Christian Burri
This program is for an autonomous robot for the competition at the Hochschule Luzern. We are one of the 32 teams. <a href="http://cruisingcrepe.wordpress.com/">http://cruisingcrepe.wordpress.com/</a> The postition control is based on this Documentation: Control of Wheeled Mobile Robots: An Experimental Overview from Alessandro De Luca, Giuseppe Oriolo, Marilena Vendittelli. For more information see here: <a href="http://www.dis.uniroma1.it/~labrob/pub/papers/Ramsete01.pdf">http://www.dis.uniroma1.it/~labrob/pub/papers/Ramsete01.pdf</a>
Fork of
autonomousRobotAndroid
by 
Christian Burri
main.cpp
- Committer:
- chrigelburri
- Date:
- 2013-03-03
- Revision:
- 2:d8e1613dc38b
- Parent:
- 1:6cd533a712c6
- Child:
- 3:92ba0254af87
File content as of revision 2:d8e1613dc38b:
/**
* @author Christian Burri
*
* @section LICENSE
*
* Copyright © 2013 HSLU Pren Team #1 Cruising Crêpe
* All rights reserved.
*
* @section DESCRIPTION
*
* ?????
*
*/
#include "mbed.h"
#include "math.h"
#include "defines.h"
#include "State.h"
#include "HMC5883L.h"
#include "HMC6352.h"
#include "RobotControl.h"
#include "Ping.h"
#include "PowerControl/EthernetPowerControl.h"
// LiPo Batterie
AnalogIn battery(p15); // Battery check
// compass
//HMC5883L compass(p9, p10, PERIOD_COMPASS); // sda, sdl (I2C)
//HMC6352 compass(p9, p10, PERIOD_COMPASS); // sda, sdl (I2C)
//Hallsensor
//hall1, hall2, hall3
Hallsensor hallLeft(p18, p17, p16);
//hall1, hall2, hall3
Hallsensor hallRight(p27, p28, p29);
// Motors
//enb, ready, pwm, actualSpeed, Hallsensor object
MaxonESCON leftMotor(p26, p25, p24, p19, &hallLeft);
//enb, ready, pwm, actualSpeed, Hallsensor object
MaxonESCON rightMotor(p23, p22, p21, p20, &hallRight);
// Robot Control
RobotControl robotControl (&leftMotor, &rightMotor, /*&compass,*/ PERIOD_ROBOTCONTROL);
// Logging & State
state_t s; // stuct state
State state(&s, &robotControl, &leftMotor, &rightMotor, /*&compass,*/ &battery, PERIOD_STATE);
// PC USB communications
Serial pc(USBTX, USBRX);
DigitalOut myled(LED1);
//float magout[3] = {0};
// LiPo Batterie
float batterie_voltage;
int main()
{
/** Normal mbed power level for this setup is around 690mW
* assuming 5V used on Vin pin
* If you don't need networking...
* Power down Ethernet interface - saves around 175mW
* Also need to unplug network cable - just a cable sucks power
*/
PHY_PowerDown();
// robotControl.start();
// compass.setOpMode(HMC6352_CONTINUOUS, 1, 20);
// compass.start();
state.initPlotFile();
robotControl.start();
robotControl.setEnable(false);
wait(0.01);
robotControl.setEnable(true);
wait(0.01);
robotControl.setAllToZero(0, 0, PI/2 );
leftMotor.setPulses(0);
rightMotor.setPulses(0);
state.startTimerFromZero();
state.start();
robotControl.setPositionAngle(0.0f, 1.0f, 17*PI/18);
while(!(s.millis >= 15000)) {
state.savePlotFile(s);
};
robotControl.setPositionAngle(-1.0f, 1.0f, -PI/2);
while(!(s.millis >= 30000)) {
state.savePlotFile(s);
};
robotControl.setPositionAngle(-1.0f, 0.0f, 0.0f);
while(!(s.millis >= 45000)) {
state.savePlotFile(s);
};
robotControl.setPositionAngle(0.0f, 1.0f, PI/2);
while(!(s.millis >= 63000)) {
state.savePlotFile(s);
};
state.savePlotFile(s);
state.closePlotFile();
state.stop();
robotControl.setEnable(false);
}