can someone help me convert arduino code to matlab code
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const int sensorPin = A0; int sensorVal = 0; unsigned long pulseCounter = 0; unsigned long firstPulseStartTime = 0; unsigned long secondPulseStartTime = 0; unsigned long time_between_pulses = 0; const unsigned long refractoryPeriod = 300; const double minutes_in_milliseconds = 60000;
//When you have determined your threshold, declare your variable //right below this line. This will change from person to person. const double threshold = 0.33;
void setup() { Serial.begin(115200);
delay(2000); //a slight delay for system stabilization
}
void loop() { //creates a timer variable to keep track of time unsigned long timer = millis();
sensorVal = analogRead(sensorPin);
double voltage = convertToVoltage(sensorVal);
double absorbance = calculateAbsorbance(voltage);
long time_between_pulses = detectThreshold(absorbance);
int pulseRate = calculatePulseRate(time_between_pulses);
displayPulseInLabVIEW(absorbance, pulseRate);
//small delay to change our sampling rate
//and stabilize our signal
delay(25);
}
//displayPulseInLabVIEW() //Outputs the data via serial communication. LabVIEW reads the //data coming in and plots the pulse waveform as well as the //pulse rate void displayPulseInLabVIEW(double absorbance, int pulseRate) { //Serial.print allows us to output the data //via serial communication Serial.print(absorbance,5); Serial.print("\t"); Serial.print(pulseRate); Serial.println(); }
//convertToVoltage() //Does the calculation to convert the Arduino's analog-to-digital //converter number to a voltage. This function then returns the //value to the rest of the program. double convertToVoltage(double ADC_Val) { double volt = 0;
//please put your calculation in between
//the "=" and the ";"
//NOTE: you will use the variable "ADC_Val" for your
//calculation. It is case senstive and must be written with
//the underscore as well. It does not include the quotation
//marks (of course). It is the value currently outputted
//by your analog to digital converter
volt = 5*(ADC_Val/1023);
return volt;
}
//calculateAbsorbance() //Does the caluclation to convert the voltage to an absorbance. //The value of the absorbance is then returned to the rest of //the program double calculateAbsorbance(double volt) { double absorbance = 0;
//please put your calculation in between
//the parentheses of the log function
//NOTE: you will use the variable "volt" in your calculation.
//It is case sensitive and does not include the quotation
//marks (of course). The variable "volt" is the current
//voltage being read by the Arduino
absorbance = log10(5/volt);
return absorbance;
}
//calculatePulseRate() //This method calculates pulse rate by dividing 60 seconds by the //time between subsequent pulses double calculatePulseRate(long time_between_pulses) { return minutes_in_milliseconds/time_between_pulses; }
//detectThreshold() //This method detects whether the signal has passed our //threshold and determines the time between subsequent peaks long detectThreshold(double absorbance) { if (millis() - firstPulseStartTime >= refractoryPeriod && absorbance >= threshold) { if (pulseCounter == 0) { pulseCounter++; firstPulseStartTime = millis(); } else if (pulseCounter == 1) { secondPulseStartTime = millis(); time_between_pulses = secondPulseStartTime - firstPulseStartTime; firstPulseStartTime = secondPulseStartTime; } }
return time_between_pulses;
}
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