Eduard Medla / Mbed 2 deprecated Autonomous_quadcopter

Regenerating PPM signal based on distances from ultrasonic sensors, ESP8266 for connectin via wifi. Autonomous quadcopter behaviour, autonomou height holding. Flying direction based on front and back ultrasonic sensors.

Dependencies:   ConfigFile HCSR04 PID PPM2 mbed-rtos mbed

main.cpp

Committer:
edy05
Date:
2017-11-26
Branch:
DistanceRegulation
Revision:
25:69190c222dbf
Parent:
11:002927b2675d
Child:
26:11539036f0fb

File content as of revision 25:69190c222dbf:

#include "mbed.h"
#include "rtos.h"
#include "hardware.h"
#include "Server.h"
#include "PpmRegen.h"
#include "distanceRegulation.h"
#include "hcsr04.h"
#include "PID.h"
#include "ConfigFile.h"

//TEMP


//VARIABLES
uint16_t ppmInChannelsValue[CHANNELS];
volatile uint16_t distance = 0;

//FUNCTIONS
void print_ppmIn(void);

int main(){
    
    pc.baud(115200);
    
    // INITIALIZE CLASSES
    _ppmRegen = new PpmRegen(_interruptPort);
    _sonic = new HCSR04(p29, p30);
    _groundDistance = new PID(0, 0, 0, 10);
    
    // STARTING THREADS
    serverThread.start(serverRun);
    distanceThread.start(distanceRegulationThread);
    
    wait(1);
    
    while(1){
        Thread::wait(osWaitForever);
    }
        
}


void print_ppmIn(){
    _ppmRegen->getAllChannels(ppmInChannelsValue);
    for(uint8_t channel= 0; channel < CHANNELS; channel++){
        pc.printf("PPM In Channel %d: %d \n\r", channel, ppmInChannelsValue[channel]);
    }
    pc.printf("\n\r");
}