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I was able to solve the specific problem I was having by introducing a class-scope static counter and just ignoring ever x number of events. But I'd still like to know what I'm doing wrong re: registering the listener with a hint in microseconds instead of using one of the four given constants.

An Activity in my app is engaging the sensors to obtain the orientation of the device, determine the roll, and utilize it.

I am using

SensorManager.registerListener(SensorEventListener listener, Sensor sensor, int rate)

to register my sensors. From the Android Documentation for this method:




The rate sensor events are delivered at. This is only a hint to the system. Events may be received faster or slower than the specified rate. Usually events are received faster. The value must be one of SENSOR_DELAY_NORMAL, SENSOR_DELAY_UI, SENSOR_DELAY_GAME, or SENSOR_DELAY_FASTEST or, the desired delay between events in microsecond.

If I use one of the 4 predefined constants then the app works fine; however these constants all provide rate hints that are too fast for my needs. I have to send out a UDP packet containing some information with every event change, and the receiving end seems to be getting completely inundated with messages using any of the predefined rates. Using an integer number like 30000 (since the API specifies quantities in microseconds) causes the app to stop reporting sensor events all together.

What am I missing that is preventing me from using my own event rate hints?

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yes, I want to do that too! The only solution I can think of is to filter the packets manually. – David Jul 8 '11 at 16:03
That is a futile goal (based on direct experience), as the sensor drivers are not obligated to obey your hint. In fact, it could send events at the same rate for any/all of the pre-defined constants! Your best bet is to accumulate and trigger when you hit your desired time-delta. – escape-llc Oct 19 '11 at 11:05

I'm pretty sure sensor listener rate did what it's supposed to do. In your question you wrote 30000, which is 30 milliseconds. In the doc, it says the rate is usually faster than the hint. So you are doing faster than 30ms. Is it possible that your other network related routines have been going too fast? It may have caused some blocking that lead you to believe sensor reporting is stopped.

In my application I too find the given NORMAL rate too high. Therefore I set a rate to 250000. I also used moving average calculation to smooth the number by 5. I find the resulting behavior close to the iPhone compass.

Nonetheless, I wouldn't suggest that you do network reporting in a sensor listener. It's not supposed to be done this way. You can however, do some simple calculation in the listener and record the value. Then, use a timer like Handler.postDelayed with a high number, to handle network sending among other things.

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It's been so long since I've looked at that project (it was for a job that I left at the end of May), but I do remember that at the time I had tried a ton of different values, including values in the area of ~600ms, and still had no results. Further, I was checking for events on the device side before packing the info in to a datagram and sending it off, so the network shouldn't have had anything to do with it. The network reporting wasn't done in the listener either. The data was packed up and sent off to the AsyncTask handling the networking. – Doug Stephen Oct 21 '11 at 15:56
@DougStephen is there any reason you are downvoting me? What part of my answer is incorrect? – He Shiming Mar 27 '12 at 0:44
I didn't down vote you. Someone else probably did. – Doug Stephen Mar 27 '12 at 3:01
I wish I could downvote comments asking why you downvoted. – Greg Randall Oct 4 '12 at 3:01
Note that the documentation speaks about MICROseconds, not miliseconds. Still, supplying a rate of 40Hz (1.0F/40) * 1000 * 1000 doesn't give me 40 hz. While SENSOR_DELAY_FASTEST is certainly giving me > 40hz, so it's not a phone limitation. – Peterdk Oct 15 '13 at 19:07

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