Serpentine
/
serpentine_foodcontroller_final
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Dependencies: MMA8451Q TSI mbed
Fork of
foodcontroller_NoWiFi
by 
Serpentine
Diff: foodController.cpp
- Revision:
- 6:57b9a6427bc2
diff -r c4bc5a92390a -r 57b9a6427bc2 foodController.cpp
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/foodController.cpp Thu Jun 09 18:42:57 2016 +0000
@@ -0,0 +1,176 @@
+/**
+ Food Controller
+ foodController.cpp
+ Purpose: This function runs on a FRDM KL25Z. It uses the accelerometer to measure the tilt of the board.
+ It outputs a 2 bit number that describes the direction. The board is also fitted with four LEDS
+ oriented in the following configuration: o8o to provide feedback to the user. This board also
+ makes use of the touch sensor input to set a variable speed for the food, indicated by RGB LED
+ @author Daniel Lock
+ @author Jamie Gnodde
+ @version
+*/
+
+#include "mbed.h"
+#include "TSISensor.h"
+#include "MMA8451Q.h"
+
+#define MMA8451_I2C_ADDRESS (0x1d<<1)
+Serial pc(USBTX, USBRX); // tx, rx used for printing to the PC screen during debugging
+
+DigitalOut gled(LED_GREEN); //Indicator for touch sensor Output speed 1
+DigitalOut bled(LED_BLUE); //Indicator for touch sensor Output speed 2
+DigitalOut rled(LED_RED); //Indicator for touch sensor Output speed 3
+TSISensor tsi; //Setup touch sensor
+MMA8451Q acc(PTE25, PTE24, MMA8451_I2C_ADDRESS); //Setup accelerometer
+DigitalOut lefthigh(PTC7); //LED for left
+DigitalOut leftlow(PTA1);
+DigitalOut righthigh(PTC4); //LED for right
+DigitalOut rightlow(PTA12);
+DigitalOut forwardhigh(PTC0); //LED for forward
+DigitalOut forwardlow(PTC3);
+DigitalOut backwardhigh(PTA2); //LED for backward
+DigitalOut backwardlow(PTD4);
+
+int Direction; //2 bit number to describe direction 0 forward assigned CW
+int Velocity; //2 bit number to vary velocity in game
+
+bool right; //Right or left? right = 1
+bool forward; //Forward or Backward? forward = 1
+
+int main()
+{
+ while (1)
+ {
+
+ float accX=acc.getAccX(); //Measure acceleration in X direction
+ float accY=acc.getAccY(); //Measure acceleration in Y direction
+
+ if (tsi.readDistance() != 0) //Only execute if the touch sensor is being pressed
+ {
+ if (tsi.readDistance() <= 13) //Length of touch sensor divided into three distinct zones, this defines top zone
+ {
+ Velocity = 3; //Top zone -> highest velocity (varies 1-3)
+ rled = 0; //Use the RGB LED as an indicator for which speed is selected
+ bled = 1;
+ gled = 1;
+ }
+ if (tsi.readDistance() > 13 && tsi.readDistance() < 26) //Middle zone of touch sensor
+ {
+ Velocity = 2; //Middle zone -> middle velocity
+ rled = 1; //Use the RGB LED as an indicator for which speed is selected
+ bled = 0;
+ gled = 1;
+ }
+ if (tsi.readDistance() >= 26)
+ {
+ Velocity = 1; //Bottom zone -> lowest velocity
+ rled = 1; //Use the RGB LED as an indicator for which speed is selected
+ bled = 1;
+ gled = 0;
+ }
+
+ printf("x=%d\r\n",Velocity); //Print the velocity to the serial for debugging
+
+ wait(0.2); //May be left over from debugging?
+
+ }//endif touch sensor
+
+ //Establish whether the board is tilted left or right
+ if (accX > 0.1)
+ {
+ right = false;
+ //printf("left \r\n");
+ }//endif
+
+ if (accX < -0.1)
+ {
+ right = true;
+ //printf("right \r\n");
+ }//endif
+
+ wait(0.1); //May be left over from debugging?
+
+ //Establish whether the board is tilted front or back
+ if (accY > 0.1)
+ {
+ forward = false;
+ //printf("back \r\n");
+ }//endif
+
+ if (accY < -0.1)
+ {
+ forward = true;
+ //printf("for \r\n");
+ }//endif
+
+ wait(0.1); //May be left over from debugging?
+
+ //Establish the main axis of tilting so that the control outputs one direction
+ if(abs(accY) > abs(accX))
+ {
+ if(forward == true)
+ {
+ Direction = 0; //Direction variable is a two bit number 0-3 0 is forward
+
+ lefthigh = 0; //Light up the forward LED, make sure all others are off
+ leftlow = 0;
+ righthigh = 0;
+ rightlow = 0;
+ forwardhigh = 1;
+ forwardlow = 0;
+ backwardhigh = 0;
+ backwardlow = 0;
+
+ }//endif
+ else
+ {
+ Direction = 2; //Direction variable is a two bit number 0-3 2 is backward
+
+ lefthigh = 0; //Light up the backward LED, make sure all others are off
+ leftlow = 0;
+ righthigh = 0;
+ rightlow = 0;
+ forwardhigh = 0;
+ forwardlow = 0;
+ backwardhigh = 1;
+ backwardlow = 0;
+
+ }//endelse
+ }//endif
+ else
+ {
+ if(right == true)
+ {
+ Direction = 1; //Direction variable is a two bit number 0-3 1 is right
+
+ lefthigh = 0; //Light up the right LED, make sure all others are off
+ leftlow = 0;
+ righthigh = 1;
+ rightlow = 0;
+ forwardhigh = 0;
+ forwardlow = 0;
+ backwardhigh = 0;
+ backwardlow = 0;
+
+ }//endif
+ else
+ {
+ Direction = 3; //Direction variable is a two bit number 0-3 3 is left
+
+ lefthigh = 1; //Light up the left LED, make sure all others are off
+ leftlow = 0;
+ righthigh = 0;
+ rightlow = 0;
+ forwardhigh = 0;
+ forwardlow = 0;
+ backwardhigh = 0;
+ backwardlow = 0;
+
+ }//endelse
+ }//endelse
+
+ printf("Direction = %d \r\n", Direction); //Print the direction variable to screen for debugging
+
+ }//endwhile
+}//endmain
+