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I have a situation where I need to process 5000 samples from a device in every 0.5 sec.

Lets say the window size is 100, then there would be 50 points resulting from the moving average. I am trying with conventional method, i.e. with loops. But this is a very inefficient way to do it. Any suggestions ?

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Did you already read en.wikipedia.org/wiki/Moving_average, specially "Weighted moving average" –  Thomas Mueller Sep 25 '10 at 10:30
A weighted moving average is much simpler to calculate, much faster and in many cases a more useful value to calculate. i.e. it is use in modeling many systems. –  Peter Lawrey Sep 25 '10 at 10:34

4 Answers 4

You can do that in O(1): keep a queue of the last 50 entries. When you add an entry and the queue is shorter 50 elements, just update the total and the count. If it is longer than 50 elements, update the total and the count as well. Pseudocode:

add(double x) {
    total += x;
    if (queueSize > 50) {
        total -= removeLastFromQueue();
    } else {
double getAverage() {
    return total / count;
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Check out the Apache Maths library. This has methods for doing precisely what you want. See DescriptiveStatistics and Mean for more info.

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This post made my day. Thanks! –  Brent Nash Oct 5 '11 at 3:40
Hello, I checked the library. Which method does the moving average? I cant seem to find it –  Snake Nov 28 at 3:32

Here's one way.

public class Rolling {

    private int size;
    private double total = 0d;
    private int index = 0;
    private double samples[];

    public Rolling(int size) {
        this.size = size;
        samples = new double[size];
        for (int i = 0; i < size; i++) samples[i] = 0d;

    public void add(double x) {
        total -= samples[index];
        samples[index] = x;
        total += x;
        if (++index == size) index = 0; // cheaper than modulus

    public double getAverage() {
        return total / size;

public class RollingTest extends TestCase {

    private final static int SIZE = 5;
    private static final double FULL_SUM = 12.5d;

    private Rolling r;

    public void setUp() {
        r = new Rolling(SIZE);

    public void testInitial() {
        assertEquals(0d, r.getAverage());

    public void testOne() {
        assertEquals(3.5d / SIZE, r.getAverage());

    public void testFillBuffer() {

    public void testForceOverWrite() {

        double newVal = SIZE + .5d;
        // get the 'full sum' from fillBufferAndTest(), add the value we just added,
        // and subtract off the value we anticipate overwriting.
        assertEquals((FULL_SUM + newVal - .5d) / SIZE, r.getAverage());

    public void testManyValues() {
        for (int i = 0; i < 1003; i++) r.add((double) i);

    private void fillBufferAndTest() {
        // Don't write a zero value so we don't confuse an initialized
        // buffer element with a data element.
        for (int i = 0; i < SIZE; i++) r.add(i + .5d);
        assertEquals(FULL_SUM / SIZE, r.getAverage());
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Bug: if you call add method less than SIZE (specified in constructor), you get wrong average value. That's because there's a division by SIZE in getAverage(). We probably need another counter to take care of this case. –  sscarduzio Oct 20 '13 at 14:37
@sscarduzio good catch. I haven't tried it. But the TestOne() test case looks fishy, too. I suppose it could be accurate if the values in the list are assumed to be initialized to zero. That's a fairly tortured requirement, however. ;-) –  Tony Ennis Oct 20 '13 at 14:47
It's not just inaccurate for value sets less than SIZE, this code is inaccurate for the last SIZE values of every set of values. Do not use. –  Daniel Alexiuc Nov 12 '13 at 6:34

Here's a good implementation, using BigDecimal:

import java.math.BigDecimal;
import java.math.RoundingMode;
import java.util.LinkedList;
import java.util.Queue;

public class MovingAverage {

    private final Queue<BigDecimal> window = new LinkedList<BigDecimal>();
    private final int period;
    private BigDecimal sum = BigDecimal.ZERO;

    public MovingAverage(int period) {
        assert period > 0 : "Period must be a positive integer";
        this.period = period;

    public void add(BigDecimal num) {
        sum = sum.add(num);
        if (window.size() > period) {
            sum = sum.subtract(window.remove());

    public BigDecimal getAverage() {
        if (window.isEmpty()) return BigDecimal.ZERO; // technically the average is undefined
        BigDecimal divisor = BigDecimal.valueOf(window.size());
        return sum.divide(divisor, 2, RoundingMode.HALF_UP);
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