1 files changed, 0 insertions, 168 deletions

diff --git a/Detector_Building.ino b/Detector_Building.ino
deleted file mode 100644
index 9d53145..0000000
--- a/Detector_Building.ino
+++ /dev/null
@@ -1,168 +0,0 @@
-/*
- * Detector Building
- * Code by Anthony Wang
- * Ladue High School Science Olympiad
- */
-
-
-/*
- * TODO:
- * BUG FIXING: Expect bugs!
- */
-
-
-// Constants
-const int LED_R = 4, LED_G = 3, LED_B = 2, THERM = 0; // Device component pins
-const double R_k = 10000, V_in = 5, analog_max = 1023; // Device constants
-
-
-// Temperature conversions
-inline double f2c(double f) { return (f - 32) * 5 / 9; } // Fahrenheit to Celsius
-inline double c2f(double c) { return c * 9 / 5 + 32; } // Celsius to Fahrenheit
-inline double k2c(double k) { return k - 273.15; } // Kelvin to Celsius
-inline double c2k(double c) { return c + 273.15; } // Celsius to Kelvin
-inline double f2k(double f) { return c2k(f2c(f)); } // Fahrenheit to Kelvin
-inline double k2f(double k) { return c2f(k2c(k)); } // Kelvin to Fahrenheit
-
-
-// Analog to digital conversion
-inline double a2d(int a) { return V_in * a / analog_max; }
-inline int d2a(double d) { return d * analog_max / V_in; }
-
-  
-// Utility functions
-// No C++ standard library :(
-void sort(double a[], int n) {
-  // Bubble sort
-  // Slow but n < 30 so OK
-  // Too lazy to implement a fast sort
-  for (int i = 0; i < n; i++) {
-    for (int j = 0; j < n - 1; j++) {
-      if (a[j] > a[j + 1]) {
-        double tmp = a[j];
-        a[j] = a[j + 1];
-        a[j + 1] = tmp;
-      }
-    }
-  }
-}
-
-
-// Calibration data
-const int n = 3, m = n / 3; // Number of data points, MUST be multiple of 3
-double V[n] = { 2.5, 3.26, 3.96 }; // Voltage measurements
-double T[n] = { 25, 39.15, 60 }; // Temperature measurements
-double V_mid[m]; // Stores each piecewise segment for binary search
-double A[m], B[m], C[m]; // Coefficients for each piecewise component
-
-
-// Calculations
-// Steinhart-hart stuff
-void calculate() {
-  sort(V, n);
-  sort(T, n);
-  double R[n], L[n], Y[n], G[n];
-  for (int i = 0; i < n; i++) R[i] = R_k * (V_in / V[i] - 1);
-  for (int i = 0; i < n; i++) L[i] = log(R[i]);
-  for (int i = 0; i < n; i++) Y[i] = 1 / c2k(T[i]);
-  for (int i = 0; i < n; i += 3) {
-    G[i + 1] = (Y[i + 1] - Y[i]) / (L[i + 1] - L[i]);
-    G[i + 2] = (Y[i + 2] - Y[i]) / (L[i + 2] - L[i]);
-  }
-  for (int i = 0; i < n; i += 3) { // Don't ask how this works
-    C[i / 3] = (G[i + 2] - G[i + 1]) / (L[i + 2] - L[i + 1]) / (L[i] + L[i + 1] + L[i + 2]);
-    B[i / 3] = G[i + 1] - C[i / 3] * (L[i] * L[i] + L[i] * L[i + 1] + L[i + 1] * L[i + 1]);
-    A[i / 3] = Y[i] - L[i] * (B[i / 3] + L[i] * L[i] * C[i / 3]);
-  }
-  for (int i = 0; i < n; i += 3) V_mid[i / 3] = (i ? (V[i - 1] + V[i]) / 2 : V[i]);
-}
-
-
-// Arduino stuff
-void blink(int pin) {
-  digitalWrite(pin, HIGH);
-  delay(1000);
-  digitalWrite(pin, LOW);  
-}
-void setup() {
-  Serial.begin(9600);
-  pinMode(LED_R, OUTPUT);
-  pinMode(LED_G, OUTPUT);
-  pinMode(LED_B, OUTPUT);
-
-  // blink(LED_R);
-  // blink(LED_G);
-  // blink(LED_B);
-
-  // Debug stuff
-  /*for (int i = 0; i < m; i++) {
-    Serial.print("Segment lower bound: ");
-    Serial.print(i ? V_mid[i - 1] : 0);
-    Serial.print(" Segment upper bound: ");
-    Serial.print(V_mid[i]);
-    Serial.print(" A: ");
-    Serial.print(A[i], 12);
-    Serial.print(" B: ");
-    Serial.print(B[i], 12);
-    Serial.print(" C: ");
-    Serial.print(C[i], 12);
-    Serial.println();
-  }*/
-}
-
-
-// Main loop
-void loop() {
-  int V_raw = analogRead(THERM); // Read in raw analog value
-  double V_out = a2d(V_raw); // Convert analog to digital
-  double R_t = R_k * (V_in / V_out - 1); // Thermistor resistance
-
-  int s = 0;
-  while (s < m && V_out > V_mid[s + 1]) s++; // Find correct segment
-  
-  double logR_t = log(R_t);
-  double K = 1.0 / (A[s] + B[s] * logR_t + C[s] * logR_t * logR_t * logR_t); // Steinhart-hart
-  double C = k2c(K);
-  double F = c2f(C);
-
-  // LED stuff
-  if (C <= 25) {
-    digitalWrite(LED_R, LOW);
-    digitalWrite(LED_G, LOW);
-    digitalWrite(LED_B, HIGH);
-  }
-  else if (C <= 50) {
-    digitalWrite(LED_R, LOW);
-    digitalWrite(LED_G, HIGH);
-    digitalWrite(LED_B, LOW);
-  }
-  else if (C <= 75) {
-    digitalWrite(LED_R, HIGH);
-    digitalWrite(LED_G, LOW);
-    digitalWrite(LED_B, LOW);
-  }
-  else {
-    digitalWrite(LED_R, HIGH);
-    digitalWrite(LED_G, HIGH);
-    digitalWrite(LED_B, HIGH);
-  }
-  
-  // Output voltage, temperature
-  Serial.print("Raw analog reading: ");
-  Serial.print(V_raw);
-  Serial.print(" Voltage (V): ");
-  Serial.print(V_out);
-  Serial.print(" Temperature (°C): ");
-  Serial.print(C);
-  Serial.print(" Temperature (°F): "); // For reference
-  Serial.print(F);
-  
-  // Debug stuff
-  /*Serial.print(" Segment lower bound: ");
-  Serial.print(s ? V_mid[s - 1] : 0);
-  Serial.print(" Segment upper bound: ");
-  Serial.print(V_mid[s]);*/
-
-  Serial.println();
-  delay(500);
-}