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I have done a lot of R&D and gone through a lot of resources to resolve my problem but I have FAILED to get any proper solution.

I have developed an app, now i want to add Voice based functionality to it.

The required features are

1) when USER starts speaking, it should record the audio/video and

2) when user stops speaking, it should play the recorded audio/video .

Note:Here video means whatever user performs within app during that period of time. For example, clicks on the buttons or some kind of animation, etc.

I don't want to use Google's Voice Recognizer available by default in the Android as it requires Internet but my app runs offline.Also, I came to know of CMU-Sphinx. But it is not helpful as per my requirements.

EDITED :- Also,I would like to add that i have achieved this using Start & Stop button but I don't want to use these buttons.

If anyone has any idea or any suggestions, please let me know.

share|improve this question

The simplest and most common method is to count the number of zero crossings in the audio (ie when the sign changes from positive to negative).

If that value is too high then the sound is unlikely to be speech. If it is too low then, again, it is unlikely to be speech.

Combine that with a simple energy level (how loud the audio is) and you have a solution which is pretty robust.

If you need a more accurate system then it gets much much more complex. One way is to extract audio features (MFCCs for example) from "training data", model them up with something like a GMM and then test the features you extract from live audio against the GMM. This way you can model the likelihood that a given frame of audio is speech over non-speech. This is not a simple process however.

I'd strongly recommend going down the lines of zero-crossings as it is simple to implement and works fine 99% of the time :)

share|improve this answer
    
I am really happy to know the correct answer from a professional like you.... but i dont know much about this sound recognition.. and much of the information i gave in my answer is from here.. – raju Apr 21 '12 at 15:19
    
@Raju: Fair enough ... TBH doing feature modelling is INCREDIBLY complicated. I'm using it for speaker recognition (ie recognising a given person speaking) at the moment. Its not really something that can be gone into simply, alas :( The zero-crossings method I describe above really is very simple and works beautifully. While I know modelling general speech and trying to match likelihoods to that is a much better solution I would generally simply implement zero crossings to identify a speaker ... its so easy to implement and works so well as to not be worth worrying about too much :D – Goz Apr 21 '12 at 17:06
    
Hmm i realise i said "to identify a speaker" ... I meant "to identify someone is speaking" ... – Goz Apr 21 '12 at 18:24
    
Yes... i understood that part... :) – raju Apr 21 '12 at 18:26
    
@Raju: Just had to clarify ;) – Goz Apr 21 '12 at 18:27

You can try adding listeners to the application events like navigation , clicking the animation etc... in listeners implementation you can trigger the start/stop functionalities...

http://tseng-blog.nge-web.net/blog/2009/02/14/implementing-listeners-in-your-android-java-application/

look at these examples... this might be helpful to you....


but i m wondering that what you described about your application behavior looks like you gonna reinvent like talking tom huh ??? :-P

share|improve this answer
    
Thanks for your reply. But for Voice Recognition is there any Listner available? And i want the voice functionality like Talking Tom.... – Prem Mar 21 '12 at 6:12
    
assume you have a method called "StartRec()". you have to call this method from the actionlister declaration like this 'mainScreen.addListener( new ClickListner(){ startRec();});' i m not sure about the listner details you can find it in android dev site. – Karthikeyan Arumugam Mar 21 '12 at 7:12
    
Yeah that all thing i know. But there should be some way for recognition of voice? How can app know that user start speaking? I want to know that...... – Prem Mar 21 '12 at 7:15
    
sorry dude i m unable to understand what you are trying to do... even in talking tom your voice will be recoreded only when tom do action like hands in its ear(like i m hearing you ) – Karthikeyan Arumugam Mar 21 '12 at 7:17
    
No in talking tom whenever user start speaking then that action hands in its ear trigger. So my question is that how can you know that user start speaking something or stop speaking programmatically? – Prem Mar 21 '12 at 8:35

below is the code I use for an iPhone application that does exactly the same thing. The code is in Objective-C++ but I have lots of comments in it. This code is executed inside the callback function of a recording queue. I am sure that a similar approach exists for the Android platform.

This approach works very nice in almost every acoustic environment I have used it and it is used in our app. You can download it to test it if you want.

Try implementing it in the android platform and you are done!

// If there are some audio samples in the audio buffer of the recording queue
if (inNumPackets > 0) {
        // The following 4 lines of code are vector functions that compute 
        // the average power of the current audio samples. 
        // Go [here][2] to view documentation about them. 
        vDSP_vflt16((SInt16*)inBuffer->mAudioData, 1, aqr->currentFrameSamplesArray, 1, inNumPackets);
        vDSP_vabs(aqr->currentFrameSamplesArray, 1, aqr->currentFrameSamplesArray, 1, inNumPackets);
        vDSP_vsmul(aqr->currentFrameSamplesArray, 1, &aqr->divider, aqr->currentFrameSamplesArray, 1, inNumPackets);
        vDSP_sve(aqr->currentFrameSamplesArray, 1, &aqr->instantPower, inNumPackets);
        // InstantPower holds the energy for the current audio samples
        aqr->instantPower /= (CGFloat)inNumPackets;
        // S.O.S. Avoid +-infs, NaNs add a small number to InstantPower
        aqr->instantPower = log10f(aqr->instantPower + 0.001f);
        // InstantAvgPower holds the energy for a bigger window 
        // of time than InstantPower
        aqr->instantAvgPower = aqr->instantAvgPower * 0.95f + 0.05f * aqr->instantPower;
        // AvgPower holds the energy for an even bigger window 
        // of time than InstantAvgPower
        aqr->avgPower = aqr->avgPower * 0.97f + 0.03f * aqr->instantAvgPower;
        // This is the ratio that tells us when to record
        CGFloat ratio = aqr->avgPower / aqr->instantPower;
        // If we are not already writing to an audio file and 
        // the ratio is bigger than a specific hardcoded value 
        // (this value has to do with the quality of the microphone 
        // of the device. I have set it to 1.5 for an iPhone) then start writing!
        if (!aqr->writeToFile && ratio > aqr->recordingThreshold) {
            aqr->writeToFile = YES;
        } 
        if (aqr->writeToFile) {
            // write packets to file
            XThrowIfError(AudioFileWritePackets(aqr->mRecordFile, FALSE, inBuffer->mAudioDataByteSize,
                                                inPacketDesc, aqr->mRecordPacket, &inNumPackets, inBuffer->mAudioData),
                          "AudioFileWritePackets failed");
            aqr->mRecordPacket += inNumPackets;
            // Now if we are recording but the instantAvgPower is lower 
            // than avgPower then we increase the countToStopRecording counter
            if (aqr->instantAvgPower < aqr->avgPower) {
                aqr->countToStopRecording++;
            } 
            // or else set him to 0.
            else {
                aqr->countToStopRecording = 0;
            }
            // If we have detected that there is not enough power in 30 consecutive
            // audio sample buffers OR we have recorded TOO much audio 
            // (the user speaks for more than a threshold of time) stop recording 
            if (aqr->countToStopRecording > 30 || aqr->mRecordPacket > kMaxAudioPacketsDuration) {
                aqr->countToStopRecording = 0;
                aqr->writeToFile = NO;
                // Notify the audio player that we finished recording 
                // and start playing the audio!!!
                dispatch_async(dispatch_get_main_queue(), ^{[[NSNotificationCenter defaultCenter] postNotificationName:@"RecordingEndedPlayNow" object:nil];});
            }
        }
    }

Best!

share|improve this answer
    
Am i missing something or is this, essentially, just a very complicated amplitude detector? (There are much easier ways to get the current amplitude on iPhone!) – Goz Apr 21 '12 at 15:09
    
@Goz i would love to tell me more about it, code, samples, docs – Summon Apr 21 '12 at 15:35
1  
AudioQueueGetProperty( mAqr, kAudioQueueProperty_CurrentLevelMeterDB, &aqlms, &size ); – Goz Apr 21 '12 at 17:06

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