Robot-Software_jesse

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Dependencies: HIDScope MODSERIAL QEI biquadFilter mbed

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main.cpp@5:0dd66c757f24, 2018-10-22 (annotated)

Committer:: SvenD97
Date:: Mon Oct 22 19:12:42 2018 +0000
Revision:: 5:0dd66c757f24
Parent:: 0:4cb1de41d049
Child:: 7:b77f2201b156
Child:: 10:7339dca7d604

In the main file, i made the position (x,y) of the end effector global. I removed the previous commit

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User	Revision	Line number	New contents of line
MaikOvermars	0:4cb1de41d049	1	#include "mbed.h"
MaikOvermars	0:4cb1de41d049	2	#include "MODSERIAL.h"
MaikOvermars	0:4cb1de41d049	3	#include "QEI.h"
MaikOvermars	0:4cb1de41d049	4	#include "HIDScope.h"
MaikOvermars	0:4cb1de41d049	5	#include "BiQuad.h"
MaikOvermars	0:4cb1de41d049	6	#include "PID_controller.h"
MaikOvermars	0:4cb1de41d049	7	#include "kinematics.h"
MaikOvermars	0:4cb1de41d049	8
MaikOvermars	0:4cb1de41d049	9	//Define objects
MaikOvermars	0:4cb1de41d049	10	MODSERIAL pc(USBTX, USBRX);
MaikOvermars	0:4cb1de41d049	11	HIDScope scope(2);
MaikOvermars	0:4cb1de41d049	12
MaikOvermars	0:4cb1de41d049	13	AnalogIn emg0( A0 );
MaikOvermars	0:4cb1de41d049	14	AnalogIn emg1( A1 );
MaikOvermars	0:4cb1de41d049	15
MaikOvermars	0:4cb1de41d049	16	PwmOut motor1_pwm(D5);
MaikOvermars	0:4cb1de41d049	17	DigitalOut motor1_dir(D4);
MaikOvermars	0:4cb1de41d049	18	PwmOut motor2_pwm(D7);
MaikOvermars	0:4cb1de41d049	19	DigitalOut motor2_dir(D6);
MaikOvermars	0:4cb1de41d049	20
MaikOvermars	0:4cb1de41d049	21	AnalogIn potmeter1(A2);
MaikOvermars	0:4cb1de41d049	22	AnalogIn potmeter2(A3);
MaikOvermars	0:4cb1de41d049	23	DigitalIn button(D0);
MaikOvermars	0:4cb1de41d049	24
MaikOvermars	0:4cb1de41d049	25	Ticker Sample;
MaikOvermars	0:4cb1de41d049	26	Timer state_timer;
MaikOvermars	0:4cb1de41d049	27
MaikOvermars	0:4cb1de41d049	28	enum States {failure, waiting, calib_enc, calib_emg, operational, demo}; //All possible robot states
MaikOvermars	0:4cb1de41d049	29
MaikOvermars	0:4cb1de41d049	30	//Global variables/objects
MaikOvermars	0:4cb1de41d049	31	States current_state;
MaikOvermars	0:4cb1de41d049	32	Ticker loop_ticker; //The Ticker object that will ensure perfect timing of our looping code
MaikOvermars	0:4cb1de41d049	33	float e, u1, u2, emg_signal_raw_0, processed_emg_0, emg_signal_raw_1, processed_emg_1, robot_end_point, reference_end_point, motor_angle, motor_counts, q_ref; //will be set by the motor_controller function
MaikOvermars	0:4cb1de41d049	34	int counts_per_rotation = 32;
MaikOvermars	0:4cb1de41d049	35	bool state_changed = false;
SvenD97	5:0dd66c757f24	36	double x; // Making the position (x,y) of the end effector global
SvenD97	5:0dd66c757f24	37	double y;
MaikOvermars	0:4cb1de41d049	38
MaikOvermars	0:4cb1de41d049	39	float processing_chain_emg(int num) {
MaikOvermars	0:4cb1de41d049	40	return 6.0;
MaikOvermars	0:4cb1de41d049	41	}
MaikOvermars	0:4cb1de41d049	42
MaikOvermars	0:4cb1de41d049	43	void measure_all()
MaikOvermars	0:4cb1de41d049	44	{
MaikOvermars	0:4cb1de41d049	45	motor_angle = motor_counts2.0f3.1415926535f/counts_per_rotation; //do this here, and not in the encoder interrupt, to reduce computational load
MaikOvermars	0:4cb1de41d049	46	robot_end_point = forwardkinematics_function(motor_angle); //motor_angle is global, this function ne
MaikOvermars	0:4cb1de41d049	47	emg_signal_raw_0 = emg0.read(); //sample analog voltages (all sampling theory applies, you might get aliasing etc.)
MaikOvermars	0:4cb1de41d049	48	emg_signal_raw_1 = emg1.read();
MaikOvermars	0:4cb1de41d049	49	processed_emg_0 = processing_chain_emg(0); // some function ‘float my_emg_processing_chain()’ that returns a float. The raw emg is global
MaikOvermars	0:4cb1de41d049	50	processed_emg_1 = processing_chain_emg(1);
MaikOvermars	0:4cb1de41d049	51	}
MaikOvermars	0:4cb1de41d049	52
MaikOvermars	0:4cb1de41d049	53	void output_all() {
MaikOvermars	0:4cb1de41d049	54	motor1_pwm = fabs(u1);
MaikOvermars	0:4cb1de41d049	55	motor1_dir = u1 > 0.5f;
MaikOvermars	0:4cb1de41d049	56	motor2_pwm = fabs(u2);
MaikOvermars	0:4cb1de41d049	57	motor2_dir = u2 > 0.5f;
MaikOvermars	0:4cb1de41d049	58	static int output_counter = 0;
MaikOvermars	0:4cb1de41d049	59	output_counter++;
MaikOvermars	0:4cb1de41d049	60	if (output_counter == 100) {pc.printf("Something something... %f",u1); output_counter = 0;} //Print to screen at 10 Hz with MODSERIAL
MaikOvermars	0:4cb1de41d049	61	}
MaikOvermars	0:4cb1de41d049	62
MaikOvermars	0:4cb1de41d049	63	void state_machine() {
MaikOvermars	0:4cb1de41d049	64	switch(current_state) { //States can be: failure, wait, calib_enc, calib_emg, operational, demo,
MaikOvermars	0:4cb1de41d049	65	case waiting: //Nothing useful here, maybe a blinking LED for fun and communication to the user
MaikOvermars	0:4cb1de41d049	66	if (button.read()==true)
MaikOvermars	0:4cb1de41d049	67	{
MaikOvermars	0:4cb1de41d049	68	current_state = calib_enc; //the NEXT loop we will be in calib_enc state
MaikOvermars	0:4cb1de41d049	69	}
MaikOvermars	0:4cb1de41d049	70	break; //to avoid falling through to the next state, although this can sometimes be very useful.
MaikOvermars	0:4cb1de41d049	71
MaikOvermars	0:4cb1de41d049	72	case calib_enc:
MaikOvermars	0:4cb1de41d049	73	if (state_changed==true)
MaikOvermars	0:4cb1de41d049	74	{
MaikOvermars	0:4cb1de41d049	75	state_timer.reset();
MaikOvermars	0:4cb1de41d049	76	state_timer.start();
MaikOvermars	0:4cb1de41d049	77	state_changed = false;
MaikOvermars	0:4cb1de41d049	78	}
MaikOvermars	0:4cb1de41d049	79	u1 = 0.6f; //a low PWM value to move the motors slowly (0.0 to 0.45 don’t do much due to friction)
MaikOvermars	0:4cb1de41d049	80	// fabs(motor1.velocity()) < 0.1f &&
MaikOvermars	0:4cb1de41d049	81	if (state_timer.read() > 5.0f) {
MaikOvermars	0:4cb1de41d049	82	current_state = calib_emg; //the NEXT loop we will be in calib_emg state
MaikOvermars	0:4cb1de41d049	83	state_changed = true;
MaikOvermars	0:4cb1de41d049	84	}
MaikOvermars	0:4cb1de41d049	85	break;
MaikOvermars	0:4cb1de41d049	86
MaikOvermars	0:4cb1de41d049	87	case calib_emg: //calibrate emg-signals
MaikOvermars	0:4cb1de41d049	88
MaikOvermars	0:4cb1de41d049	89	break;
MaikOvermars	0:4cb1de41d049	90
MaikOvermars	0:4cb1de41d049	91	case operational: //interpreting emg-signals to move the end effector
MaikOvermars	0:4cb1de41d049	92	if (state_changed==true) { int x = 5; }
MaikOvermars	0:4cb1de41d049	93	// example
MaikOvermars	0:4cb1de41d049	94	reference_end_point = robot_end_point + processed_emg_0;
MaikOvermars	0:4cb1de41d049	95	if (button.read() == true) { current_state = demo; }
MaikOvermars	0:4cb1de41d049	96
MaikOvermars	0:4cb1de41d049	97	break;
MaikOvermars	0:4cb1de41d049	98
MaikOvermars	0:4cb1de41d049	99	case demo: //moving according to a specified trajectory
MaikOvermars	0:4cb1de41d049	100
MaikOvermars	0:4cb1de41d049	101	if (button.read() == true) { current_state = demo; }
MaikOvermars	0:4cb1de41d049	102
MaikOvermars	0:4cb1de41d049	103	break;
MaikOvermars	0:4cb1de41d049	104
MaikOvermars	0:4cb1de41d049	105	case failure: //no way to get out
MaikOvermars	0:4cb1de41d049	106	u1 = 0.0f;
MaikOvermars	0:4cb1de41d049	107	break;
MaikOvermars	0:4cb1de41d049	108	}
MaikOvermars	0:4cb1de41d049	109	}
MaikOvermars	0:4cb1de41d049	110
MaikOvermars	0:4cb1de41d049	111	void motor_controller()
MaikOvermars	0:4cb1de41d049	112	{
MaikOvermars	0:4cb1de41d049	113	if (current_state >= operational) { // we can (ab)use the fact that an enum is actually an integer, so math/logic rules still apply
MaikOvermars	0:4cb1de41d049	114	q_ref = inversekinematics_function(reference_end_point); //many different states can modify your reference position, so just do the inverse kinematics once, here
MaikOvermars	0:4cb1de41d049	115	e = q_ref - motor_angle; //tracking error (q_ref - q_meas)
MaikOvermars	0:4cb1de41d049	116	u1 = PID_controller(e); //feedback controller or with possibly fancy controller additions...;
MaikOvermars	0:4cb1de41d049	117	} //otherwise we just don’t mess with the value of control variable ‘u’ that is set somewhere in the state-machine.
MaikOvermars	0:4cb1de41d049	118	}
MaikOvermars	0:4cb1de41d049	119
MaikOvermars	0:4cb1de41d049	120
MaikOvermars	0:4cb1de41d049	121	void loop_function() {
MaikOvermars	0:4cb1de41d049	122	measure_all(); //measure all signals
MaikOvermars	0:4cb1de41d049	123	state_machine(); //Do relevant state dependent things
MaikOvermars	0:4cb1de41d049	124	motor_controller(); //Do not put different motor controllers in the states, because every state can re-use the same motor-controller!
MaikOvermars	0:4cb1de41d049	125	output_all(); //Output relevant signals, messages, screen outputs, LEDs etc.
MaikOvermars	0:4cb1de41d049	126	}
MaikOvermars	0:4cb1de41d049	127
MaikOvermars	0:4cb1de41d049	128
MaikOvermars	0:4cb1de41d049	129	int main()
MaikOvermars	0:4cb1de41d049	130	{
MaikOvermars	0:4cb1de41d049	131	pc.baud(115200);
MaikOvermars	0:4cb1de41d049	132	motor1_pwm.period_us(60);
MaikOvermars	0:4cb1de41d049	133	motor2_pwm.period_us(60);
MaikOvermars	0:4cb1de41d049	134	current_state = waiting; //we start in state ‘waiting’ and current_state can be accessed by all functions
MaikOvermars	0:4cb1de41d049	135	u1 = 0.0f; //initial output to motors is 0.
MaikOvermars	0:4cb1de41d049	136	loop_ticker.attach(&loop_function, 0.001f); //Run the function loop_function 1000 times per second
MaikOvermars	0:4cb1de41d049	137
MaikOvermars	0:4cb1de41d049	138	while (true) { } //Do nothing here (timing purposes)
MaikOvermars	0:4cb1de41d049	139	}

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Type:	Program
Created:	29 Oct 2018
Imports:	1
Forks:	1
Commits:	14
Dependents:	0
Dependencies:	5
Followers:	6

main.cpp@5:0dd66c757f24, 2018-10-22 (annotated)

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