts double reference_rotation = hoek1(px, py); double error = reference_rotation - motor_position*(2*PI)/8400; @@ -526,7 +592,7 @@ timer_calibration.reset(); timer_calibration.start(); - sample_ticker.attach(&emgsample, ts); + sample_ticker.attach(&emgsample, ts); CalibrationEMG(); sample_ticker.detach(); timer_calibration.stop(); @@ -581,7 +647,12 @@ led2 = 1; led3 = 0; wait (1); - + t.reset(); + t.start(); + demomodus(); + if(t>=26) { + t.stop(); + } stateChanged = false; } @@ -637,7 +708,7 @@ stateChanged = true; } // here ends the idle checking mode - else{ + else { //For every muscle a different colour if threshold is passed if(bicepsR==1) { led1 = 0; @@ -688,7 +759,10 @@ led1 = 1; led2 = 1; led3 = 0; - wait (1); + for(float p=1; p>0; p -= 0.1) { + myservo = p; + wait(0.1); + } stateChanged = false; } @@ -707,7 +781,7 @@ int main() { - + //BiQuad Chain add highp1.add( &highp1_1 ).add( &highp1_2 ); notch1.add( ¬ch1_1 ).add( ¬ch1_2 ); @@ -729,7 +803,7 @@ led1 = 1; led2 = 1; led3 = 1; - + pwmpin1.period_us(60); // setup motor ref_rot.attach(Motor_mover, 0.01f);// HAS TO GO TO STATE MACHINE //movement_ticker_activator(); @@ -737,40 +811,40 @@ while (true) { ProcessStateMachine(); -/* - if (button2 == false) { - wait(0.01f); + /* + if (button2 == false) { + wait(0.01f); - // berekenen positie - float px = positionx(1,0); // EMG: +x, -x - float py = positiony(0,0); // EMG: +y, -y - //printf("positie (%f,%f)\n\r",px,py); - } + // berekenen positie + float px = positionx(1,0); // EMG: +x, -x + float py = positiony(0,0); // EMG: +y, -y + //printf("positie (%f,%f)\n\r",px,py); + } - if (button1 == false) { - wait(0.01f); - // berekenen positie - float px = positionx(0,1); // EMG: +x, -x - float py = positiony(0,0); // EMG: +y, -y - //printf("positie (%f,%f)\n\r",px,py); - } -/* - if (button3 == false) { - wait(0.01f); - // berekenen positie - float px = positionx(0,0); // EMG: +x, -x - float py = positiony(1,0); // EMG: +y, -y - //printf("positie (%f,%f)\n\r",px,py); - } + if (button1 == false) { + wait(0.01f); + // berekenen positie + float px = positionx(0,1); // EMG: +x, -x + float py = positiony(0,0); // EMG: +y, -y + //printf("positie (%f,%f)\n\r",px,py); + } + /* + if (button3 == false) { + wait(0.01f); + // berekenen positie + float px = positionx(0,0); // EMG: +x, -x + float py = positiony(1,0); // EMG: +y, -y + //printf("positie (%f,%f)\n\r",px,py); + } - if (button4 == false) { - wait(0.01f); - // berekenen positie - float px = positionx(0,0); // EMG: +x, -x - float py = positiony(0,1); // EMG: +y, -y - //printf("positie (%f,%f)\n\r",px,py); - } -*/ + if (button4 == false) { + wait(0.01f); + // berekenen positie + float px = positionx(0,0); // EMG: +x, -x + float py = positiony(0,1); // EMG: +y, -y + //printf("positie (%f,%f)\n\r",px,py); + } + */ } }