Code_MotorEMG_ - EMG and motor script together, Not fully working …

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Joost Herijgers / Mbed 2 deprecated Code_MotorEMG_

EMG and motor script together, Not fully working yet,.

Dependencies: Encoder MODSERIAL QEI biquadFilter mbed

Fork of Code_MotorEMG by Joost Herijgers

main.cpp@23:91a67476fc2b, 2017-11-01 (annotated)

Committer:: Joost38H
Date:: Wed Nov 01 17:24:50 2017 +0000
Revision:: 23:91a67476fc2b
Parent:: 22:cdaa5c1208a4
Child:: 24:50235511956c

GEBRUIK DEZE CODE: nu met betere schaling van counts en Kp

Who changed what in which revision?

User	Revision	Line number	New contents of line
Joost38H	0:eb16ed402ffa	1	#include "mbed.h"
Joost38H	0:eb16ed402ffa	2	#include "math.h"
Joost38H	10:952377fbbbfe	3	//#include "encoder.h"
Joost38H	0:eb16ed402ffa	4	#include "QEI.h"
Joost38H	0:eb16ed402ffa	5	#include "BiQuad.h"
Joost38H	18:00379f0ecc7f	6	#include "MODSERIAL.h"
Joost38H	22:cdaa5c1208a4	7
Joost38H	18:00379f0ecc7f	8	MODSERIAL pc(USBTX, USBRX);
Joost38H	22:cdaa5c1208a4	9
Joost38H	0:eb16ed402ffa	10	//Defining all in- and outputs
Joost38H	0:eb16ed402ffa	11	//EMG input
Joost38H	0:eb16ed402ffa	12	AnalogIn emgBR( A0 ); //Right Biceps
Joost38H	0:eb16ed402ffa	13	AnalogIn emgBL( A1 ); //Left Biceps
Joost38H	22:cdaa5c1208a4	14
Joost38H	0:eb16ed402ffa	15	//Output motor 1 and reading Encoder motor 1
Joost38H	0:eb16ed402ffa	16	DigitalOut motor1DirectionPin(D4);
Joost38H	0:eb16ed402ffa	17	PwmOut motor1MagnitudePin(D5);
Joost38H	0:eb16ed402ffa	18	QEI Encoder1(D12,D13,NC,32);
Joost38H	22:cdaa5c1208a4	19
Joost38H	0:eb16ed402ffa	20	//Output motor 2 and reading Encoder motor 2
Joost38H	0:eb16ed402ffa	21	DigitalOut motor2DirectionPin(D7);
Joost38H	0:eb16ed402ffa	22	PwmOut motor2MagnitudePin(D6);
Joost38H	0:eb16ed402ffa	23	QEI Encoder2(D10,D11,NC,32);
Joost38H	0:eb16ed402ffa	24
Joost38H	5:81d3b53087c0	25	//Output motor 3 and reading Encoder motor 3
Joost38H	5:81d3b53087c0	26	DigitalOut motor3DirectionPin(D8);
Joost38H	5:81d3b53087c0	27	PwmOut motor3MagnitudePin(D9);
Joost38H	5:81d3b53087c0	28	QEI Encoder3(D2,D3,NC,32);
Joost38H	22:cdaa5c1208a4	29
Joost38H	0:eb16ed402ffa	30	//LED output, needed for feedback
Joost38H	0:eb16ed402ffa	31	DigitalOut led_R(LED_RED);
Joost38H	0:eb16ed402ffa	32	DigitalOut led_G(LED_GREEN);
Joost38H	0:eb16ed402ffa	33	DigitalOut led_B(LED_BLUE);
Joost38H	22:cdaa5c1208a4	34
Joost38H	1:6aac013b0ba3	35	//Setting Tickers for sampling EMG and determing if the threshold is met
Joost38H	5:81d3b53087c0	36	Ticker sample_timer;
Joost38H	5:81d3b53087c0	37	Ticker threshold_timerR;
Joost38H	5:81d3b53087c0	38	Ticker threshold_timerL;
Joost38H	22:cdaa5c1208a4	39
Joost38H	5:81d3b53087c0	40	Timer t_thresholdR;
Joost38H	5:81d3b53087c0	41	Timer t_thresholdL;
Joost38H	22:cdaa5c1208a4	42
Joost38H	10:952377fbbbfe	43	float currentTimeTR;
Joost38H	10:952377fbbbfe	44	float currentTimeTL;
Joost38H	22:cdaa5c1208a4	45
Joost38H	0:eb16ed402ffa	46	InterruptIn button(SW2); // Wordt uiteindelijk vervangen door EMG
Joost38H	22:cdaa5c1208a4	47
Joost38H	0:eb16ed402ffa	48	Timer t;
Joost38H	10:952377fbbbfe	49	float speedfactor; // = 0.01; snelheid in, zonder potmeter gebruik <- waarom is dit zo?
Joost38H	22:cdaa5c1208a4	50
Joost38H	0:eb16ed402ffa	51	// Defining variables delta (the difference between position and desired position) <- Is dit zo?
Joost38H	0:eb16ed402ffa	52	int delta1;
Joost38H	22:cdaa5c1208a4	53	int delta2;
Joost38H	5:81d3b53087c0	54	int delta3;
Joost38H	0:eb16ed402ffa	55
Joost38H	22:cdaa5c1208a4	56	// Boolean needed to know if new input coordinates have to be given
Joost38H	5:81d3b53087c0	57	bool Move_done = false;
Joost38H	14:291f9a29bd74	58	bool Input_done = true;
Joost38H	22:cdaa5c1208a4	59
Joost38H	1:6aac013b0ba3	60	/* Defining all the different BiQuad filters, which contain a Notch filter,
Joost38H	1:6aac013b0ba3	61	High-pass filter and Low-pass filter. The Notch filter cancels all frequencies
Joost38H	1:6aac013b0ba3	62	between 49 and 51 Hz, the High-pass filter cancels all frequencies below 20 Hz
Joost38H	5:81d3b53087c0	63	and the Low-pass filter cancels out all frequencies below 4 Hz. The filters are
Joost38H	5:81d3b53087c0	64	declared four times, so that they can be used for sampling of right and left
Joost38H	5:81d3b53087c0	65	biceps, during measurements and calibration. */
Joost38H	22:cdaa5c1208a4	66
Joost38H	1:6aac013b0ba3	67	/* Defining all the normalized values of b and a in the Notch filter for the
Joost38H	1:6aac013b0ba3	68	creation of the Notch BiQuad */
Joost38H	22:cdaa5c1208a4	69
Joost38H	5:81d3b53087c0	70	BiQuad bqNotch1( 0.9876, -1.5981, 0.9876, -1.5981, 0.9752 );
Joost38H	5:81d3b53087c0	71	BiQuad bqNotch2( 0.9876, -1.5981, 0.9876, -1.5981, 0.9752 );
Joost38H	22:cdaa5c1208a4	72
Joost38H	5:81d3b53087c0	73	BiQuad bqNotchTR( 0.9876, -1.5981, 0.9876, -1.5981, 0.9752 );
Joost38H	5:81d3b53087c0	74	BiQuad bqNotchTL( 0.9876, -1.5981, 0.9876, -1.5981, 0.9752 );
Joost38H	22:cdaa5c1208a4	75
Joost38H	1:6aac013b0ba3	76	/* Defining all the normalized values of b and a in the High-pass filter for the
Joost38H	1:6aac013b0ba3	77	creation of the High-pass BiQuad */
Joost38H	22:cdaa5c1208a4	78
Joost38H	5:81d3b53087c0	79	BiQuad bqHigh1( 0.8371, -1.6742, 0.8371, -1.6475, 0.7009 );
Joost38H	5:81d3b53087c0	80	BiQuad bqHigh2( 0.8371, -1.6742, 0.8371, -1.6475, 0.7009 );
Joost38H	22:cdaa5c1208a4	81
Joost38H	5:81d3b53087c0	82	BiQuad bqHighTR( 0.8371, -1.6742, 0.8371, -1.6475, 0.7009 );
Joost38H	5:81d3b53087c0	83	BiQuad bqHighTL( 0.8371, -1.6742, 0.8371, -1.6475, 0.7009 );
Joost38H	22:cdaa5c1208a4	84
Joost38H	1:6aac013b0ba3	85	/* Defining all the normalized values of b and a in the Low-pass filter for the
Joost38H	1:6aac013b0ba3	86	creation of the Low-pass BiQuad */
Joost38H	22:cdaa5c1208a4	87
Joost38H	5:81d3b53087c0	88	BiQuad bqLow1( 6.0985e-4, 0.0012, 6.0985e-4, -1.9289, 0.9314 );
Joost38H	5:81d3b53087c0	89	BiQuad bqLow2( 6.0985e-4, 0.0012, 6.0985e-4, -1.9289, 0.9314 );
Joost38H	22:cdaa5c1208a4	90
Joost38H	5:81d3b53087c0	91	BiQuad bqLowTR( 6.0985e-4, 0.0012, 6.0985e-4, -1.9289, 0.9314 );
Joost38H	5:81d3b53087c0	92	BiQuad bqLowTL( 6.0985e-4, 0.0012, 6.0985e-4, -1.9289, 0.9314 );
Joost38H	22:cdaa5c1208a4	93
Joost38H	1:6aac013b0ba3	94	// Creating a variable needed for the creation of the BiQuadChain
Joost38H	5:81d3b53087c0	95	BiQuadChain bqChain1;
Joost38H	5:81d3b53087c0	96	BiQuadChain bqChain2;
Joost38H	22:cdaa5c1208a4	97
Joost38H	5:81d3b53087c0	98	BiQuadChain bqChainTR;
Joost38H	5:81d3b53087c0	99	BiQuadChain bqChainTL;
Joost38H	22:cdaa5c1208a4	100
Joost38H	10:952377fbbbfe	101	//Declaring all floats needed in the filtering process
Joost38H	10:952377fbbbfe	102	float emgBRfiltered; //Right biceps Notch+High pass filter
Joost38H	10:952377fbbbfe	103	float emgBRrectified; //Right biceps rectified
Joost38H	10:952377fbbbfe	104	float emgBRcomplete; //Right biceps low-pass filter, filtering complete
Joost38H	22:cdaa5c1208a4	105
Joost38H	10:952377fbbbfe	106	float emgBLfiltered; //Left biceps Notch+High pass filter
Joost38H	10:952377fbbbfe	107	float emgBLrectified; //Left biceps rectified
Joost38H	10:952377fbbbfe	108	float emgBLcomplete; //Left biceps low-pass filter, filtering complete
Joost38H	1:6aac013b0ba3	109
Joost38H	22:cdaa5c1208a4	110	// Declaring all variables needed for getting the Threshold value
Joost38H	10:952377fbbbfe	111	float numsamples = 500;
Joost38H	10:952377fbbbfe	112	float emgBRsum = 0;
Joost38H	10:952377fbbbfe	113	float emgBRmeanMVC;
Joost38H	10:952377fbbbfe	114	float thresholdBR;
Joost38H	22:cdaa5c1208a4	115
Joost38H	10:952377fbbbfe	116	float emgBLsum = 0;
Joost38H	10:952377fbbbfe	117	float emgBLmeanMVC;
Joost38H	10:952377fbbbfe	118	float thresholdBL;
Joost38H	22:cdaa5c1208a4	119
Joost38H	22:cdaa5c1208a4	120	/* Function to sample the EMG of the Right Biceps and get a Threshold value
Joost38H	5:81d3b53087c0	121	from it, which can be used throughout the process */
Joost38H	22:cdaa5c1208a4	122
Joost38H	22:cdaa5c1208a4	123	void Threshold_samplingBR() {
Joost38H	4:fddab1c875a9	124	t_thresholdR.start();
Joost38H	4:fddab1c875a9	125	currentTimeTR = t_thresholdR.read();
Joost38H	22:cdaa5c1208a4	126
Joost38H	4:fddab1c875a9	127	if (currentTimeTR <= 1) {
Joost38H	22:cdaa5c1208a4	128
Joost38H	4:fddab1c875a9	129	emgBRfiltered = bqChainTR.step( emgBR.read() ); //Notch+High-pass
Joost38H	4:fddab1c875a9	130	emgBRrectified = fabs(emgBRfiltered); //Rectification
Joost38H	4:fddab1c875a9	131	emgBRcomplete = bqLowTR.step(emgBRrectified); //Low-pass
Joost38H	22:cdaa5c1208a4	132
Joost38H	4:fddab1c875a9	133	emgBRsum = emgBRsum + emgBRcomplete;
Joost38H	22:cdaa5c1208a4	134	}
Joost38H	22:cdaa5c1208a4	135	emgBRmeanMVC = emgBRsum/numsamples;
Joost38H	4:fddab1c875a9	136	thresholdBR = emgBRmeanMVC * 0.20;
Joost38H	22:cdaa5c1208a4	137
Joost38H	4:fddab1c875a9	138	//pc.printf("ThresholdBR = %f \n", thresholdBR);
Joost38H	4:fddab1c875a9	139	}
Joost38H	22:cdaa5c1208a4	140	/* Function to sample the EMG of the Left Biceps and get a Threshold value
Joost38H	5:81d3b53087c0	141	from it, which can be used throughout the process */
Joost38H	5:81d3b53087c0	142
Joost38H	22:cdaa5c1208a4	143	void Threshold_samplingBL() {
Joost38H	22:cdaa5c1208a4	144	t_thresholdL.start();
Joost38H	4:fddab1c875a9	145	currentTimeTL = t_thresholdL.read();
Joost38H	22:cdaa5c1208a4	146
Joost38H	4:fddab1c875a9	147	if (currentTimeTL <= 1) {
Joost38H	22:cdaa5c1208a4	148
Joost38H	4:fddab1c875a9	149	emgBLfiltered = bqChain2.step( emgBL.read() ); //Notch+High-pass
Joost38H	4:fddab1c875a9	150	emgBLrectified = fabs( emgBLfiltered ); //Rectification
Joost38H	4:fddab1c875a9	151	emgBLcomplete = bqLow2.step( emgBLrectified ); //Low-pass
Joost38H	22:cdaa5c1208a4	152
Joost38H	4:fddab1c875a9	153	emgBLsum = emgBLsum + emgBLcomplete;
Joost38H	22:cdaa5c1208a4	154	}
Joost38H	22:cdaa5c1208a4	155
Joost38H	4:fddab1c875a9	156	emgBLmeanMVC = emgBLsum/numsamples;
Joost38H	4:fddab1c875a9	157	thresholdBL = emgBLmeanMVC * 0.20;
Joost38H	22:cdaa5c1208a4	158
Joost38H	4:fddab1c875a9	159	}
Joost38H	22:cdaa5c1208a4	160
Joost38H	5:81d3b53087c0	161	// EMG sampling and filtering
Joost38H	4:fddab1c875a9	162
Joost38H	1:6aac013b0ba3	163	void EMG_sample()
Joost38H	1:6aac013b0ba3	164	{
Joost38H	1:6aac013b0ba3	165	//Filtering steps for the Right Biceps EMG
Joost38H	1:6aac013b0ba3	166	emgBRfiltered = bqChain1.step( emgBR.read() ); //Notch+High-pass
Joost38H	1:6aac013b0ba3	167	emgBRrectified = fabs(emgBRfiltered); //Rectification
Joost38H	1:6aac013b0ba3	168	emgBRcomplete = bqLow1.step(emgBRrectified); //Low-pass
Joost38H	22:cdaa5c1208a4	169
Joost38H	1:6aac013b0ba3	170	//Filtering steps for the Left Biceps EMG
Joost38H	1:6aac013b0ba3	171	emgBLfiltered = bqChain2.step( emgBL.read() ); //Notch+High-pass
Joost38H	1:6aac013b0ba3	172	emgBLrectified = fabs( emgBLfiltered ); //Rectification
Joost38H	1:6aac013b0ba3	173	emgBLcomplete = bqLow2.step( emgBLrectified ); //Low-pass
Joost38H	22:cdaa5c1208a4	174
Joost38H	1:6aac013b0ba3	175	}
Joost38H	22:cdaa5c1208a4	176	// Function to make the BiQuadChain for the Notch and High pass filter for all three filters
Joost38H	1:6aac013b0ba3	177	void getbqChain()
Joost38H	1:6aac013b0ba3	178	{
Joost38H	5:81d3b53087c0	179	bqChain1.add(&bqNotch1).add(&bqHigh1); //Making the BiQuadChain
Joost38H	1:6aac013b0ba3	180	bqChain2.add(&bqNotch2).add(&bqHigh2);
Joost38H	22:cdaa5c1208a4	181
Joost38H	5:81d3b53087c0	182	bqChainTR.add(&bqNotchTR).add(&bqHighTR);
Joost38H	5:81d3b53087c0	183	bqChainTL.add(&bqNotchTR).add(&bqHighTL);
Joost38H	1:6aac013b0ba3	184	}
Joost38H	22:cdaa5c1208a4	185
Joost38H	22:cdaa5c1208a4	186	// Initial input value for couting the X-values
Joost38H	22:cdaa5c1208a4	187	int Xin=0;
Joost38H	22:cdaa5c1208a4	188	int Xin_new;
Joost38H	10:952377fbbbfe	189	float huidigetijdX;
Joost38H	22:cdaa5c1208a4	190
Joost38H	5:81d3b53087c0	191	// Feedback system for counting values of X
Joost38H	22:cdaa5c1208a4	192	void ledtX(){
Joost38H	5:81d3b53087c0	193	t.reset();
Joost38H	5:81d3b53087c0	194	Xin++;
Joost38H	5:81d3b53087c0	195	pc.printf("Xin is %i\n",Xin);
Joost38H	5:81d3b53087c0	196	led_G=0;
Joost38H	5:81d3b53087c0	197	led_R=1;
Joost38H	5:81d3b53087c0	198	wait(0.2);
Joost38H	5:81d3b53087c0	199	led_G=1;
Joost38H	5:81d3b53087c0	200	led_R=0;
Joost38H	5:81d3b53087c0	201	wait(0.5);
Joost38H	22:cdaa5c1208a4	202	}
Joost38H	22:cdaa5c1208a4	203
Joost38H	5:81d3b53087c0	204	// Couting system for values of X
Joost38H	22:cdaa5c1208a4	205	int tellerX(){
Joost38H	5:81d3b53087c0	206	if (Move_done == true) {
Joost38H	5:81d3b53087c0	207	t.reset();
Joost38H	22:cdaa5c1208a4	208	led_G=1;
Joost38H	5:81d3b53087c0	209	led_B=1;
Joost38H	5:81d3b53087c0	210	led_R=0;
Joost38H	22:cdaa5c1208a4	211	while(true){
Joost38H	22:cdaa5c1208a4	212	button.fall(ledtX);
Joost38H	22:cdaa5c1208a4	213	/*if (emgBRcomplete > thresholdBR) {
Joost38H	22:cdaa5c1208a4	214	ledtX();
Joost38H	22:cdaa5c1208a4	215	} */
Joost38H	22:cdaa5c1208a4	216	t.start();
Joost38H	22:cdaa5c1208a4	217	huidigetijdX=t.read();
Joost38H	22:cdaa5c1208a4	218	if (huidigetijdX>2){
Joost38H	22:cdaa5c1208a4	219	led_R=1; //Go to the next program (counting values for Y)
Joost38H	22:cdaa5c1208a4	220	Xin_new = Xin;
Joost38H	22:cdaa5c1208a4	221	Xin = 0;
Joost38H	22:cdaa5c1208a4	222
Joost38H	22:cdaa5c1208a4	223	return Xin_new;
Joost38H	5:81d3b53087c0	224	}
Joost38H	22:cdaa5c1208a4	225
Joost38H	22:cdaa5c1208a4	226	}
Joost38H	22:cdaa5c1208a4	227
Joost38H	22:cdaa5c1208a4	228	}
Joost38H	22:cdaa5c1208a4	229	return 0;
Joost38H	22:cdaa5c1208a4	230	}
Joost38H	22:cdaa5c1208a4	231
Joost38H	22:cdaa5c1208a4	232	// Initial values needed for Y (see comments at X function)
Joost38H	5:81d3b53087c0	233	int Yin=0;
Joost38H	5:81d3b53087c0	234	int Yin_new;
Joost38H	10:952377fbbbfe	235	float huidigetijdY;
Joost38H	22:cdaa5c1208a4	236
Joost38H	5:81d3b53087c0	237	//Feedback system for couting values of Y
Joost38H	22:cdaa5c1208a4	238	void ledtY(){
Joost38H	5:81d3b53087c0	239	t.reset();
Joost38H	5:81d3b53087c0	240	Yin++;
Joost38H	5:81d3b53087c0	241	pc.printf("Yin is %i\n",Yin);
Joost38H	5:81d3b53087c0	242	led_G=0;
Joost38H	5:81d3b53087c0	243	led_B=1;
Joost38H	5:81d3b53087c0	244	wait(0.2);
Joost38H	5:81d3b53087c0	245	led_G=1;
Joost38H	5:81d3b53087c0	246	led_B=0;
Joost38H	5:81d3b53087c0	247	wait(0.5);
Joost38H	22:cdaa5c1208a4	248	}
Joost38H	22:cdaa5c1208a4	249
Joost38H	5:81d3b53087c0	250	// Couting system for values of Y
Joost38H	22:cdaa5c1208a4	251	int tellerY(){
Joost38H	5:81d3b53087c0	252	if (Move_done == true) {
Joost38H	22:cdaa5c1208a4	253	t.reset();
Joost38H	22:cdaa5c1208a4	254	led_G=1;
Joost38H	22:cdaa5c1208a4	255	led_B=0;
Joost38H	22:cdaa5c1208a4	256	led_R=1;
Joost38H	22:cdaa5c1208a4	257	while(true){
Joost38H	22:cdaa5c1208a4	258	button.fall(ledtY);
Joost38H	22:cdaa5c1208a4	259	/*if (emgBRcomplete > thresholdBR) {
Joost38H	22:cdaa5c1208a4	260	ledtY();
Joost38H	22:cdaa5c1208a4	261	}*/
Joost38H	22:cdaa5c1208a4	262	t.start();
Joost38H	22:cdaa5c1208a4	263	huidigetijdY=t.read();
Joost38H	22:cdaa5c1208a4	264	if (huidigetijdY>2){
Joost38H	22:cdaa5c1208a4	265	led_B=1;
Joost38H	22:cdaa5c1208a4	266	Yin_new = Yin;
Joost38H	22:cdaa5c1208a4	267	Yin = 0;
Joost38H	22:cdaa5c1208a4	268	Input_done = true;
Joost38H	22:cdaa5c1208a4	269	Move_done = false;
Joost38H	22:cdaa5c1208a4	270	return Yin_new;
Joost38H	22:cdaa5c1208a4	271
Joost38H	5:81d3b53087c0	272	}
Joost38H	5:81d3b53087c0	273	}
Joost38H	22:cdaa5c1208a4	274	}
Joost38H	22:cdaa5c1208a4	275	return 0; // ga door naar het volgende programma
Joost38H	5:81d3b53087c0	276	}
Joost38H	22:cdaa5c1208a4	277
Joost38H	22:cdaa5c1208a4	278	// Declaring all variables needed for calculating rope lengths,
Joost38H	10:952377fbbbfe	279	float Pox = 0;
Joost38H	10:952377fbbbfe	280	float Poy = 0;
Joost38H	10:952377fbbbfe	281	float Pbx = 0;
Joost38H	10:952377fbbbfe	282	float Pby = 887;
Joost38H	10:952377fbbbfe	283	float Prx = 768;
Joost38H	10:952377fbbbfe	284	float Pry = 443;
Joost38H	10:952377fbbbfe	285	float Pex=91;
Joost38H	10:952377fbbbfe	286	float Pey=278;
Joost38H	10:952377fbbbfe	287	float diamtrklosje=20;
Joost38H	10:952377fbbbfe	288	float pi=3.14159265359;
Joost38H	10:952377fbbbfe	289	float omtrekklosje=diamtrklosje*pi;
Joost38H	10:952377fbbbfe	290	float Lou;
Joost38H	10:952377fbbbfe	291	float Lbu;
Joost38H	10:952377fbbbfe	292	float Lru;
Joost38H	10:952377fbbbfe	293	float dLod;
Joost38H	10:952377fbbbfe	294	float dLbd;
Joost38H	10:952377fbbbfe	295	float dLrd;
Joost38H	22:cdaa5c1208a4	296
Joost38H	0:eb16ed402ffa	297	// Declaring variables needed for calculating motor counts
Joost38H	10:952377fbbbfe	298	float roto;
Joost38H	10:952377fbbbfe	299	float rotb;
Joost38H	10:952377fbbbfe	300	float rotr;
Joost38H	10:952377fbbbfe	301	float rotzo;
Joost38H	10:952377fbbbfe	302	float rotzb;
Joost38H	10:952377fbbbfe	303	float rotzr;
Joost38H	10:952377fbbbfe	304	float counto;
Joost38H	10:952377fbbbfe	305	float countb;
Joost38H	10:952377fbbbfe	306	float countr;
Joost38H	10:952377fbbbfe	307	float countzo;
Joost38H	10:952377fbbbfe	308	float countzb;
Joost38H	10:952377fbbbfe	309	float countzr;
Joost38H	12:ea9afe159eb1	310
Joost38H	10:952377fbbbfe	311	float hcounto;
Joost38H	10:952377fbbbfe	312	float dcounto;
Joost38H	10:952377fbbbfe	313	float hcountb;
Joost38H	10:952377fbbbfe	314	float dcountb;
Joost38H	10:952377fbbbfe	315	float hcountr;
Joost38H	10:952377fbbbfe	316	float dcountr;
Joost38H	22:cdaa5c1208a4	317
Joost38H	0:eb16ed402ffa	318	// Declaring variables neeeded for calculating motor movements to get to a certain point <- klopt dit?
Joost38H	10:952377fbbbfe	319	float Psx;
Joost38H	10:952377fbbbfe	320	float Psy;
Joost38H	10:952377fbbbfe	321	float Vex;
Joost38H	10:952377fbbbfe	322	float Vey;
Joost38H	10:952377fbbbfe	323	float Kz=0.7; // nadersnelheid instellen
Joost38H	10:952377fbbbfe	324	float modVe;
Joost38H	10:952377fbbbfe	325	float Vmax=20;
Joost38H	10:952377fbbbfe	326	float Pstx;
Joost38H	10:952377fbbbfe	327	float Psty;
Joost38H	10:952377fbbbfe	328	float T=0.02;//seconds
Joost38H	8:f5065cd04213	329
Joost38H	23:91a67476fc2b	330	float kpo = 21;
Joost38H	23:91a67476fc2b	331	float kpb = 21;
Joost38H	23:91a67476fc2b	332	float kpr = 21;
Joost38H	22:cdaa5c1208a4	333
Joost38H	10:952377fbbbfe	334	float speedfactor1;
Joost38H	10:952377fbbbfe	335	float speedfactor2;
Joost38H	10:952377fbbbfe	336	float speedfactor3;
Joost38H	22:cdaa5c1208a4	337
Joost38H	22:cdaa5c1208a4	338
Joost38H	22:cdaa5c1208a4	339	//Deel om motor(en) aan te sturen--------------------------------------------
Joost38H	22:cdaa5c1208a4	340	float referenceVelocity1;
Joost38H	22:cdaa5c1208a4	341	float motorValue1;
Joost38H	22:cdaa5c1208a4	342
Joost38H	22:cdaa5c1208a4	343	float referenceVelocity2;
Joost38H	22:cdaa5c1208a4	344	float motorValue2;
Joost38H	22:cdaa5c1208a4	345
Joost38H	22:cdaa5c1208a4	346	float referenceVelocity3;
Joost38H	22:cdaa5c1208a4	347	float motorValue3;
Joost38H	19:6567ed67d6ee	348
Joost38H	19:6567ed67d6ee	349
Joost38H	22:cdaa5c1208a4	350
Joost38H	5:81d3b53087c0	351	Ticker controlmotor1; // één ticker van maken?
Joost38H	5:81d3b53087c0	352	Ticker controlmotor2; // één ticker van maken?
Joost38H	5:81d3b53087c0	353	Ticker controlmotor3; // één ticker van maken?
Joost38H	8:f5065cd04213	354
Joost38H	8:f5065cd04213	355
Joost38H	22:cdaa5c1208a4	356	float P1(int erroro, float kpo) {
Joost38H	22:cdaa5c1208a4	357	return erroro*kpo;
Joost38H	22:cdaa5c1208a4	358	}
Joost38H	8:f5065cd04213	359
Joost38H	8:f5065cd04213	360	void MotorController1()
Joost38H	8:f5065cd04213	361	{
Joost38H	21:3fdd135a3dfd	362	int reference_o = (int) (counto-hcounto);
Joost38H	10:952377fbbbfe	363	int position_o = Encoder1.getPulses();
Joost38H	22:cdaa5c1208a4	364
Joost38H	12:ea9afe159eb1	365	int error_o = reference_o - position_o;
Joost38H	22:cdaa5c1208a4	366
Joost38H	19:6567ed67d6ee	367	//pc.printf("Position_o = %i reference_o=%i Error_o=%i\n\r" ,position_o,reference_o,error_o);
Joost38H	22:cdaa5c1208a4	368
Joost38H	22:cdaa5c1208a4	369	if (-100<error_o && error_o<100){
Joost38H	10:952377fbbbfe	370	motorValue1 = 0;
Joost38H	22:cdaa5c1208a4	371	}
Joost38H	22:cdaa5c1208a4	372	else {
Joost38H	23:91a67476fc2b	373	motorValue1 = P1(error_o, kpo)/4200;
Joost38H	22:cdaa5c1208a4	374	}
Joost38H	22:cdaa5c1208a4	375
Joost38H	22:cdaa5c1208a4	376
Joost38H	22:cdaa5c1208a4	377
Joost38H	22:cdaa5c1208a4	378	if (motorValue1 >=0) motor1DirectionPin=0;
Joost38H	22:cdaa5c1208a4	379	else motor1DirectionPin=1;
Joost38H	22:cdaa5c1208a4	380	if (fabs(motorValue1)>1) motor1MagnitudePin = 1;
Joost38H	22:cdaa5c1208a4	381	else motor1MagnitudePin = fabs(motorValue1);
Joost38H	8:f5065cd04213	382	}
Joost38H	22:cdaa5c1208a4	383
Joost38H	10:952377fbbbfe	384
Joost38H	8:f5065cd04213	385
Joost38H	22:cdaa5c1208a4	386	float P2(int error_b, float kpb) {
Joost38H	22:cdaa5c1208a4	387	return error_b*kpb;
Joost38H	22:cdaa5c1208a4	388	}
Joost38H	0:eb16ed402ffa	389
Joost38H	8:f5065cd04213	390	void MotorController2()
Joost38H	8:f5065cd04213	391	{
Joost38H	22:cdaa5c1208a4	392
Joost38H	21:3fdd135a3dfd	393	int reference_b = (int) (-(countb-hcountb));
Joost38H	10:952377fbbbfe	394	int position_b = Encoder2.getPulses();
Joost38H	9:3874b23bb233	395
Joost38H	13:3ad20c09b5b4	396	int error_b = reference_b - position_b;
Joost38H	22:cdaa5c1208a4	397
Joost38H	14:291f9a29bd74	398	//pc.printf("Position_b = %i reference_b=%i Error_b=%i " ,position_b,reference_b,error_b);
Joost38H	22:cdaa5c1208a4	399
Joost38H	22:cdaa5c1208a4	400	if (-100<error_b && error_b<100){
Joost38H	10:952377fbbbfe	401	motorValue2 = 0;
Joost38H	22:cdaa5c1208a4	402	}
Joost38H	22:cdaa5c1208a4	403	else {
Joost38H	23:91a67476fc2b	404	motorValue2 = P2(error_b, kpb)/4200;
Joost38H	22:cdaa5c1208a4	405	}
Joost38H	22:cdaa5c1208a4	406
Joost38H	22:cdaa5c1208a4	407
Joost38H	22:cdaa5c1208a4	408	if (motorValue2 <=0) motor2DirectionPin=0;
Joost38H	22:cdaa5c1208a4	409	else motor2DirectionPin=1;
Joost38H	22:cdaa5c1208a4	410	if (fabs(motorValue2)>1) motor2MagnitudePin = 1;
Joost38H	22:cdaa5c1208a4	411	else motor2MagnitudePin = fabs(motorValue2);
Joost38H	8:f5065cd04213	412	}
Joost38H	22:cdaa5c1208a4	413
Joost38H	10:952377fbbbfe	414
Joost38H	8:f5065cd04213	415
Joost38H	22:cdaa5c1208a4	416	float P3(int error_r, float kpr) {
Joost38H	22:cdaa5c1208a4	417	return error_r*kpr;
Joost38H	22:cdaa5c1208a4	418	}
Joost38H	8:f5065cd04213	419
Joost38H	9:3874b23bb233	420	void MotorController3()
Joost38H	9:3874b23bb233	421	{
Joost38H	21:3fdd135a3dfd	422	int reference_r = (int) (-(countr-hcountr));
Joost38H	10:952377fbbbfe	423	int position_r = Encoder3.getPulses();
Joost38H	22:cdaa5c1208a4	424
Joost38H	13:3ad20c09b5b4	425	int error_r = reference_r - position_r;
Joost38H	22:cdaa5c1208a4	426
Joost38H	19:6567ed67d6ee	427	pc.printf("Position_r = %i reference_r=%i Error_r=%i\n\r" ,position_r,reference_r,error_r);
Joost38H	22:cdaa5c1208a4	428
Joost38H	22:cdaa5c1208a4	429
Joost38H	22:cdaa5c1208a4	430	if (-100<error_r && error_r<100){
Joost38H	10:952377fbbbfe	431	motorValue3 = 0;
Joost38H	22:cdaa5c1208a4	432
Joost38H	22:cdaa5c1208a4	433	}
Joost38H	22:cdaa5c1208a4	434	else {
Joost38H	23:91a67476fc2b	435	motorValue3 = P3(error_r, kpr)/4200;
Joost38H	22:cdaa5c1208a4	436	}
Joost38H	22:cdaa5c1208a4	437
Joost38H	21:3fdd135a3dfd	438	if (motorValue3 <=0) motor3DirectionPin=0;
Joost38H	22:cdaa5c1208a4	439	else motor3DirectionPin=1;
Joost38H	8:f5065cd04213	440	if (fabs(motorValue3)>1) motor3MagnitudePin = 1;
Joost38H	22:cdaa5c1208a4	441	else motor3MagnitudePin = fabs(motorValue3);
Joost38H	22:cdaa5c1208a4	442	}
Joost38H	22:cdaa5c1208a4	443
Joost38H	5:81d3b53087c0	444
Joost38H	0:eb16ed402ffa	445
Joost38H	0:eb16ed402ffa	446	// einde deel motor------------------------------------------------------------------------------------
Joost38H	22:cdaa5c1208a4	447
Joost38H	0:eb16ed402ffa	448	Ticker loop;
Joost38H	22:cdaa5c1208a4	449
Joost38H	22:cdaa5c1208a4	450	/*Calculates ropelengths that are needed to get to new positions, based on the
Joost38H	0:eb16ed402ffa	451	set coordinates and the position of the poles */
Joost38H	22:cdaa5c1208a4	452	float touwlengtes(){
Joost38H	22:cdaa5c1208a4	453	Lou=sqrt(pow((Pstx-Pox),2)+pow((Psty-Poy),2));
Joost38H	0:eb16ed402ffa	454	Lbu=sqrt(pow((Pstx-Pbx),2)+pow((Psty-Pby),2));
Joost38H	0:eb16ed402ffa	455	Lru=sqrt(pow((Pstx-Prx),2)+pow((Psty-Pry),2));
Joost38H	0:eb16ed402ffa	456	return 0;
Joost38H	0:eb16ed402ffa	457	}
Joost38H	22:cdaa5c1208a4	458
Joost38H	22:cdaa5c1208a4	459	/* Calculates rotations (and associated counts) of the motor to get to the
Joost38H	0:eb16ed402ffa	460	desired new position*/
Joost38H	22:cdaa5c1208a4	461	float turns(){
Joost38H	22:cdaa5c1208a4	462
Joost38H	22:cdaa5c1208a4	463	roto=Lou/omtrekklosje;
Joost38H	22:cdaa5c1208a4	464	rotb=Lbu/omtrekklosje;
Joost38H	22:cdaa5c1208a4	465	rotr=Lru/omtrekklosje;
Joost38H	22:cdaa5c1208a4	466	counto=roto*4200;
Joost38H	5:81d3b53087c0	467	dcounto=counto-hcounto;
Joost38H	11:f23fe69ba3ef	468	//pc.printf("counto = %f \n\r", counto);
Joost38H	8:f5065cd04213	469	//pc.printf("hcounto = %f \n\r", hcounto);
Joost38H	8:f5065cd04213	470	//pc.printf("dcounto = %f \n\r",dcounto);
Joost38H	0:eb16ed402ffa	471	countb=rotb*4200;
Joost38H	5:81d3b53087c0	472	dcountb=countb-hcountb;
Joost38H	8:f5065cd04213	473	//pc.printf("dcountb = %f \n\r",dcountb);
Joost38H	0:eb16ed402ffa	474	countr=rotr*4200;
Joost38H	5:81d3b53087c0	475	dcountr=countr-hcountr;
Joost38H	22:cdaa5c1208a4	476
Joost38H	0:eb16ed402ffa	477	return 0;
Joost38H	0:eb16ed402ffa	478	}
Joost38H	22:cdaa5c1208a4	479
Joost38H	22:cdaa5c1208a4	480	// Waar komen Pstx en Psty vandaan en waar staan ze voor? En is dit maar voor een paal?
Joost38H	22:cdaa5c1208a4	481	float Pst(){
Joost38H	0:eb16ed402ffa	482	Pstx=Pex+Vex*T;
Joost38H	0:eb16ed402ffa	483	Psty=Pey+Vey*T;
Joost38H	0:eb16ed402ffa	484	touwlengtes();
Joost38H	22:cdaa5c1208a4	485	Pex=Pstx;
Joost38H	0:eb16ed402ffa	486	Pey=Psty;
Joost38H	11:f23fe69ba3ef	487	//pc.printf("een stappie verder\n\r x=%.2f\n\r y=%.2f\n\r",Pstx,Psty);
Joost38H	0:eb16ed402ffa	488	//pc.printf("met lengtes:\n\r Lo=%.2f Lb=%.2f Lr=%.2f\n\r",Lou,Lbu,Lru);
Joost38H	0:eb16ed402ffa	489	turns();
Joost38H	22:cdaa5c1208a4	490	//pc.printf("rotatie per motor:\n\r o=%.2f b=%.2f r=%.2f\n\r",roto,rotb,rotr);
Joost38H	11:f23fe69ba3ef	491	//pc.printf("counts per motor:\n\r o=%.2f b=%.2f r=%.2f\n\r",counto,countb,countr);
Joost38H	0:eb16ed402ffa	492	/*float R;
Joost38H	0:eb16ed402ffa	493	R=Vex/Vey; // met dit stukje kan je zien dat de verhouding tussen Vex en Vey constant is en de end efector dus een rechte lijn maakt
Joost38H	0:eb16ed402ffa	494	pc.printf("\n\r R=%f",R);*/
Joost38H	0:eb16ed402ffa	495	return 0;
Joost38H	22:cdaa5c1208a4	496	}
Joost38H	22:cdaa5c1208a4	497
Joost38H	0:eb16ed402ffa	498	//Calculating desired end position based on the EMG input <- Waarom maar voor een paal?
Joost38H	22:cdaa5c1208a4	499	float Ps(){
Joost38H	7:ca880e05bb04	500	Psx=(Xin_new)*30+91;
Joost38H	22:cdaa5c1208a4	501	Psy=(Yin_new)*30+278;
Joost38H	22:cdaa5c1208a4	502	// pc.printf("x=%.2f \n\r y=%.2f \n\r",Psx,Psy);
Joost38H	0:eb16ed402ffa	503	return 0;
Joost38H	0:eb16ed402ffa	504	}
Joost38H	22:cdaa5c1208a4	505
Joost38H	0:eb16ed402ffa	506	// Rekent dit de snelheid uit waarmee de motoren bewegen?
Joost38H	22:cdaa5c1208a4	507	void Ve(){
Joost38H	10:952377fbbbfe	508	Vex=0.2*(Psx-Pex);
Joost38H	10:952377fbbbfe	509	Vey=0.2*(Psy-Pey);
Joost38H	22:cdaa5c1208a4	510	/* modVe=sqrt(pow(Vex,2)+pow(Vey,2));
Joost38H	22:cdaa5c1208a4	511	if(modVe>Vmax){
Joost38H	22:cdaa5c1208a4	512	Vex=(Vex/modVe)*Vmax;
Joost38H	22:cdaa5c1208a4	513	Vey=(Vey/modVe)*Vmax;
Joost38H	22:cdaa5c1208a4	514	}*/
Joost38H	0:eb16ed402ffa	515	Pst();
Joost38H	22:cdaa5c1208a4	516	// pc.printf("Vex=%.2f \r\n Vey=%.2f \r\n",Vex,Vey);
Joost38H	22:cdaa5c1208a4	517	if((fabs(Vex)<0.01f)&&(fabs(Vey)<0.01f)){
Joost38H	3:59b504840b95	518	Move_done=true;
Joost38H	0:eb16ed402ffa	519	loop.detach();
Joost38H	22:cdaa5c1208a4	520	}
Joost38H	0:eb16ed402ffa	521	}
Joost38H	22:cdaa5c1208a4	522
Joost38H	0:eb16ed402ffa	523	// Calculating the desired position, so that the motors can go here
Joost38H	22:cdaa5c1208a4	524	int calculator(){
Joost38H	0:eb16ed402ffa	525	Ps();
Joost38H	10:952377fbbbfe	526	if (Move_done == false) {
Joost38H	22:cdaa5c1208a4	527	loop.attach(&Ve,0.02);
Joost38H	10:952377fbbbfe	528	}
Joost38H	0:eb16ed402ffa	529	return 0;
Joost38H	0:eb16ed402ffa	530	}
Joost38H	22:cdaa5c1208a4	531
Joost38H	0:eb16ed402ffa	532	// Function which makes it possible to lower the end-effector to pick up a piece
Joost38H	22:cdaa5c1208a4	533	void zakker(){
Joost38H	22:cdaa5c1208a4	534	while(1){
Joost38H	0:eb16ed402ffa	535	wait(1);
Joost38H	23:91a67476fc2b	536	if(Move_done==true){ //misschien moet je hier als voorwaarden een delta is 1 zetten // hierdoor wacht dit programma totdat de beweging klaar is
Joost38H	23:91a67476fc2b	537
Joost38H	22:cdaa5c1208a4	538	dLod=sqrt(pow(Lou,2)+pow(397.85,2))-Lou; //dit is wat je motoren moeten doen om te zakken
Joost38H	22:cdaa5c1208a4	539	dLbd=sqrt(pow(Lbu,2)+pow(397.85,2))-Lbu;
Joost38H	22:cdaa5c1208a4	540	dLrd=sqrt(pow(Lru,2)+pow(397.85,2))-Lru;
Joost38H	22:cdaa5c1208a4	541	rotzo=dLod/omtrekklosje;
Joost38H	22:cdaa5c1208a4	542	rotzb=dLbd/omtrekklosje;
Joost38H	22:cdaa5c1208a4	543	rotzr=dLrd/omtrekklosje;
Joost38H	22:cdaa5c1208a4	544	countzo=rotzo*4200;
Joost38H	22:cdaa5c1208a4	545	countzb=rotzb*4200;
Joost38H	22:cdaa5c1208a4	546	countzr=rotzr*4200;
Joost38H	22:cdaa5c1208a4	547
Joost38H	22:cdaa5c1208a4	548	//pc.printf("o=%.2fb=%.2fr=%.2f",countzo,countzb,countzr); // hier moet komen te staan hoe het zakken gaat
Joost38H	22:cdaa5c1208a4	549	}
Joost38H	0:eb16ed402ffa	550	}
Joost38H	0:eb16ed402ffa	551	}
Joost38H	7:ca880e05bb04	552
Joost38H	22:cdaa5c1208a4	553	void tiller(){
Joost38H	22:cdaa5c1208a4	554	int reference_o = hcounto-12487;
Joost38H	22:cdaa5c1208a4	555	int reference_b = hcountb-8148;
Joost38H	22:cdaa5c1208a4	556	int reference_r = hcountr-7386;
Joost38H	7:ca880e05bb04	557	pc.printf("Tiller");
Joost38H	22:cdaa5c1208a4	558	/* Vex = 20;
Joost38H	22:cdaa5c1208a4	559	Vey = 20;*/
Joost38H	22:cdaa5c1208a4	560	controlmotor1.attach(&MotorController1, 0.01);
Joost38H	22:cdaa5c1208a4	561	controlmotor2.attach(&MotorController2, 0.01);
Joost38H	22:cdaa5c1208a4	562	controlmotor3.attach(&MotorController3, 0.01);
Joost38H	22:cdaa5c1208a4	563	}
Joost38H	7:ca880e05bb04	564
Joost38H	7:ca880e05bb04	565
Joost38H	22:cdaa5c1208a4	566	void setcurrentposition(){
Joost38H	22:cdaa5c1208a4	567	if(Input_done==true){
Joost38H	14:291f9a29bd74	568	hcounto=4200*((sqrt(pow((Pex-Pox),2)+pow((Pey-Poy),2)))/omtrekklosje);
Joost38H	14:291f9a29bd74	569	hcountb=4200*((sqrt(pow((Pex-Pbx),2)+pow((Pey-Pby),2)))/omtrekklosje);
Joost38H	14:291f9a29bd74	570	hcountr=4200*((sqrt(pow((Pex-Prx),2)+pow((Pey-Pry),2)))/omtrekklosje);
Joost38H	14:291f9a29bd74	571	pc.printf("ik reset hcounts");
Joost38H	15:46acc9b5decf	572	Input_done=false;
Joost38H	22:cdaa5c1208a4	573	}
Joost38H	6:2674fe30b610	574	}
Joost38H	22:cdaa5c1208a4	575
Joost38H	0:eb16ed402ffa	576	int main()
Joost38H	0:eb16ed402ffa	577	{
Joost38H	0:eb16ed402ffa	578	pc.baud(115200);
Joost38H	8:f5065cd04213	579	wait(1.0f);
Joost38H	22:cdaa5c1208a4	580	//tiller();
Joost38H	1:6aac013b0ba3	581	getbqChain();
Joost38H	4:fddab1c875a9	582	threshold_timerR.attach(&Threshold_samplingBR, 0.002);
Joost38H	4:fddab1c875a9	583	threshold_timerL.attach(&Threshold_samplingBL, 0.002);
Joost38H	18:00379f0ecc7f	584	setcurrentposition();
Joost38H	22:cdaa5c1208a4	585	while(true){
Joost38H	2:2c4ee76dc830	586	sample_timer.attach(&EMG_sample, 0.002);
Joost38H	2:2c4ee76dc830	587	wait(2.5f);
Joost38H	2:2c4ee76dc830	588	tellerX();
Joost38H	2:2c4ee76dc830	589	tellerY();
Joost38H	2:2c4ee76dc830	590	calculator();
Joost38H	8:f5065cd04213	591	controlmotor1.attach(&MotorController1, 0.01);
Joost38H	8:f5065cd04213	592	controlmotor2.attach(&MotorController2, 0.01);
Joost38H	8:f5065cd04213	593	controlmotor3.attach(&MotorController3, 0.01);
Joost38H	2:2c4ee76dc830	594	//zakker();
Joost38H	5:81d3b53087c0	595	wait(5.0f);
Joost38H	22:cdaa5c1208a4	596	}
Joost38H	5:81d3b53087c0	597
Joost38H	5:81d3b53087c0	598	}
Joost38H	22:cdaa5c1208a4	599

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	07 Nov 2017
Imports:	0
Forks:	0
Commits:	27
Dependents:	0
Dependencies:	5
Followers:	1

main.cpp@23:91a67476fc2b, 2017-11-01 (annotated)

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