Пример #1
0
task MapRoom()
{

	float botLastXCoordinate = 0.0;
	float botLastYCoordinate = 0.0;
	float botCurrentXCoordinate = 0.0;
	float botCurrentYCoordinate = 0.0;
	int wallXCoordinate = 0;
	int wallYCoordinate = 0;
	int xCoordinateDisplayOffset = 50;
	int yCoordinateDisplayOffset = 40;

	startGyro();
	resetGyro();
	eraseDisplay();

	while(true)
	{
		//Robot position
		botCurrentXCoordinate = botLastXCoordinate + EncoderDistance(ReadEncoderValue()) * sinDegrees(readGyro());
		botCurrentYCoordinate = botLastYCoordinate + EncoderDistance(ReadEncoderValue()) * cosDegrees(readGyro());

		//Wall mapping
		wallXCoordinate = botCurrentXCoordinate + ReadSonar(2) * CENTIMETERS_TO_INCHES * cosDegrees(readGyro());
		wallYCoordinate = botCurrentYCoordinate + ReadSonar(2) * CENTIMETERS_TO_INCHES * sinDegrees(readGyro());

		nxtSetPixel(wallXCoordinate + xCoordinateDisplayOffset, wallYCoordinate + yCoordinateDisplayOffset);
		ResetEncoderValue();
		botLastXCoordinate = botCurrentXCoordinate;
		botLastYCoordinate = botCurrentYCoordinate;
		wait1Msec(20);
	}
}
Пример #2
0
void DrawParticles()
{
  for (int i=0; i < NUM_PARTICLES; i++)
  {
    nxtSetPixel((int)(99 - ((particles[i][1]+xoff)/DISPLAY_SCALE)), (int)(63 - ((particles[i][0]+yoff)/DISPLAY_SCALE)));
  }
}
Пример #3
0
task main()
{
	eraseDisplay();

	// Array for accumulating Gaussian values
	int accumulator[100];
	for (int i = 0; i < 99; i++) {
		accumulator[i] = 0;
	}

	// Infinite loop
	while(1)
	{
		// Get and print uniform-distributed and Gaussian-distributed random numbers
		float uniform_float = sampleUniform(1.0);
		float gaussian_float = sampleGaussian(0.0, 1.0);
		nxtDisplayString(1, "Uniform : %04f", uniform_float);
		nxtDisplayString(2, "Gaussian: %04f", gaussian_float);

		// Build a histogram of Gaussian numbers and plot on the NXT screen

		// Scale random number to screen resolution
		int gaussian_int = (int) (gaussian_float * 10.0) + 50;
		accumulator[gaussian_int]++;
		nxtSetPixel(gaussian_int, accumulator[gaussian_int]);

		wait1Msec(10);
	}

}
Пример #4
0
void drawParticles()
{
	// Draw the particle set
	for (int i = 0; i < NUMBER_OF_PARTICLES; i++) {
		nxtSetPixel((int)(xArray[i]/DISPLAY_SCALE), (int)(yArray[i]/DISPLAY_SCALE));
	}

}
Пример #5
0
void Backward40cm(){
  motor[rightWheel] = ForwardSpeed*-1;
  motor[leftWheel] = ForwardSpeed*-1;
  int i;
  for ( i = 0 ; i < StraightTime ; i+=timeUnit) {
    nxtSetPixel( x , y );
    x -= cosDegrees(angle);
    y -= sinDegrees(angle);
    //wait1Msec(timeUnit);
  }
}
Пример #6
0
void Forward40cm(){
  motor[rightWheel] = ForwardSpeed;
  motor[leftWheel] = ForwardSpeed;
  int i;
  for (i = 0; i < StraightTime; i += timeUnit) {
    nxtSetPixel( x , y );
    x += cosDegrees(angle);
    y += sinDegrees(angle);
    wait1Msec(timeUnit);
  }
}
void doDrawPoint(int top, int x_pos, int y_pos) {
	nxtEraseRect(x_pos, 63, x_pos+5, 0);
	if (displayUnit == showcurrent)
	  nxtDisplayCenteredTextLine(7, "Max: %d mA", top);
	else if (displayUnit == showvoltage)
	  nxtDisplayCenteredTextLine(7, "Max: %d mV", top);
	nxtDisplayStringAt(0, 12, "0");
	nxtDrawLine(10, 10, 10, 60);
	nxtDrawLine(10, 10, 15, 10);
	nxtDrawLine(10, 35, 15, 35);
	nxtDrawLine(10, 60, 15, 60);

	nxtSetPixel(x_pos, y_pos);
}
task main () {
  nxtDisplayCenteredTextLine(0, "MindSensors");
  nxtDisplayCenteredBigTextLine(1, "TouchPnl");
  nxtDisplayCenteredTextLine(3, "Noise-a-Tron");
  nxtDisplayCenteredTextLine(5, "Connect sensor");
  nxtDisplayCenteredTextLine(6, "to S3");
  wait1Msec(2000);
  eraseDisplay();

  int x, y = 0;
  ubyte buttons = 0;
  int multiplierX = 10;
  int multiplierY = 10;
  while (true) {
    if (!MSTPgetTouch(MSTP, x, y, buttons))
      PlaySound(soundBlip);
    else if (isButtonTouched(buttons, BUTTON_L1))
      multiplierX = 10;
    else if (isButtonTouched(buttons, BUTTON_L2))
      multiplierX = 15;
    else if (isButtonTouched(buttons, BUTTON_L3))
      multiplierX = 20;
    else if (isButtonTouched(buttons, BUTTON_L4))
      multiplierX = 25;
    else if (isButtonTouched(buttons, BUTTON_R1))
      multiplierY = 10;
    else if (isButtonTouched(buttons, BUTTON_R2))
      multiplierY = 15;
    else if (isButtonTouched(buttons, BUTTON_R3))
      multiplierY = 20;
    else if (isButtonTouched(buttons, BUTTON_R4))
      multiplierY = 25;

    else if (x > 0 && y > 0)
    {
      PlayImmediateTone(x * multiplierX, 1);
      wait1Msec(10);
      PlayImmediateTone(y * multiplierY, 1);
      nxtSetPixel(x, y);
    }
    EndTimeSlice();
  }
}
Пример #9
0
/*****************************************
* Function that draws a grid on the LCD
* for easier readout of whatever is plot
*****************************************/
void draw_grid()
{
	for(int i = 0; i < 65; i++)
	{
		nxtSetPixel(50, i);
		int grid5 = (i - 32) % 5;
		int grid10 = (i - 32) % 10;
		if(!grid5 && grid10)
		{
			for(int j = -2; j < 3; j++)
			{
				nxtSetPixel(50 + j, i);
			}
		}
		else if(!grid10)
		{
			for(int j = -4; j < 5; j++)
			{
				nxtSetPixel(50 + j, i);
			}
		}
	}
	for(int i = 0; i < 101; i++)
	{
		nxtSetPixel(i, 32);
		int grid5 = (i - 100) % 5;
		int grid10 = (i - 100) % 10;
		if(!grid5 && grid10)
		{
			for(int j = -2; j < 3; j++)
			{
				nxtSetPixel(i, 32 + j);
			}
		}
		else if(!grid10)
		{
			for(int j = -4; j < 5; j++)
			{
				nxtSetPixel(i, 32 + j);
			}
		}
	}
}
Пример #10
0
void drawPosition()
{
  nxtSetPixel((x )/scale +10,(y )/scale+10 );
}
Пример #11
0
void dead_reckoning()
{
		float cur_time = nPgmTime;
		if(first_time){
			prev_time = cur_time;
			first_time = 0;
			wait1Msec(velocityUpdateInterval);
			return;
		}
		//
		//Fill in code for numerical integration / position estimation here
		//

		float dt = 1000*(cur_time-prev_time);
		/* Numerical Integration */
		float cur_r = nMotorEncoder[motorB];
		float cur_l = nMotorEncoder[motorC];
    //writeDebugStreamLine("cur_r = %f, cur_l = %f", cur_r, cur_l);
		vl = (cur_l - previous_tick_l)/dt*(PI/180);
		vr = (cur_r - previous_tick_r)/dt*(PI/180);

		//Left_Wheel_Velocity = vl;
		//Right_Wheel_Velocity = vr;
		//writeDebugStreamLine("previous_tick_r = %f, previous_tick_l = %f", previous_tick_r, previous_tick_l);


		float Vleft = vl*Radius;
		float Vright = vr*Radius;

		float v = (Vleft+Vright)/2;
		float w = (Vright-Vleft)/L;

		float k00 = v*cos(robot_TH);
		float k01 = v*sin(robot_TH);
		float k02 = w;
		float k10 = v*cos(robot_TH+(dt/2)*k02);
		float k11 = v*sin(robot_TH+(dt/2)*k02);
		float k12 = w;
		float k20 = v*cos(robot_TH+(dt/2)*k12);
		float k21 = v*sin(robot_TH+(dt/2)*k12);
		float k22 = w;
		float k30 = v*cos(robot_TH+dt*k22);
		float k31 = v*sin(robot_TH+dt*k22);
		float k32 = w;

    robot_X = robot_X + (dt/6)*(k00+2*(k10+k20)+k30);
    robot_Y = robot_Y + (dt/6)*(k01+2*(k11+k21)+k31);
    robot_TH = robot_TH + (dt/6)*(k02+2*(k12+k22)+k32);
    robot_TH = modulus(robot_TH, 2*PI);
		//Code that plots the robot's current position and also prints it out as text
		nxtSetPixel(50 + (int)(100.0 * robot_X), 32 + (int)(100.0 * robot_Y));
		nxtDisplayTextLine(0, "X: %f", robot_X);
		nxtDisplayTextLine(1, "Y: %f", robot_Y);
		nxtDisplayTextLine(2, "t: %f", 57.2958 * robot_TH);
		prev_time = cur_time;
		previous_tick_l = cur_l;
		previous_tick_r = cur_r;

		pen_X = cos(robot_TH)*LX - sin(robot_TH)*LY + robot_X;
		pen_Y = sin(robot_TH)*LX + cos(robot_TH)*LY + robot_Y;
/*		float xp, yp;
		xp = cosDegrees(57.2958*robot_TH)*lx - sinDegrees(57.2958*robot_TH)*ly;
		yp = sinDegrees(57.2958*robot_TH)*lx + cosDegrees(57.2958*robot_TH)*ly;
		nxtDisplayTextLine(3, "xp: %f", xp);
		nxtDisplayTextLine(4, "yp: %f", yp);*/

		wait1Msec(velocityUpdateInterval);
}
Пример #12
0
void drawPosition(float x, float y)
{
    // Draw new position
    nxtSetPixel((int) (encoderToCm(x)/DISPLAY_SCALE) + OFFSET, (int) (encoderToCm(y)/DISPLAY_SCALE) + OFFSET);
}
Пример #13
0
void drawPosition(float x, float y)
{
	// Draw new position
	nxtSetPixel((int) (x/DISPLAY_SCALE) + OFFSET, (int) (y/DISPLAY_SCALE) + OFFSET);
}
Пример #14
0
/*
 * Draws pixels to screen. Note screen coords are flipped so that start orientation appears same as robot's
 * start orientation.
 */
void Draw()
{
  nxtSetPixel((int)(99 - ((y+xoff)/DISPLAY_SCALE)), (int)(63 - ((x+yoff)/DISPLAY_SCALE)));
}
Пример #15
0
void drawRect(char xCo, char yCo, char percent)
{
  char startX = xCo * 6 + 2;
  char startY = yCo * 6 + 2;
  if(percent == 100)
  {
    nxtFillRect(startX, startY, startX + 5, startY + 5);
  }
  else if(percent == 85)
  {
  	int count = 0;
    char yOffset = 0;
    char xOffset = 0;
    while(count<6)
    {
      char x;

      for(x = 0; x<6; x++)
      {
      if(eightyFivePercent[x+xOffset]==1)
      {
         nxtSetPixel(startX+x, startY + yOffset);
        }

      }
      xOffset += 6;
      yOffset+=1;
      count+=1;
    }

  }
  else if(percent == 75)
  {
    int count = 0;
    char yOffset = 0;
    char xOffset = 0;
    while(count<6)
    {
      char x;

      for(x = 0; x<6; x++)
      {
      if(seventyFivePercent[x+xOffset]==1)
      {
         nxtSetPixel(startX+x, startY + yOffset);
        }

      }
      xOffset += 6;
      yOffset+=1;
      count+=1;
    }
  }
  else if(percent == 67)
  {
  	int count = 0;
   char yOffset = 0;
   char xOffset = 0;
   while(count<6)
   {
      char x;

      for(x = 0; x<6; x++)
      {
      if(sixtySevenPercent[x+xOffset]==1)
      {
         nxtSetPixel(startX+x, startY + yOffset);
        }

      }
      xOffset += 6;
      yOffset+=1;
      count+=1;
    }
  }
  else if(percent == 50)
  {
   int count = 0;
   char yOffset = 0;
   char xOffset = 0;
   while(count<6)
   {
      char x;

      for(x = 0; x<6; x++)
      {
      if(fiftyPercent[x+xOffset]==1)
      {
         nxtSetPixel(startX+x, startY + yOffset);
      }

      }
      xOffset += 6;
      yOffset+=1;
      count+=1;
    }
  }
  else if(percent == 33)
  {
  	int count = 0;
    char yOffset = 0;
    char xOffset = 0;
    while(count<6)
    {
      char x;

      for(x = 0; x<6; x++)
      {
      if(thirtyThreePercent[x+xOffset]==1)
      {
         nxtSetPixel(startX+x, startY + yOffset);
      }

      }
      xOffset += 6;
      yOffset+=1;
      count+=1;
    }
  }
  else if(percent == 25)
  {
  	int count = 0;
    char yOffset = 0;
    char xOffset = 0;
    while(count<6)
    {
      char x;

      for(x = 0; x<6; x++)
      {
        if(twentyfivePercent[x+xOffset]==1)
        {
           nxtSetPixel(startX+x, startY + yOffset);
        }
      }
      xOffset += 6;
      yOffset+=1;
      count+=1;
    }
  }
  else if(percent == 15)
  {
  	int count = 0;
    char yOffset = 0;
    char xOffset = 0;
    while(count<6)
    {
      char x;

      for(x = 0; x<6; x++)
      {
        if(fifteenPercent[x+xOffset]==1)
        {
          nxtSetPixel(startX+x, startY + yOffset);
        }
      }
      xOffset += 6;
      yOffset+=1;
      count+=1;
    }
  }
  else if(percent == 2)
  {
  	int count = 0;
    char yOffset = 0;
    char xOffset = 0;
    while(count<6)
    {
      char x;

      for(x = 0; x<6; x++)
      {
        if(twoPercent[x+xOffset]==1)
        {
          nxtSetPixel(startX+x, startY + yOffset);
        }
      }
      xOffset += 6;
      yOffset+=1;
      count+=1;
    }
  }
}
Пример #16
0
/* Start task functions */
task vehicle_draw_position() {
	while (true) {
		wait1Msec(10);
		nxtSetPixel(20 + (int)(position.x / DISPLAY_SCALE), PRINT_OFFSET_Y + 20 + (int)(position.y / DISPLAY_SCALE));
	}
}