Affordable Smart Wheelchair
Summer 19 code
Dependencies: wheelchaircontrol
main.cpp
- Committer:
- t1jain
- Date:
- 2019-07-02
- Revision:
- 18:94ae9ca5a709
- Parent:
- 17:770a161346ed
File content as of revision 18:94ae9ca5a709:
#include "wheelchair.h"
QEI wheel (D10, D9, NC, 1200); // Initializes right encoder
DigitalIn pt3(D10, PullUp); // Pull up resistors to read analog signals into digital signals
DigitalIn pt4(D9, PullUp);
DigitalIn e_button(D6, PullDown); // Change to PullUp if testing without Emergency Button Connected
QEI wheelS (D7, D8, NC, 1200); // Initializes Left encoder
DigitalIn pt1(D7, PullUp); // Pull up resistors to read analog signals into digital signals
DigitalIn pt2(D8, PullUp);
int max_velocity;
AnalogIn x(A0); // Initializes analog axis for the joystick
AnalogIn y(A1);
//Watchdog limit should be 0.1; Set to 1 for Testing Only
double watchdogLimit = 1; // Set timeout limit for watchdog timer in seconds
int buttonCheck = 0;
int iteration = 1;
DigitalOut up(D12); // Turn up speed mode for joystick
DigitalOut down(D13); // Turn down speed mode for joystick
PwmOut on(PE_6); // Turn Wheelchair On
PwmOut off(PE_5); // Turn Wheelchair Off
bool manual = false; // Turns chair joystic to automatic and viceverza
Serial pc(USBTX, USBRX, 57600); // Serial Monitor
VL53L1X sensor1(PD_13, PD_12, PC_7); // Initializes ToF sensors
VL53L1X sensor2(PD_13, PD_12, PA_15);
VL53L1X sensor3(PD_13, PD_12, PB_5);
VL53L1X sensor4(PD_13, PD_12, PF_14);
VL53L1X sensor5(PD_13, PD_12, PE_11);
VL53L1X sensor6(PD_13, PD_12, PE_13);
VL53L1X sensor7(PD_13, PD_12, D6);
VL53L1X sensor8(PD_13, PD_12, PE_12);
VL53L1X sensor9(PD_13, PD_12, PE_10);
VL53L1X sensor10(PD_13, PD_12, PE_15);
VL53L1X sensor11(PD_13, PD_12, D6);
VL53L1X sensor12(PB_11, PB_10, D11);
VL53L1X* ToF[12] = {&sensor1, &sensor2, &sensor3, &sensor4, &sensor5, &sensor6,
&sensor7, &sensor8, &sensor9, &sensor10, &sensor11, &sensor12}; // Puts ToF sensor pointers into an array
VL53L1X** ToFT = ToF;
Timer t; // Initialize time object t
EventQueue queue; // Class to organize threads
Wheelchair smart(xDir,yDir, &pc, &t, &wheel, &wheelS, ToFT); // Initialize wheelchair object
Thread compass; // Thread for compass
Thread velocity; // Thread for velosity
Thread ToFSafe; // Thread for safety stuff
Thread emergencyButton; // Thread to check button state and reset device
int main(void)
{
/* nh.initNode();
nh.advertise(chatter);
nh.advertise(chatter2);
nh.subscribe(sub);*/
pc.printf("before starting\r\n");
//queue.call_every(SAMPLEFREQ, &smart, &Wheelchair::compass_thread); // Sets up sampling frequency of the compass thread
queue.call_every(SAMPLEFREQ, &smart, &Wheelchair::velocity_thread); // Sets up sampling frequency of the velocity thread
queue.call_every(SAMPLEFREQ, &smart, &Wheelchair::ToFSafe_thread); // Sets up sampling frequency of the ToF safety thread
//queue.call_every(200, rosCom_thread); // Sets up sampling frequency of the ROS com thread
queue.call_every(SAMPLEFREQ, &smart, &Wheelchair::emergencyButton_thread); // Sets up sampling frequency of the emergency button thread
t.reset();
//compass.start(callback(&queue, &EventQueue::dispatch_forever)); // Starts running the compass thread
velocity.start(callback(&queue, &EventQueue::dispatch_forever)); // Starts running the velocity thread
ToFSafe.start(callback(&queue, &EventQueue::dispatch_forever)); // Starts running the ROS com thread
//ros_com.start(callback(&queue, &EventQueue::dispatch_forever)); // Starts running the ROS com thread
emergencyButton.start(callback(&queue, &EventQueue::dispatch_forever)); // Starts running the emergency button thread
pc.printf("After starting\r\n");
//added
// int emerg_button = e_button;
Watchdog dog; // Creates Watchdog object
dog.Configure(watchdogLimit); // Configures timeout for Watchdog
pc.printf("Code initiated\n");
int set = 0;
while(1) {
if( pc.readable()) {
set = 1;
char c = pc.getc(); // Read the instruction sent
if( c == 'w') {
smart.forward(); // Move foward
}
else if( c == 'a') {
smart.left(); // Turn left
}
else if( c == 'd') {
smart.right(); // Turn right
}
else if( c == 's') {
smart.backward(); // Turn backwards
}
else if( c == 't') {
smart.pid_twistA();
} else if(c == 'v'){
smart.showOdom();
} else if(c == 'o') { // Turns on chair
pc.printf("turning on\r\n");
on = 1;
wait(1);
on = 0;
} else if(c == 'f') { // Turns off chair
pc.printf("turning off\r\n");
off = 1;
wait(1);
off = 0;
} else if(c == 'k'){ // Sends command to go to the kitchen
smart.pid_twistV();
} else if( c == 'm' || manual) { // Turns wheelchair to joystick
pc.printf("turning on joystick\r\n");
manual = true;
t.reset();
while(manual) {
smart.move(x,y); // Reads from joystick and moves
if( pc.readable()) {
char d = pc.getc();
if( d == 'm') { // Turns wheelchair from joystick into auto
pc.printf("turning off joystick\r\n");
manual = false;
}
}
}
}
else {
pc.printf("none \r\n");
smart.stop(); // If nothing else is happening stop the chair
}
}
else {
smart.stop(); // If nothing else is happening stop the chair
}
wait(process);
t.stop();
//pc.printf("Time elapsed: %f seconds and iteration = %d\n", t.read(), iteration);
dog.Service(); // Service the Watchdog so it does not cause a system reset - "Kicking"/"Feeding" the dog
}
}