In this tutorial we will look at making a mobile controlled robot with Explore Robo platform and we will be using arduino software to program the board.

Working

Whenever we make a call, and press keys, dtmf tones are generated and transmitted. The tones can be easily decoded using a IC like MT8870. This enables a lot of possibilities for wireless control over mobile and telephone. We will use it to control the Explore Robo with DTMF.

Code

/*
Demonstrates reading DTMF keys from chip like MT8870 and driving motors with the help
of L293d bridge; making a Mobile controlled Robot.
Tones are read from the DTMF decoder and keys 2, 8, 4, 6 are used to move the robot
FORWARD, BACKWARD, LEFT and RIGHT.
The DTMF interrupt (INT1) is used to read a new key.
 
Check the below link for connections and other details
http://exploreembedded.com/wiki/index.php?title=Explore_Robo  
 
*/
 
int MotorLeft[2] = {A0,A1};//Motor Pins
int MotorRight[2] = {A2,A3};//Motor Pins	
int Mobile[5]={4,5,6,7};// DTMF mobile tones
 
 
volatile int NewTone_Flag = 0;
int volatile NewTone = 0;
 
 
void setup()
{
	MotorInit();
	MobileInit();
	attachInterrupt(1, CheckTone, FALLING);
	//Serial.begin(9600);
	//Serial.println("Mobile controlled Robo");
}
 
 
void loop()
{ 
 
 
	if(NewTone_Flag == 1)
	{ 
		NewTone = ReadTone();
		NewTone_Flag = 0;
	}
 
	switch(NewTone)
	{
		case 2: Robot_Forward();break;
		case 8: Robot_Backward(); break;
		//Notice that in order to use the delay() we need to disable the interuptts. 
		case 4: noInterrupts(); Robot_Left();delay(1000); Robot_Stop(); NewTone = 0; interrupts(); break;
		case 6: noInterrupts(); Robot_Right();delay(1000); Robot_Stop(); NewTone=0; interrupts(); break;
		case 5: Robot_Stop();break;
		default:Robot_Stop();
	}
 
}
 
void CheckTone()
{
	NewTone_Flag = 1;
}
 
int ReadTone()
{
	int MobileTone=0,i;
 
        for(i=0;i<4;i++)
        MobileTone|= digitalRead(Mobile[i])<<i;
	//MobileTone = (digitalRead(Mobile[3])*8)+ (digitalRead(Mobile[2])*4)+(digitalRead(Mobile[1])*2)+(digitalRead(Mobile[0])*1);
	//Serial.print(MobileTone);
	return MobileTone;
}
 
void MobileInit()
{
	int i;
	for(i=0 ; i<5; i++)
	{
		pinMode(Mobile[i],INPUT);
	}
	//first pin will be used as interrupt, hence direction set not required.
}
 
//Initialize the motor
 
void MotorInit()
{
	int i;
	for(i=0 ; i<2; i++)
	{
		pinMode(MotorLeft[i],OUTPUT);
		pinMode(MotorRight[i],OUTPUT);
	}
}
 
//Robot Driving Functions
void Robot_Forward()
{
	digitalWrite(MotorLeft[0],0);
	digitalWrite(MotorLeft[1],1);
	digitalWrite(MotorRight[0],1);
	digitalWrite(MotorRight[1],0);
}
 
void Robot_Backward()
{
	digitalWrite(MotorLeft[0],1);
	digitalWrite(MotorLeft[1],0);
	digitalWrite(MotorRight[0],0);
	digitalWrite(MotorRight[1],1);
}
 
void Robot_Left()
{
	digitalWrite(MotorLeft[0],1);
	digitalWrite(MotorLeft[1],0);
	digitalWrite(MotorRight[0],1);
	digitalWrite(MotorRight[1],0);
}
 
void Robot_Right()
{
	digitalWrite(MotorLeft[0],0);
	digitalWrite(MotorLeft[1],1);
	digitalWrite(MotorRight[0],0);
	digitalWrite(MotorRight[1],1);
}
 
void Robot_Stop()
{
	digitalWrite(MotorLeft[0],0);
	digitalWrite(MotorLeft[1],0);
	digitalWrite(MotorRight[0],0);
	digitalWrite(MotorRight[1],0);
}
 
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