{"id":432,"date":"2017-03-21T11:05:35","date_gmt":"2017-03-21T10:05:35","guid":{"rendered":"http:\/\/192.168.178.58\/en\/glossary\/"},"modified":"2018-02-21T20:31:50","modified_gmt":"2018-02-21T20:31:50","slug":"glossary","status":"publish","type":"page","link":"https:\/\/www.vocevista.com\/en\/documentation\/glossary\/","title":{"rendered":"Glossary"},"content":{"rendered":"
The ambitus of a voice is the range, or the distance, between the highest and the lowest singable note. The staff view can show the typical ambitus of speaking and singing voices and of singable overtones.<\/p>\n<\/dd>\n
\n The amplitude is the maximum value of a signal over a given period of time. This correlates to the intensity<\/em><\/a> and to the perceived loudness of a signal. \n The Analyzer View is the central window in VoceVista Video Pro<\/span> and contains one or two sub-windows that can show the Spectrogram, the Spectrum, or both.\n <\/p>\n<\/dd>\n \n An Auto Marker is a type of Marker<\/em><\/a> that is automatically created for each recorded segment. In other words, every time you press record, and then stop, a new auto marker is created to mark the recorded time period.\n <\/p>\n<\/dd>\n \n Same as sample size<\/em><\/a>.\n <\/p>\n<\/dd>\n A cent is one hundredth of the distance between two notes on the piano, or between two semitones of the tempered scale. In other words, two consecutive keys on the piano (regardless if black or white) are 100 Cent apart. The cent is used to measure extremely small intervals. One octave is divided into 1200 Cent.<\/p>\n<\/dd>\n Clipping is the effect when parts of the recorded audio signal are too loud to be represented by the used sample format, and are therefore cut off. For example, the audio format may be able to represent sample values between -1.0 and 1.0. If the incoming signal contains values larger than 1.0, they will all be set to 1.0, which causes a loss of information, and a distortion of the signal.<\/p>\n<\/dd>\n \n The decibel is a logarithmic unit that indicates the ratio of an intensity relative to a reference level. \n The dynamic range is the ratio between the largest and the smallest value that can be represented by a given format. Short for Electroglottograph<\/em><\/a>.<\/p>\n<\/dd>\n The Electroglottograph (or “EGG”) is a small device that allows to estimate the closing and opening of the glottis<\/a>, the opening between the vocal chords.<\/p>\n<\/dd>\n \n The FFT is a mathematical process that converts a series of samples in the time domain (such as a digital audio recording) into a list of frequencies and their intensity.\n <\/p>\n<\/dd>\n \n The window function is a set of coefficients between 0 and 1 that are multiplied with a sequence of samples before taking the FFT<\/em><\/a> of this sequence. The purpose of this is to reduce mathematical artifacts in the Spectrum arising from discontinuities between the beginning and the end of the signal.\n <\/p>\n<\/dd>\n The File \/ Marker List is a window that lists the Markers<\/em><\/a> of the current file. It can also show a list of recently used files, or a list of search results. Further, it allows to add and edit markers and marker descriptions.<\/p>\n<\/dd>\n The File Description is a special type of Marker<\/em><\/a> that is automatically added to every file. Each file has a description, which is the first entry in the marker list, and which has the round information icon as symbol. It can be used to add a description to the file (such as what it contains, when it was recorded, where, with whom, and any other relevant information).<\/p>\n<\/dd>\n Short for Frequency Filter<\/em><\/a>.<\/p>\n<\/dd>\n A formant is a resonance frequency in the vocal tract. The vocal tract has multiple resonance tones that will amplify sound with the frequency of that tone. The sound can come from the vocal chords, but it may also come from other sources. The literature on the voice does not always clearly distinguish between formants and overtones<\/em><\/a>. Overtones are frequency components of a sound that may be amplified by the vocal tract if they match the frequency of a formant.<\/p>\n<\/dd>\n \n The frequency is the number of cycles per second. The unit of frequency is the Hertz (Hz)<\/em><\/a>. The frequency of a sound wave determines its pitch<\/em><\/a>.\n <\/p>\n<\/dd>\n Frequency Filters are a tool to isolate individual parts of a recording in the frequency domain and make them louder or quieter. This allows, for example, to listen only to specific frequencies in a recording, or to take them away entirely.<\/p>\n<\/dd>\n \n The frequency resolution of the Spectrum<\/em><\/a> is the difference in Hz between two frequencies that the analyzer can distinguish. The frequency resolution can be set on the Analyzer Settings page. Smaller values show more detail in the Spectrum and Spectrogram, but they also require more processing power and can make the program slower.\n <\/p>\n<\/dd>\n For a tone that has multiple harmonic components, the fundamental tone is the frequency that forms the base of an overtone scale that contains all these harmonics. In most cases the fundamental is the pitch that a human listener will identify when hearing the tone.<\/p>\n<\/dd>\n Harmonic is another word for overtone<\/em><\/a>, with one small difference: Harmonics are counted such that the fundamental is the first harmonic, while overtones are counted such that the first overtone is the second harmonic.<\/p>\n<\/dd>\n The harmonic series is the set of frequencies that are all integer multiples of a fundamental frequency.<\/p>\n<\/dd>\n \n Hertz is the unit of frequency to indicate the number of cycles per second of a periodic phenomenon. It is named after the German physicist Heinrich Hertz.\n <\/p>\n<\/dd>\n \n The intensity is a measure of how loud or strong a signal is. The Waveform shows the intensity of the entire recording for each point in time, \n The intensity is not identical to the loudness of the whole signal or of the frequency components, because the human ear perceives different frequencies \n Short form of linear<\/em><\/span>. Opposite of logarithmic<\/em><\/a>. On a linear scale, numbers with the same distance have the same difference.\n <\/p>\n<\/dd>\n \n Short form of logarithmic<\/em><\/span>. Opposite of linear<\/em><\/a>. \n The piano has a log scale. All octaves are the same distance apart, as each octave is a doubling of the frequency. If the piano is projected on a linear scale, the piano keys become progressively wider.\n <\/p>\n<\/dd>\n \n The long-term view is part of the Analyzer View<\/em><\/a> and shows things that span a relatively long range of time, such as a Spectrogram, a melody, or a musical piece. The long-term view has a frequency scale and a time scale.\n <\/p>\n<\/dd>\n \n A marker<\/a> marks a specific point in time, or a time range, in a recording. There are four types of markers: Auto Markers<\/em><\/a>, Range Markers<\/em><\/a>, Point Markers<\/em><\/a>, and the File Description<\/em><\/a>. <\/p>\n<\/dd>\n \n Short for Musical Instrument Digital Interface<\/em><\/span>, a standard protocol to encode messages to electronic instruments. MIDI is also used as a file format to store a musical piece as a sequence of notes.\n <\/p>\n<\/dd>\n \n A mono recording has one channel, for example the input of a single microphone.\n <\/p>\n<\/dd>\n \n Same as Overtone Slider<\/em><\/a>. The terms \u201cNote Slider<\/span>\u201d<\/span> and \u201cOvertone Slider<\/span>\u201d<\/span> are used synonymously, depending on the context.\n <\/p>\n<\/dd>\n A display that shows how a signal changes over time on a two dimensional graph, where one axis is time, and the other axis is the intensity of the signal.<\/p>\n In VoceVista Video Pro<\/span>, an oscilloscope display can be shown by zooming in the Waveform View<\/em><\/a> very far.<\/p>\n<\/dd>\n An overtone is a tone that relates to a specific fundamental tone. Each overtone has a frequency that is a whole multiple of the fundamental frequency. For example, if the fundamental has a frequency of 100Hz, its overtones have 200Hz, 300Hz, etc.<\/p>\n Also called harmonic<\/em><\/a>, or partial tone<\/em><\/a>.<\/p>\n<\/dd>\n \n Same as Note Slider. Overtone Sliders are a visual tool that is laid over the Spectrogram. Each slider represents Other word for overtone<\/em><\/a>.<\/p>\n<\/dd>\n \n Pitch is a perceptual property of a sound that corresponds to the frequency of a tone. Pitch allows to classify tones as \u201c
\n It has no unit, but is scaled into the range [-1, 1], where -1 and 1 represent the largest values that a particular
\n file format can encode.\n <\/p>\n<\/dd>\n
\n When used to represent the intensity<\/em><\/a> of an audio signal or of individual frequency components, the reference level is 0dB, which
\n represents the loudest sound that can be encoded in a particular file format. A decibel value of 0dB equals an amplitude of 1.
\n All intensities that are smaller than the loudest reference level have a negative decibel value. The available range depends on the bit depth of the file format.
\n With 16 bit, the smallest intensity that can be represented is -90dB, and with 24 bit, it is approximately -140dB.\n <\/p>\n<\/dd>\n
\n The dynamic range is typically measured in decibel<\/em><\/a>.
\n In digital audio, common dynamic range values are 90db (for 16-bit audio), and 140db (for 24-bit audio).\n <\/p>\n<\/dd>\n
\n while the Spectrum shows the intensities of the individual frequency components. The intensity can be measured as amplitude<\/em><\/a>, or in decibel<\/em><\/a>.\n <\/p>\n
\n differently. For example, if two tones are played with the same intensity, one with 100Hz, and the other with 1000Hz, a human listener
\n might hear one as louder than the other, even though they have the same amplitude when leaving the speaker.
\n The intensity that VoceVista Video Pro<\/span> can show is therefore not the loudness experienced by a human listener, but the sound pressure level
\n recorded by the microphone.\n <\/p>\n<\/dd>\n
\n A log scale can be useful to display numbers that range from very small to very large, especially values that
\n represent quantities perceived by humans. On a log scale, numbers with the same distance to each other have the same ratio, whereas on a linear scale, numbers with the same distance have the same difference.\n <\/p>\n
\n It can hold text to name and describe the area of interest. Markers can be used as searchable bookmarks to
\n easily find specific points in a recording, and to add comments and notes.\n<\/p>\n
\n In VoceVista Video Pro<\/span>, MIDI output is used to play the keys of the piano keyboard and of overtone sliders. It can be send to the standard MIDI synthesizer that is part of the operating system, or it can be send to external instruments connected to the computer.<\/p>\n
\n a frequency. This can be interpreted as a music note, and it can be played as a sound. Sliders can be \u201cdrawn out<\/span>\u201d<\/span> to show the overtones and undertones of the fundamental
\n frequency. Sliders can be used to highlight a specific frequency or note, to illustrate principles of music theory and acoustics, or to transcribe
\n a piece of music and show its notes.\n <\/p>\n<\/dd>\n