Abstract: Embodiments for an apparatus and method are provided that can build latency in streaming applications that use data packets. In an embodiment, a system has an under-run forecasting mechanism, a statistics monitoring mechanism, and a playback queuing mechanism. The under-run forecasting mechanism determines an estimate of when a supply of data packets to convert will be exhausted. The statistics monitoring mechanism measures the arrival fluctuations of the supply of data packets. The playback queuing mechanism can build the latency.

Abstract: Embodiments for an apparatus and method are provided that can build latency in streaming applications that use data packets. In an embodiment, a system has an under-run forecasting mechanism, a statistics monitoring mechanism, and a playback queuing mechanism. The under-run forecasting mechanism determines an estimate of when a supply of data packets to convert will be exhausted. The statistics monitoring mechanism measures the arrival fluctuations of the supply of data packets. The playback queuing mechanism can build the latency.

Abstract: Embodiments for an apparatus and method are provided for building optimal latency in streaming applications that use data packets. In an embodiment, a system has an under-run forecasting mechanism, a statistics monitoring mechanism, and a playback queuing mechanism. The under-run forecasting mechanism determines an estimate of when a supply of data packets to convert will be exhausted. The statistics monitoring mechanism measures the arrival fluctuations of the supply of data packets. The playback queuing mechanism builds latency in the supply of data packets based on the estimate determined by the under-run forecasting mechanism and the arrival fluctuations measured by the statistics monitoring mechanism. In an embodiment, the supply of data packets relates to audio.

Abstract: Embodiments for an apparatus and method are provided for building optimal latency in streaming applications that use data packets. In an embodiment, a system has an under-run forecasting mechanism, a statistics monitoring mechanism, and a playback queuing mechanism. The under-run forecasting mechanism determines an estimate of when a supply of data packets to convert will be exhausted. The statistics monitoring mechanism measures the arrival fluctuations of the supply of data packets. The playback queuing mechanism builds latency in the supply of data packets based on the estimate determined by the under-run forecasting mechanism and the arrival fluctuations measured by the statistics monitoring mechanism. In an embodiment, the supply of data packets relates to audio.

Abstract: Building optimal latency in streaming applications that use data packets. In one embodiment, a system having an under-run forecasting mechanism, a statistics monitoring mechanism, and a playback queuing mechanism. The under-run forecasting mechanism determines an estimate of when a supply of data packets to convert will be exhausted. The statistics monitoring mechanism measures the arrival fluctuations of the supply of data packets. The playback queuing mechanism builds latency in the supply of data packets based on the estimate determined by the under-run forecasting mechanism and the arrival fluctuations measured by the statistics monitoring mechanism. In one embodiment, the supply of data packets relates to audio.

Abstract: A half duplex switching device includes an input connection for receiving an input audio signal, and classification module coupled to the input connection. The classification module provides an output which indicates a classification of the input signal based upon a density of the input audio signal, an energy level of the input audio signal, and classification data provided with the input audio signal. A switching device is coupled to the classification module and determines if the received input audio signal contains speech signals based upon the output of the classification module. The communication receiving device can be used in both communication systems which provide continuous speech signals, and communication systems which remove silence and only provide speech signals.

Abstract: A half duplex switching device includes an input connection for receiving an input audio signal, and classification module coupled to the input connection. The classification module provides an output which indicates a classification of the input signal based upon a density of the input audio signal, an energy level of the input audio signal, and classification data provided with the input audio signal. A switching device is coupled to the classification module and determines if the received input audio signal contains speech signals based upon the output of the classification module. The communication receiving device can be used in both communication systems which provide continuous speech signals, and communication systems which remove silence and only provide speech signals.