Im currently working on a android application.. I have to log the accelerometer sensor event coordinate with event time. I got the sensor event timestamp like "3497855005850" but i am not able to convert event timestamp into user readable date time format.Thanks in advance

How can i convert SensorEvent timestamp to unix timestamp?

  • ugh!! another industry standard :) . indeed naming is toughest problem in computer industry. I fell in same trap. Dec 23, 2022 at 9:55

8 Answers 8


The sensor timestamp is actually nanoseconds of uptime, not system time in nanoseconds. See SensorEvent.timestamp to absolute (utc) timestamp?.

In theory, you can convert sensor timestamp to time in milliseconds using:

long timeInMillis = (new Date()).getTime() 
                    + (sensorEvent.timestamp - System.nanoTime()) / 1000000L;

You could even bracket the (new Date()).getTime() call with two System.nanoTime() calls and average them to get closer to the actual offset.

Then you can format the sensor time as date and time.

  • 9
    As of Android 4.2.1 (API lvl 17), on my Nexus 4, the sensorEvent.timestamp seems to contains the exact timestamp (in nanoseconds). This seems to be undocumented, despite it is very important! Apr 10, 2013 at 7:12
  • 1
    I can vouch for what Romain says.
    – rbncrthms
    Jun 23, 2013 at 23:21
  • 3
    It seems the timestamp's value is unfortunately not depending on Android's version: code.google.com/p/android/issues/detail?id=56561 Jun 27, 2013 at 8:50
  • For a SensorEvent of type STEP_COUNTER, this doesn't work for Samsung S4 with Android 5 - so basically the answer given isn't really that much use or correct for that sensor type. I initially thought that the answer of Boban S made sense but that doesn't actually work either for this type of sensor on this device. Essentially you have the time the event is raised for that type of sensor - presumably because it is an aggregate of events and not a single one. Jul 24, 2015 at 12:32
  • 2
    This is an incorrect answer. The sensor timestamps could be not in nanoseconds of uptime, it differs from manufacturer to manufacturer. Apr 22, 2020 at 18:57

You can set referent time variables in your onSensorChanged(SensorEvent) function.

Reference for current time and event time. When event arrives subtract sensor referent time from event time and you will have difference in nanoseconds. You can add that difference divided by 1,000,000 to current time reference to get event time in milliseconds.
Error with calculating this can be max 0.5 milliseconds for one event. You can minimize error by changing referent times occasionally.

private long sensorTimeReference = 0l;
private long myTimeReference = 0l;

public void onSensorChanged(SensorEvent event) {
    // set reference times
    if(sensorTimeReference == 0l && myTimeReference == 0l) {
        sensorTimeReference = event.timestamp;
        myTimeReference = System.currentTimeMillis();
    // set event timestamp to current time in milliseconds
    event.timestamp = myTimeReference + 
        Math.round((event.timestamp - sensorTimeReference) / 1000000.0);
    // some code...
  • 2
    how do you deal with sensors that have latency in reporting their values?
    – Michael
    Jan 8, 2020 at 23:25

"timestamp must be synchronized with the elapsedRealtimeNano clock" so

val timeInMills = System.currentTimeMillis() + (event.timestamp - SystemClock.elapsedRealtimeNanos()) / 1000000
  • the correct answer is this one, otherwise the timestamp will be shifted Jun 28, 2021 at 13:02
  • @chejdj Why are we adding (event.timestamp - SystemClock.elapsedRealtimeNanos()) to the System.currentTimeMillis()? Doesn't it put the actual event time ahead of the current time? Jan 18 at 9:23
  • Also, I could not understand why are we adding nanos to the millis? Jan 18 at 9:25
  • The base of the SystemClock.elapsedRealtimeNanos() and SensorEvent.timestamp can be different (relative since boot) than the base of the System.currentTimeMillis() (wall clock time). Should it still work? Jan 19 at 13:10
  • 1
    @SagarPatel sensor_event timestamp and elapsedRealtimenanos are the same base time 'boot time'
    – chejdj
    Feb 3 at 8:41

The official SensorEvent#timestamp documentation states:

[event.time is] The time in nanoseconds at which the event happened. For a given sensor, each new sensor event should be monotonically increasing using the same time base as SystemClock.elapsedRealtimeNanos().


  • Some manufacturers/devices use the SystemClock.currentTimeNanos() instead (e.g. Nexus 4).

Device-independent solution:

 * Calculates the static offset (ms) which needs to
 *  be added to the `event.time` (ns) to get the Unix
 *  timestamp of the event.
 * @param eventTimeNanos the {@code SensorEvent.time} to be used to determine the time offset
 * @return the offset in milliseconds
private long eventTimeOffset(final long eventTimeNanos) {
    // Capture timestamps of event reporting time
    final long elapsedRealTimeMillis = SystemClock.elapsedRealtime();
    final long upTimeMillis = SystemClock.uptimeMillis();
    final long currentTimeMillis = System.currentTimeMillis();

    // Check which timestamp the event.time is closest to the event.time
    final long eventTimeMillis = eventTimeNanos / 1_000_000L;
    final long elapsedTimeDiff = elapsedRealTimeMillis - eventTimeMillis;
    final long upTimeDiff = upTimeMillis - eventTimeMillis;
    final long currentTimeDiff = currentTimeMillis - eventTimeMillis;

    // Default case (elapsedRealTime, following the documentation)
    if (Math.abs(elapsedTimeDiff) <= Math.min(Math.abs(upTimeDiff), Math.abs(currentTimeDiff))) {
        final long bootTimeMillis = currentTimeMillis - elapsedRealTimeMillis;
        return bootTimeMillis;

    // Other seen case (currentTime, e.g. Nexus 4)
    if (Math.abs(currentTimeDiff) <= Math.abs(upTimeDiff)) {
        return 0;

    // Possible case, but unknown if actually used by manufacturers (upTime)
    throw new IllegalStateException("The event.time seems to be upTime. In this case we cannot use a static offset to calculate the Unix timestamp of the event");

Registration time delay

  • This code is independent of the latency between the event.time and the time at which the sensor event listener is triggered (registration time) as we only use the SystemClock to calculate the offset.
  • This allows to synchronize the sensor data between multiple devices if their system time is synchronized (there are apps for this).

Regarding "Possible Case" (see code):

  • It's unknown if any manufacturer actually uses the upTime as event.time. Thus, we throw an exception to see if this actually ever happens.

  • If this happens and if we calculate a static offset between currentTime and upTime this would lead to time shifts when the device is in (deep) sleep again. We would need to calculate the offset dynamically for each event which is quite heavy.

  • If this happens on devices this could be tested using: https://developer.android.com/training/monitoring-device-state/doze-standby#testing_doze_and_app_standby


I had the same problem and used ehartwell's solution. However I used System.currentTimeMillis() instead of new Date().getTime().

Furthermore I found that there is an offset of sensorEvent.timeStamp and System.nanoTime() of maximal 300 ms, mostly < 200 ms. Depending on the needed accuracy you can ignore this difference.

If I use Boban S. solution, the difference is correct at the initialisation. However, the correct time and the time of the measurements diverge. The estimated time of the measurements is in the future.

  • Over what time frame is the divergence occurring, and by how much? Are you seeing this across multiple devices?
    – Michael
    Jan 8, 2020 at 23:25

I see three ways to get millis (Kotlin)

val millis = Date().getTime() + (event.timestamp - System.nanoTime()) / 1000000L

val millis = System.currentTimeMillis() + (event.timestamp - System.nanoTime()) / 1000000L

val millis = System.currentTimeMillis() + (event.timestamp - SystemClock.elapsedRealtimeNanos()) / 1000000L

all three deliver same result, but when I want to see diff from calculated value to current time

val diff  = System.currentTimeMillis() - millis

I see 'diff' with value -359704905 ?

Log.d("diff", "" + event.timestamp + " - " + System.nanoTime())

diff: 541695268300000 - 181990403666592

diff: 541695277240000 - 181990405818592

diff: 541695286859000 - 181990411901592

diff: 541695296139000 - 181990412584592

diff: 541695305735000 - 181990415222592

So all suggested solution are not right

for me this simple way fits my needs

override fun onSensorChanged(sensorEvent: SensorEvent?) {
    val millis = System.currentTimeMillis()
  • 2
    This solution does not work if you have set any latency at registration time*. With latency>0, you will have a number of readings arriving at the same time and you will assign the same time stamp to all of them. * registration using public boolean registerListener(SensorEventListener listener, Sensor sensor, int samplingPeriodUs, int maxReportLatencyUs)
    – FabioC
    Jul 6, 2019 at 14:26

It varies for each device. It could be based on epoch, time since boot, and CPU awake time. Best approach is to read all three, then see which one the timestamp is closest to, then convert based on the offset.


SensorEvent.timestamp is when the event happened, but it is an elapsed time since boot. It is not the time when the event happened. We want to get the actual time when the event happened from the elapsed time since the event happened.

Reference: https://developer.android.com/reference/android/hardware/SensorEvent#timestamp

  1. We need all the entities in a similar unit. We are taking Millis here.
  2. We have three entities to use. a) System.currentTimeMillis() b) SystemClock.elapsedRealtime() and c) SensorEvent.timestamp

enter image description here

  1. If we use SystemClock.elapsedRealtimeNanos(), then we need to convert it into Millis as below:
val systemCurrentTimeMillis = System.currentTimeMillis()
val systemClockElapsedRealtimeMillis = TimeUnit.NANOSECONDS.toMillis(SystemClock.elapsedRealtimeNanos())
val sensorEventTimeStampMillis = TimeUnit.NANOSECONDS.toMillis(sensorEvent.timestamp)
  1. We need to find the difference between the systemCurrentTimeMillis, and systemClockElapsedRealtimeMillis as below:

enter image description here

val currentMinusElapsedRealtimeMillis = systemCurrentTimeMillis - systemClockElapsedRealtimeMillis
  1. Once we find the difference, we need to add sensorEventTimeStampMillis to it as below:

enter image description here OR enter image description here

val actualEventTimeMillis = currentMinusElapsedRealtimeMillis + sensorEventTimeStampMillis
  1. Then, we need to convert the result into UTC as below (I am using Joda Time):
val actualEventTimeUtc = DateTime(actualEventTimeMillis, DateTimeZone.UTC)

The actualEventTimeUtc is the absolute time when the event happened.

Another way to understand it is:

Suppose the sensor reports an event in onSensorChanged. We find that the current time is: 13 PM. In other words, the reporting time is 13 PM and it is not the time when the actual event happened.

The SystemClock.elapsedRealtime() says that it has been running since last 30 hours. In other words, it started 30 hours before from the current time.

So, we subtract the 30 hours from the current time to get the time when the sensor started. So, we get 7 AM of the previous day.

The SensorEvent.timestamp says that the event happened after 28 hours of the SystemClock.elapsedRealtime().

Hence, we add 28 hours to the 7 AM of the previous day. So, we get 11 AM of the current day and it is the actual time when event happened.

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