Computer audio Recorder

April 23, 2016
Note: If you have some


Device from which to acquire audio data

Specify the device from which to acquire audio data. The default is Default, which is the computer's standard input device. You can use tab completion to query valid DeviceName assignments for your computer by typing H.DeviceName = ' and then pressing the tab key. The tab completion functionality shows all valid audio device names for your computer.


Number of samples per second read from audio device

Specify the number of samples per second in the signal as an integer. The default is 44100. This property is tunable.


Number of audio channels

Specify the number of audio channels as an integer. The default is 2.


Data type used by device

Specify the data type used by the device to acquire audio data as Determine from output data type, 8-bit integer, 16-bit integer, 24-bit integer, or 32-bit float. The default is Determine from output data type.


Source of Buffer Size

Specify how to determine the buffer size as Auto or Property. The default is Auto.


Buffer size

Specify as an integer the size of the buffer that the audio recorder object uses to communicate with the audio device. This property applies when you set the BufferSizeSource property to Property. The default is 4096. This property is tunable. Tuning this property involves a balance between device latency and the possibility of dropping data (buffer underrun). The instant you receive the buffer from a device, you have samples that are relatively new and samples that are at least as old as the size of the buffer. Therefore, the buffer size introduces latency, which is the time required for the device to fill the queue and the buffer. BufferSize is half the size of the sound card buffer. The size of the buffer processed in each interrupt from the audio device affects the performance of the system. A frame of data cannot pass through the queue until the buffer is filled by the device, thus introducing latency. BufferSize has to be smaller than the effective queue duration. To set the BufferSize to a value other than the default, first change the BufferSizeSource to 'Property'. You can select BufferSize from the list of properties.


Size of queue in seconds

Specify the length of the audio queue, in seconds. The default is 1.0. This property is tunable. The purpose of the queue is to control the trade-off between latency and data dropout. Latency is calculated by the following equation: latency=QueueDuration×SampleRate+2×BufferSizeSampleRate.

To minimize latency, lower the QueueDuration or set it to 0. However, be aware that data dropouts or loss of system robustness may result. The Queue duration property specifies the duration of the signal, in seconds, that can be buffered during the simulation. This value is the maximum length of time that the System object's data supply can lag the device's data demand. If the MATLAB® data throughput rate is lower than the device throughput rate, a buffer overrun occurs. You can use OutputNumOverrunSamples to monitor overrun. To correct the overrun, make the queue duration larger than the buffer. If the MATLAB data throughput rate is higher than the device throughput rate, a buffer underrun occurs, causing the System object to wait for new samples to become available. To minimize the chance of dropouts, the System object checks to verify the queue duration is at least as large as the maximum of the buffer size and the frame size. If it is not, the queue duration is automatically set to this maximum value. At the start of the simulation, the queue is filled with silence. At each time step, the audio device sends a buffer of samples to the top of the queue.


Number of samples in the output signal

Specify the number of samples in the audio recorder's output as an integer. The default is 1024.


Data type of the output

Select the output data type as uint8, int16, int32, single, or double. The default is double.


Enable output of overrun count

Set to true to output the number of samples dropped due to queue overrun since the last call to the step method. The default is false.


Source of device channel mapping

Specify whether to determine the channel mapping as 'Auto' or as 'Property'. If you set the value of ChannelMappingSource to 'Auto', the ChannelMapping field is rendered inactive. If you set this property to 'Property', the vector specified in the ChannelMapping field is used to route the input. Additionally, the NumChannels field is rendered inactive, because the channel map contains information about the number of data channels that the user is attempting to read.


Device-to-data channel mapping

Vector of valid channel indices to represent the mapping between device input channels and the data. The term Channel Mapping refers to a 1-to-1 mapping that associates channels on the selected audio device to channels of the data. When you record audio, channel mapping allows you to specify which channel of the audio data directs input to a specific channel of audio. By default, the ChannelMapping field is [1:MAXNUMINPUTCHANNELS], where MAXNUMINPUTCHANNELS depends upon the selected device.

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Ezvid computer screen and audio recorder and download link :O
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