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Note

Please see Azure Cognitive Services for Speech documentation for the latest supported speech solutions.

SpeechRecognitionEngine.InitialSilenceTimeout Property

Gets or sets the time interval during which a SpeechRecognitionEngine accepts input containing only silence before finalizing recognition.

Namespace:  Microsoft.Speech.Recognition
Assembly:  Microsoft.Speech (in Microsoft.Speech.dll)

Syntax

'Declaration
Public Property InitialSilenceTimeout As TimeSpan
    Get
    Set
'Usage
Dim instance As SpeechRecognitionEngine
Dim value As TimeSpan

value = instance.InitialSilenceTimeout

instance.InitialSilenceTimeout = value
public TimeSpan InitialSilenceTimeout { get; set; }

Property Value

Type: System.TimeSpan
The duration of the interval of silence.

Exceptions

Exception Condition
ArgumentOutOfRangeException

This property is set to less than 0 seconds.

Remarks

Each speech recognizer has an algorithm to distinguish between silence and speech. If the recognizer input is silence during the initial silence timeout period, then the recognizer finalizes that recognition operation.

If the initial silence timeout interval is set to 0, the recognizer does not perform an initial silence timeout check. The timeout interval can be any non-negative interval. The default is 0 seconds.

Examples

The following example shows part of a console application that demonstrates basic speech recognition. The example sets the BabbleTimeout and InitialSilenceTimeout properties of a SpeechRecognitionEngine before initiating speech recognition. Handlers for the speech recognizer's AudioStateChanged and RecognizeCompleted events output event information to the console to demonstrate how the InitialSilenceTimeout properties of a SpeechRecognitionEngine properties affect recognition operations.


using System;
using Microsoft.Speech.Recognition;

namespace SpeechRecognitionApp
{
  class Program
  {
    static void Main(string[] args)
    {

      // Initialize a SpeechRecognitionEngine object.
      using (SpeechRecognitionEngine recognizer =
        new SpeechRecognitionEngine(
          new System.Globalization.CultureInfo("en-US")))
      {

      // Create a grammar for choosing cities for a flight.
        Choices cities = new Choices(new string[] 
        { "Los Angeles", "New York", "Chicago", "San Francisco", "Miami", "Dallas" });

        GrammarBuilder gb = new GrammarBuilder();
        gb.Append("I want to fly from");
        gb.Append(cities);
        gb.Append("to");
        gb.Append(cities);      

        // Create a Grammar object from the GrammarBuilder and load it to the recognizer.
        Grammar g = new Grammar(gb);
        g.Name = ("City Chooser");
        recognizer.LoadGrammarAsync(g);

        // Add event handlers.
        recognizer.AudioStateChanged +=
          new EventHandler<AudioStateChangedEventArgs>(
            AudioStateChangedHandler);
        recognizer.RecognizeCompleted +=
          new EventHandler<RecognizeCompletedEventArgs>(
            RecognizeCompletedHandler);

        // Configure input to the speech recognizer.
        recognizer.SetInputToDefaultAudioDevice();

        recognizer.InitialSilenceTimeout = TimeSpan.FromSeconds(3);
        recognizer.BabbleTimeout = TimeSpan.FromSeconds(2);
        recognizer.EndSilenceTimeout = TimeSpan.FromSeconds(1);
        recognizer.EndSilenceTimeoutAmbiguous = TimeSpan.FromSeconds(1.5);

        Console.WriteLine("BabbleTimeout: {0}", recognizer.BabbleTimeout);
        Console.WriteLine("InitialSilenceTimeout: {0}", recognizer.InitialSilenceTimeout);
        Console.WriteLine("EndSilenceTimeout: {0}", recognizer.EndSilenceTimeout);
        Console.WriteLine("EndSilenceTimeoutAmbiguous: {0}", recognizer.EndSilenceTimeoutAmbiguous);
        Console.WriteLine();

        // Start asynchronous speech recognition.
        recognizer.RecognizeAsync(RecognizeMode.Single);

        // Keep the console window open.
        while (true)
        {
          Console.ReadLine();
        }
      }
    }

    // Handle the AudioStateChanged event.
    static void AudioStateChangedHandler(
      object sender, AudioStateChangedEventArgs e)
    {
      Console.WriteLine("AudioStateChanged ({0}): {1}",
        DateTime.Now.ToString("mm:ss.f"), e.AudioState);
    }

    // Handle the RecognizeCompleted event.
    static void RecognizeCompletedHandler(
      object sender, RecognizeCompletedEventArgs e)
    {
      Console.WriteLine("RecognizeCompleted ({0}):",
        DateTime.Now.ToString("mm:ss.f"));

      string resultText;
      if (e.Result != null) { resultText = e.Result.Text; }
      else { resultText = "<null>"; }

      Console.WriteLine(
        " BabbleTimeout: {0}; InitialSilenceTimeout: {1}; Result text: {2}",
        e.BabbleTimeout, e.InitialSilenceTimeout, resultText);
      if (e.Error != null)
      {
        Console.WriteLine(" Exception message: ", e.Error.Message);
      }

      // Start the next asynchronous recognition operation.
      ((SpeechRecognitionEngine)sender).RecognizeAsync(RecognizeMode.Single);
    }
  }
}

See Also

Reference

SpeechRecognitionEngine Class

SpeechRecognitionEngine Members

Microsoft.Speech.Recognition Namespace

BabbleTimeout

EndSilenceTimeout

EndSilenceTimeoutAmbiguous

Recognize

EmulateRecognize

RecognizeAsync

EmulateRecognizeAsync