I've been working on my doppler radar speed project for a while. I found this very helpful link and the code below:

// Based on the Adafruit Trinket Sound-Reactive LED Color Organ
// http://learn.adafruit.com/trinket-sound-reactive-led-color-organ/code

#define RADAR A5 // RADAR inut is attached to A7
#define MICRODELAY 100 // 100microseconds ~10000hz
#define MAXINDEX 1024 // 10 bits
#define TOPINDEX 1023 // 10 bits

byte collect[MAXINDEX];
int mean;
int minimum;
int maximum;
int hysteresis; // 1/16 of max-min
bool currentphase; // are value above mean + hysteresis;
int lastnull; // index for last null passing value
int prevnull; // index for previous null passing value
int deltaindex;
int deltadeltaindex;
int index;
bool phasechange = false;

void setup() {
  // put your setup code here, to run once:
  Serial.begin(115200);
  while (!Serial) {}
  index = 0;
  mean = 0;
  maximum = 255;
  minimum = 0;
  hysteresis = 0;
  currentphase = false;
  lastnull = 0;
  prevnull = 0;

  Serial.print("deltadeltaindex");
  Serial.print("\t");
  Serial.print("deltaindex");
  Serial.print("\t");
  Serial.println("delta");
}

void loop() {
  int newVal = analogRead(RADAR); // Raw reading from amplified radar
  mean -= (collect[index] >> 2);
  mean += (newVal >> 2);
  collect[index]= newVal;
  minimum = newVal < minimum ? newVal : minimum + 1;
  maximum = newVal > maximum ? newVal : maximum - 1;
  hysteresis = abs(maximum - minimum) >> 5;

  if(newVal > (mean + hysteresis))
  {
    if(false == currentphase)
    {
      currentphase = true;
      phasechange = true;
    }
  }
  else if(newVal < (mean - hysteresis))
  {
    if(currentphase)
    {
      currentphase = false;      
      phasechange = true;
    }
  }

  if(phasechange)
  {
    prevnull = lastnull;
    lastnull = index;

    int delta = (prevnull > lastnull) ? 
        (lastnull - prevnull + MAXINDEX) : 
        (lastnull - prevnull);
    deltadeltaindex = abs(deltaindex - delta);
    deltaindex = delta;
    Serial.print(deltadeltaindex);
    Serial.print("\t");
    Serial.print(deltaindex);
    Serial.print("\t");
    Serial.println(delta);
  }

  index = index == TOPINDEX ? 0 : index + 1;
  phasechange = false;
  //delayMicroseconds(10);
}

I tried it out on my Arduino with HB100(model with breakout board), and it works just fine.

However, what I really wanted to do was to understand the mechanism behind the code. I read some articles on hysteresis and bit-shifting, but I simply cannot understand why the programmer here used bit-shifting.

What would mean -= (collect[index] >> 2); and mean += (newVal >> 2); do to the values exactly?

Help will be appreciated.

migrated from dsp.stackexchange.com Aug 13 at 11:57

This question came from our site for practitioners of the art and science of signal, image and video processing.

  • 3
    I'm voting to close this question as off-topic because this isn't really a signal processing question; it's a basic digital numbers question. – Marcus Müller Aug 10 at 11:37
  • 1
    Take this hint instead: Write down a number in binary. Make sure you understand what >> 2 does to that number. Convert it back. – Marcus Müller Aug 10 at 11:37

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