# Frequency from binary input

Background: I have a IOIO which I am using to measure the output from an photodiode, this is the converted into a digital output. I need to find the frequency at which the signal changes between 1 and 0. Everything I have tryed so far has hanged my test app, any suggestions?

current code:

``````if(diode == 1 && frequencyFound == false){
startTime = System.currentTimeMillis();
while((frequencyFound == false)){
if(diode == 0){
while(frequencyFound == false){
if(diode == 1){
double endTime = System.currentTimeMillis();
time = endTime - startTime;
frequency = (long) (1.0 / time);
frequencyFound = true;
}
}
}
}
}
``````
• Don't you need to do something to actually sample the value of `diode`? Commented May 12, 2012 at 15:50
• Is above code executed in the UI thread (= there is no `AsyncTask` or other type of `Thread` created to execute that code)? That would explain your app hanging.
– zapl
Commented May 12, 2012 at 15:56

There are a couple of issues here.

First, Android is a multi-tasking system, and you could find your timing thread put to sleep long enough to miss some signal transitions. Is there no way to be notified of a leading (or trailing) edge transition rather than sampling the input in a loop?

What sort of frequency are you looking at? Will a 100 ms sampling interval be fine enough?

Don't count on Thread.sleep() to sleep for exactly the time you specify. If the interval is too short, the system might decide to return immediately or it might round the sleep time up to a larger amount.

Your timing loop won't record the time to any precision better than 100ms (at best), so your estimate for the frequency will be very poor.

Watching for a single transition will give you a very imprecise estimate of the frequency. Try something like this instead:

``````// Find frequency to the nearest hz (+/- 10%)
// It's assumed that some other process is responsible for updating the "diode"
// variable.  "diode" must be declared volatile.
long duration = 1000;   // 1 second
final int interval = 100;    // sampling inteval = .1 second
int oldState = diode;
int count = 0;
final long startTime = System.currentTimeMillis();
final long endtime = startTime + duration;
while (System.currentTimeMillis() < endtime) {
// count all transitions, both leading and trailing
if (diode != oldState) {
++count;
oldState = diode;
}
}
// find the actual duration
duration = System.currentTimeMillis() - startTime;
// Compute frequency. The 0.5 term is because we were counting both leading and
// trailing edges.
float frequency = 0.5 * count / (duration/1000);
``````

Two more extreme suggestions for working around some of the timing accuracy concerns Edward raised:

• Do the measurement of interval times on the IOIO board under interrupts, where you can presumably accomplish (at least near-) real time operations. Report these time measurements to the Android device.

• Skip the ioio board and build something simple to route the signal into the headset connector as a tone that turns on or off. Record audio using the built-in timing guarantees of the audio system, and then analyze the audio buffers (real time no longer required) to determine the intervals from the number of intervening audio samples times in units of the (relatively reliable compared to anything you could do in an android app) audio sample rate. You can also get an analog input easily by using the light sensor to vary the frequency of an audio oscillator.

• I've got to give Chris Stratton an upvote here. He's right; if the IOIO board is programmable, then that's where you should be doing the frequency measurement. Commented Jul 19, 2012 at 0:34