chessRobot - control for robotic arm that can play chess using…

Dammenisvoorcasuals » Code » chessRobot

Dammenisvoorcasuals / Mbed 2 deprecated chessRobot

control for robotic arm that can play chess using a granular gripper

Dependencies: Encoder mbed HIDScope Servo MODSERIAL

actuators.cpp@110:a6439e13be8b, 2015-10-27 (annotated)

Committer:: annesteenbeek
Date:: Tue Oct 27 14:45:15 2015 +0000
Revision:: 110:a6439e13be8b
Parent:: 109:026abd708dce
Child:: 111:43c0881fe7e7
Child:: 115:d8d2968981f3

testing calibration;

Who changed what in which revision?

User	Revision	Line number	New contents of line
annesteenbeek	13:4837b36b9a68	1	#include "actuators.h"
annesteenbeek	13:4837b36b9a68	2	#include "PID.h"
annesteenbeek	13:4837b36b9a68	3	#include "mbed.h"
annesteenbeek	13:4837b36b9a68	4	#include "config.h"
annesteenbeek	13:4837b36b9a68	5	#include "encoder.h"
annesteenbeek	25:874675516927	6	#include "HIDScope.h"
annesteenbeek	107:de47331612d9	7	#include "buttons.h"
annesteenbeek	107:de47331612d9	8	#include "Servo.h"
annesteenbeek	98:25528494287d	9
annesteenbeek	109:026abd708dce	10	// Motor control constants
annesteenbeek	109:026abd708dce	11	#define pwm_frequency 50000 // still High, could be lowered
annesteenbeek	109:026abd708dce	12	#define PI 3.14159265
annesteenbeek	106:1773bf7b95c5	13
annesteenbeek	109:026abd708dce	14	// functions for controlling the motors
annesteenbeek	109:026abd708dce	15	bool motorsEnable = false;
annesteenbeek	109:026abd708dce	16	bool safetyOn = true;
annesteenbeek	76:0aa90e728e4a	17
annesteenbeek	6:b957d8809e7c	18
annesteenbeek	109:026abd708dce	19	double encoder1Counts = 0;
annesteenbeek	109:026abd708dce	20	double encoder2Counts = 0;
annesteenbeek	68:21cb054f1399	21
annesteenbeek	109:026abd708dce	22	bool direction1 = false; // CCW is false(positive rotation), CW is true (neg rotation)
annesteenbeek	109:026abd708dce	23	bool direction2 = false;
annesteenbeek	6:b957d8809e7c	24
annesteenbeek	109:026abd708dce	25	double motor1Pos = 0;
annesteenbeek	109:026abd708dce	26	double motor2Pos = 0;
annesteenbeek	6:b957d8809e7c	27
annesteenbeek	109:026abd708dce	28	double motor1Speed = 0;
annesteenbeek	109:026abd708dce	29	double motor2Speed = 0;
annesteenbeek	6:b957d8809e7c	30
annesteenbeek	109:026abd708dce	31	double motor1SetSpeed = 0;
annesteenbeek	109:026abd708dce	32	double motor2SetSpeed = 0;
annesteenbeek	6:b957d8809e7c	33
annesteenbeek	109:026abd708dce	34	double motor1PWM = 0;
annesteenbeek	109:026abd708dce	35	double motor2PWM = 0;
annesteenbeek	6:b957d8809e7c	36
annesteenbeek	109:026abd708dce	37	// Set PID values
annesteenbeek	109:026abd708dce	38	double Kp1 = 1;
annesteenbeek	109:026abd708dce	39	double Ki1 = 0;
annesteenbeek	109:026abd708dce	40	double Kd1 = 0;
annesteenbeek	0:525558a26464	41
annesteenbeek	109:026abd708dce	42	double Kp2 = 0.008;
annesteenbeek	109:026abd708dce	43	double Ki2 = 0.08;
annesteenbeek	109:026abd708dce	44	double Kd2 = 0;
annesteenbeek	20:3cba803cd771	45
annesteenbeek	109:026abd708dce	46	double motor1PrevCounts = 0;
annesteenbeek	109:026abd708dce	47	double motor2PrevCounts = 0;
annesteenbeek	109:026abd708dce	48	double prevTime = 0;
annesteenbeek	109:026abd708dce	49	double now = 0;
annesteenbeek	109:026abd708dce	50	double timechange;
annesteenbeek	109:026abd708dce	51
annesteenbeek	109:026abd708dce	52	// Set servo values
annesteenbeek	110:a6439e13be8b	53	double servoSpeed = 0;
annesteenbeek	109:026abd708dce	54	const int servoStartPos = 1300; // Servo ranges from 600ms(-90) to 2000ms(90), 1300 is 0 deg
annesteenbeek	26:0a9e4147a31a	55
annesteenbeek	109:026abd708dce	56	// Set calibration values
annesteenbeek	109:026abd708dce	57	double motorCalSpeed = 10; // deg/sec
annesteenbeek	109:026abd708dce	58	double returnSpeed = -10;
annesteenbeek	109:026abd708dce	59	bool springHit = false;
annesteenbeek	109:026abd708dce	60	float lastCall = 0;
annesteenbeek	109:026abd708dce	61	bool calibrating1 = true;
annesteenbeek	109:026abd708dce	62	bool calibrating2 = false;
annesteenbeek	98:25528494287d	63
annesteenbeek	109:026abd708dce	64	// Create object instances
annesteenbeek	109:026abd708dce	65	// Safety Pin
annesteenbeek	109:026abd708dce	66	DigitalIn safetyIn(safetyPin);
annesteenbeek	32:2006977785f5	67
annesteenbeek	109:026abd708dce	68	// Initialze motors
annesteenbeek	109:026abd708dce	69	PwmOut motor1(motor1PWMPin);
annesteenbeek	109:026abd708dce	70	PwmOut motor2(motor2PWMPin);
annesteenbeek	109:026abd708dce	71
annesteenbeek	109:026abd708dce	72	// initialize Servo
annesteenbeek	109:026abd708dce	73	Servo servo(servoPin);
annesteenbeek	98:25528494287d	74
annesteenbeek	98:25528494287d	75
annesteenbeek	109:026abd708dce	76	// Initialize encoders
annesteenbeek	109:026abd708dce	77	Encoder encoder1(enc1A, enc1B);
annesteenbeek	109:026abd708dce	78	Encoder encoder2(enc2A, enc2B);
annesteenbeek	25:874675516927	79
annesteenbeek	109:026abd708dce	80	// Set direction pins
annesteenbeek	109:026abd708dce	81	DigitalOut motor1Dir(motor1DirPin);
annesteenbeek	109:026abd708dce	82	DigitalOut motor2Dir(motor2DirPin);
annesteenbeek	26:0a9e4147a31a	83
annesteenbeek	109:026abd708dce	84	// create PID instances
annesteenbeek	109:026abd708dce	85	PID motor1PID(&motor1Speed, &motor1PWM, &motor1SetSpeed, Kp1, Ki1, Kd1);
annesteenbeek	109:026abd708dce	86	PID motor2PID(&motor2Speed, &motor2PWM, &motor2SetSpeed, Kp2, Ki2, Kd2);
annesteenbeek	31:8fbee6c92753	87
annesteenbeek	109:026abd708dce	88	Timer t;
annesteenbeek	25:874675516927	89
annesteenbeek	25:874675516927	90	void motorInit(){
annesteenbeek	25:874675516927	91
annesteenbeek	3:47c76be6d402	92	motor1Dir.write(direction1);
annesteenbeek	3:47c76be6d402	93	motor2Dir.write(direction2);
annesteenbeek	3:47c76be6d402	94
annesteenbeek	3:47c76be6d402	95	// Set motor PWM period
annesteenbeek	3:47c76be6d402	96	motor1.period(1/pwm_frequency);
annesteenbeek	3:47c76be6d402	97	motor2.period(1/pwm_frequency);
annesteenbeek	55:ee5257fb73df	98
annesteenbeek	55:ee5257fb73df	99	motor1PID.SetSampleTime(motorCall);
annesteenbeek	55:ee5257fb73df	100	motor2PID.SetSampleTime(motorCall);
annesteenbeek	55:ee5257fb73df	101
annesteenbeek	69:37f75a7d36d8	102	motor1PID.SetOutputLimits(0,1);
annesteenbeek	69:37f75a7d36d8	103	motor2PID.SetOutputLimits(0,1);
annesteenbeek	69:37f75a7d36d8	104
annesteenbeek	30:a20f16bf8dda	105	// Turn PID on
annesteenbeek	55:ee5257fb73df	106	motor1PID.SetMode(AUTOMATIC);
annesteenbeek	55:ee5257fb73df	107	motor2PID.SetMode(AUTOMATIC);
annesteenbeek	98:25528494287d	108
annesteenbeek	98:25528494287d	109	// set servo period
annesteenbeek	107:de47331612d9	110	servo.Enable(servoStartPos, 20000);
annesteenbeek	98:25528494287d	111
annesteenbeek	30:a20f16bf8dda	112	// start the timer
annesteenbeek	29:e4f3455aaa0b	113	t.start();
annesteenbeek	4:80e2280058ed	114	}
annesteenbeek	0:525558a26464	115
annesteenbeek	26:0a9e4147a31a	116
annesteenbeek	0:525558a26464	117	void motorControl(){
annesteenbeek	107:de47331612d9	118	#ifndef SETPOS // if not tuning with potmeters, switch to EMG
annesteenbeek	107:de47331612d9	119	// EMG signals to motor speeds
annesteenbeek	110:a6439e13be8b	120	// const double scaleVel = 20;
annesteenbeek	110:a6439e13be8b	121	// motor1SetSpeed = x_velocity*scaleVel;
annesteenbeek	110:a6439e13be8b	122	// motor2SetSpeed = y_velocity*scaleVel;
annesteenbeek	110:a6439e13be8b	123	// servoSpeed = z_velocity*scaleVel;
annesteenbeek	107:de47331612d9	124	#endif
annesteenbeek	30:a20f16bf8dda	125	// get encoder positions in degrees
annesteenbeek	30:a20f16bf8dda	126	// 131.25:1 gear ratio
annesteenbeek	30:a20f16bf8dda	127	// getPosition uses X2 configuration, so 32 counts per revolution
annesteenbeek	30:a20f16bf8dda	128	// encoder reads CCW negative, and CW positive, so multiply by -1 to make CCW positive
annesteenbeek	68:21cb054f1399	129
annesteenbeek	68:21cb054f1399	130	encoder1Counts = encoder1.getPosition();
annesteenbeek	68:21cb054f1399	131	encoder2Counts = encoder2.getPosition();
annesteenbeek	68:21cb054f1399	132
annesteenbeek	68:21cb054f1399	133
annesteenbeek	68:21cb054f1399	134	motor1Pos = -((encoder1Counts/32)/131.25)*360;
annesteenbeek	68:21cb054f1399	135	motor2Pos = -((encoder2Counts/32)/131.25)*360;
annesteenbeek	3:47c76be6d402	136
annesteenbeek	0:525558a26464	137	// check if motor's are within rotational boundarys
annesteenbeek	30:a20f16bf8dda	138	// get encoder speeds in deg/sec
annesteenbeek	66:d1ab5904f8e5	139	now = t.read();
annesteenbeek	50:b0cf07ca53cf	140	timechange = (now - prevTime);
annesteenbeek	68:21cb054f1399	141	motor1Speed = -((((encoder1Counts - motor1PrevCounts)/32)/131.25)*360)/timechange;
annesteenbeek	68:21cb054f1399	142	motor2Speed = -((((encoder2Counts - motor2PrevCounts)/32)/131.25)*360)/timechange;
annesteenbeek	50:b0cf07ca53cf	143	prevTime = now;
annesteenbeek	68:21cb054f1399	144	motor1PrevCounts = encoder1Counts;
annesteenbeek	68:21cb054f1399	145	motor2PrevCounts = encoder2Counts;
annesteenbeek	29:e4f3455aaa0b	146
annesteenbeek	31:8fbee6c92753	147	// calculate motor setpoint speed in deg/sec from setpoint x/y speed
annesteenbeek	30:a20f16bf8dda	148
annesteenbeek	48:3cf1eaf34926	149
annesteenbeek	48:3cf1eaf34926	150	if(motorsEnable){ // only run motors if switch is enabled
annesteenbeek	32:2006977785f5	151	// compute new PID parameters using setpoint angle speeds and encoder speed
annesteenbeek	31:8fbee6c92753	152	writeMotors();
annesteenbeek	98:25528494287d	153	servoControl();
annesteenbeek	0:525558a26464	154	}else{
annesteenbeek	0:525558a26464	155	// write 0 to motors
annesteenbeek	2:95ba9f6f0128	156	motor1.write(0);
annesteenbeek	2:95ba9f6f0128	157	motor2.write(0);
annesteenbeek	0:525558a26464	158	}
annesteenbeek	0:525558a26464	159	}
annesteenbeek	0:525558a26464	160
annesteenbeek	31:8fbee6c92753	161	void writeMotors(){
annesteenbeek	54:c14c3bc48b8a	162	motor1PID.Compute(); // calculate PID outputs, output changes automatically
annesteenbeek	76:0aa90e728e4a	163	motor2PID.Compute();
annesteenbeek	31:8fbee6c92753	164	// write new values to motor's
annesteenbeek	82:4cc8f9ad3fec	165	if (motor1SetSpeed > 0 ){ // CCW rotation
annesteenbeek	31:8fbee6c92753	166	direction1 = false;
annesteenbeek	84:df770ec4df61	167	motor1PID.SetOutputLimits(0,1); // change pid output direction
annesteenbeek	31:8fbee6c92753	168	}else{
annesteenbeek	31:8fbee6c92753	169	direction1 = true; // CW rotation
annesteenbeek	83:8fa05f53fc73	170	motor1PID.SetOutputLimits(-1,0);
annesteenbeek	31:8fbee6c92753	171	}
annesteenbeek	82:4cc8f9ad3fec	172	if (motor2SetSpeed > 0 ){ // CCW rotation
annesteenbeek	68:21cb054f1399	173	direction2 = false;
annesteenbeek	83:8fa05f53fc73	174	motor2PID.SetOutputLimits(0,1);
annesteenbeek	68:21cb054f1399	175	}else{
annesteenbeek	68:21cb054f1399	176	direction2 = true; // CW rotation
annesteenbeek	83:8fa05f53fc73	177	motor2PID.SetOutputLimits(-1,0);
annesteenbeek	68:21cb054f1399	178	}
annesteenbeek	31:8fbee6c92753	179	motor1Dir.write(direction1);
annesteenbeek	31:8fbee6c92753	180	motor2Dir.write(direction2);
annesteenbeek	69:37f75a7d36d8	181
annesteenbeek	52:2ac9dee099ce	182	motor1.write(abs(motor1PWM));
annesteenbeek	76:0aa90e728e4a	183	motor2.write(abs(motor2PWM));
annesteenbeek	31:8fbee6c92753	184	}
annesteenbeek	31:8fbee6c92753	185
annesteenbeek	0:525558a26464	186	void servoControl(){
annesteenbeek	107:de47331612d9	187	servo.SetPosition(1300 + 700*servoSpeed);
annesteenbeek	25:874675516927	188	}
annesteenbeek	25:874675516927	189
annesteenbeek	106:1773bf7b95c5	190	bool calibrateMotors(){
annesteenbeek	98:25528494287d	191	safetyOn = false; // safety springs off
annesteenbeek	98:25528494287d	192	motorsEnable = true; // motors on
annesteenbeek	98:25528494287d	193	redLed.write(0); greenLed.write(1); blueLed.write(1);
annesteenbeek	98:25528494287d	194	while (calibrating1 \|\| calibrating2){
annesteenbeek	98:25528494287d	195	if (calibrating1){
annesteenbeek	110:a6439e13be8b	196	motor1SetSpeed = motorCalSpeed;
annesteenbeek	98:25528494287d	197	redLed.write(1); greenLed.write(0); blueLed.write(1);
annesteenbeek	98:25528494287d	198	if(safetyIn.read() !=1){ // check if arm reached safety position
annesteenbeek	98:25528494287d	199	encoder1.setPosition(0); // set motor 1 cal angle
annesteenbeek	98:25528494287d	200	motor1SetSpeed = returnSpeed; // move away
annesteenbeek	98:25528494287d	201	springHit = true;
annesteenbeek	98:25528494287d	202	}else{
annesteenbeek	98:25528494287d	203	if(springHit){ // if hit and after is no longer touching spring
annesteenbeek	98:25528494287d	204	motor1SetSpeed = 0;
annesteenbeek	98:25528494287d	205	springHit = false;
annesteenbeek	98:25528494287d	206	calibrating1 = false;
annesteenbeek	98:25528494287d	207	calibrating2 = true; // start calibrating 2
annesteenbeek	98:25528494287d	208	}
annesteenbeek	98:25528494287d	209	}
annesteenbeek	98:25528494287d	210	}
annesteenbeek	98:25528494287d	211	if (calibrating2){
annesteenbeek	98:25528494287d	212	motor2SetSpeed = motorCalSpeed;
annesteenbeek	98:25528494287d	213	redLed.write(1); greenLed.write(1); blueLed.write(0);
annesteenbeek	98:25528494287d	214	if(safetyIn.read() !=1){ // check if arm reached safety position
annesteenbeek	98:25528494287d	215	encoder2.setPosition(0); // set motor 2 cal angle
annesteenbeek	98:25528494287d	216	motor2SetSpeed = returnSpeed; // move away
annesteenbeek	98:25528494287d	217	springHit = true;
annesteenbeek	98:25528494287d	218	}else{
annesteenbeek	98:25528494287d	219	if(springHit){ // if hit and after is no longer touching spring
annesteenbeek	98:25528494287d	220	motor2SetSpeed = 0;
annesteenbeek	98:25528494287d	221	springHit = false;
annesteenbeek	98:25528494287d	222	calibrating2 = false; // stop calibrating 2
annesteenbeek	98:25528494287d	223	}
annesteenbeek	98:25528494287d	224	}
annesteenbeek	98:25528494287d	225	}
annesteenbeek	98:25528494287d	226	now = t.read(); // call motor using timer instead of wait
annesteenbeek	98:25528494287d	227	if(now - lastCall > motorCall){
annesteenbeek	98:25528494287d	228	motorControl();
annesteenbeek	98:25528494287d	229	lastCall = now;
annesteenbeek	98:25528494287d	230	}
annesteenbeek	98:25528494287d	231
annesteenbeek	98:25528494287d	232	}
annesteenbeek	99:7030e9790b1d	233	motorsEnable = false; // turn motor's off again
annesteenbeek	76:0aa90e728e4a	234	safetyOn = true; // turn safety on after callibration
annesteenbeek	110:a6439e13be8b	235	return true; // return true when finished
annesteenbeek	74:75be98779124	236	}
annesteenbeek	74:75be98779124	237
annesteenbeek	74:75be98779124	238
annesteenbeek	74:75be98779124	239	void safety(){
annesteenbeek	74:75be98779124	240	if (safetyOn){
annesteenbeek	81:71e7e98deb2c	241	if (safetyIn.read() != 1){
annesteenbeek	79:cf500b63f349	242	motorsEnable = false;
annesteenbeek	79:cf500b63f349	243	}
annesteenbeek	74:75be98779124	244	}
annesteenbeek	79:cf500b63f349	245	}
annesteenbeek	106:1773bf7b95c5	246
annesteenbeek	106:1773bf7b95c5	247
annesteenbeek	109:026abd708dce	248	//bool kinematics(){
annesteenbeek	107:de47331612d9	249	// // calculate current x and Y
annesteenbeek	107:de47331612d9	250	// X = L2cos((motor1Pos + motor2Pos)PI/180) + L1cos(motor1PosPI/180);
annesteenbeek	107:de47331612d9	251	// Y = L2sin((motor1Pos + motor2Pos)PI/180) + L1sin(motor1PosPI/180);
annesteenbeek	107:de47331612d9	252	// // check if x and y are within limits
annesteenbeek	107:de47331612d9	253	// // else Store the constraint line
annesteenbeek	107:de47331612d9	254	// // check if movement is in direction of constraint
annesteenbeek	107:de47331612d9	255	// // else return false no movement (anglespeed = 0)
annesteenbeek	107:de47331612d9	256	// // calculate required angle speeds
annesteenbeek	107:de47331612d9	257	// if( (X>Xmax && setXSpeed > 0 )\|\| \
annesteenbeek	107:de47331612d9	258	// (X<Xmin && setXSpeed < 0 )\|\| \
annesteenbeek	107:de47331612d9	259	// (Y>Ymax && setYSpeed > 0 )\|\| \
annesteenbeek	107:de47331612d9	260	// (Y<Ymin && setYSpeed < 0 ) \
annesteenbeek	107:de47331612d9	261	// ){
annesteenbeek	107:de47331612d9	262	// motor1SetSpeed = 0;
annesteenbeek	107:de47331612d9	263	// motor2SetSpeed = 0;
annesteenbeek	107:de47331612d9	264	// return false;
annesteenbeek	107:de47331612d9	265	// break;
annesteenbeek	107:de47331612d9	266	// }
annesteenbeek	107:de47331612d9	267	// motor1SetSpeed = (setXSpeedcos((motor1Pos + motor2Pos)PI/180) + \
annesteenbeek	107:de47331612d9	268	// setYSpeedsin((motor1Pos + motor2Pos)PI/180))/(L1sin(motor2PosPI/180));
annesteenbeek	107:de47331612d9	269	// motor2SetSpeed = -(setXSpeedL2cos((motor1Pos + motor2Pos)*PI/180) + \
annesteenbeek	107:de47331612d9	270	// setYSpeedL2sin((motor1Pos + motor2Pos)*PI/180) + \
annesteenbeek	107:de47331612d9	271	// setXSpeedL1cos(motor1Pos*PI/180) + \
annesteenbeek	107:de47331612d9	272	// setYSpeedL1sin(motor1PosPI/180))/(L1L2sin(motor2PosPI/180));
annesteenbeek	106:1773bf7b95c5	273
annesteenbeek	109:026abd708dce	274	//}

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Type:	Program
Mbed OS support:	Mbed 2 deprecated
Created:	28 Sep 2015
Imports:	4
Forks:	0
Commits:	131
Dependents:	0
Dependencies:	5
Followers:	7

actuators.cpp@110:a6439e13be8b, 2015-10-27 (annotated)

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