Task 4.3.3 Solution
Dependencies: mbed
main.cpp
- Committer:
- noutram
- Date:
- 2015-09-24
- Revision:
- 0:fa5ec79b26fb
File content as of revision 0:fa5ec79b26fb:
#include "mbed.h" //Constants #define N 10 //Global objects Serial pc(USBTX, USBRX); BusOut binaryOutput(D5, D6, D7); AnalogIn POT_ADC_In(A0); AnalogIn LDR_ADC_In(A1); float xPOT[N]; //Aray of potentiometer samples float xLDR[N]; //Aray of LDR samples //Main function int main() { //Set baud rate to 115200 pc.baud(115200); //Print header pc.printf("POT,LDR,avPOT, acLDR\n\n"); while(1) { //Move the samples in both arrays to the right for (unsigned int n=(N-1); n>0; n--) { xPOT[n] = xPOT[n-1]; xLDR[n] = xLDR[n-1]; } //Insert the new sample at position 0 xPOT[0] = POT_ADC_In; xLDR[0] = LDR_ADC_In; //Calculate average for POT float fSum = 0.0; for (unsigned int n=0; n<N; n++) { fSum += xPOT[n]; } float fPOTAverage = fSum / (float)N; //Calculate average for LDR fSum = 0.0; for (unsigned int n=0; n<N; n++) { fSum += xLDR[n]; } float fLDRAverage = fSum / (float)N; //Write to terminal via Serial interface pc.printf("%6.4f,%6.4f,%6.4f,%6.4f\n", xPOT[N/2], xLDR[N/2], fPOTAverage, fLDRAverage); //Check the threshold if (fLDRAverage > fPOTAverage) { binaryOutput = 0; //Binary 000 } else { binaryOutput = 7; //Binary 111 } //Wait 1/100th second wait(0.01); } //end while(1) } //end main