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Dynamic range is a term used frequently in numerous fields to describe the Ratio between the smallest and largest possible values of a changeable quantity. DYNAMIC RANGE AND HUMAN PERCEPTION The human senses of Sight and hearing have a very high dynamic range. A person is capable of hearing (and usefully discerning) anything from a quiet murmur in a soundproofed room to the sound of the loudest rock concert. A difference like this can be 100 DB which represents a difference in energy of 10,000,000,000. Equally a person can see objects in starlight (although Colour Differentiation is reduced at low light levels) or in bright sunlight, even though on a moonless night objects receive 1/1,000,000,000 of the illumination they would on a bright sunny day: that is a dynamic range of 90 dB. A person cannot perform these feats of perception at both extremes of the scale at the same time. The eyes take time to adjust to different light levels and the dynamic range of the human eye without any adjustment of the pupil is only approximately 30 dB. The instantaneous dynamic range of human audio perception is similar, so that, for example, a whisper cannot be heard in loud surroundings. Nevertheless, a good quality audio reproduction system should be able to reproduce accurately both the quiet sounds and the loud; and a good quality visual display system should be able to show both shadow details in nighttime scenes and the full brightness of sunny scenes. In practice it is difficult to achieve the full dynamic range seen by human beings using electronic equipment, since most electronic reproduction equipment is essentially linear rather than logarithmic like human perception. Electronically reproduced audio and video often uses some trickery to fit original material with a wide dynamic range into a narrower recorded dynamic range that can more easily be reproduced: this is dynamic compression. For example a good quality LCD display has a dynamic range of around 1000, or 30 dB
Dynamic range formula
(commercially the dynamic range is often called the "contrast ratio" meaning the full on/full off . EXAMPLES OF USAGE Audio Audio Engineer s often use ''dynamic range'' to describe the ratio of the loudest possible undistorted sound to the quietest or to the noise level, say of a Microphone or Loudspeaker . In digital audio, the maximum possible dynamic range is given by the Audio Bit Depth (see Signal-to-noise Ratio ). Dynamic range of an audio device is also sometimes referred to as the dynamic window. To mathematically determine a dynamic range you must add the headroom to the signal to noise ratio OR take the difference between the ceiling and noise floor of an audio device. For example, if the ceiling of a device is 10 dB and the floor is 3 dB then the dynamic range is 7 dB, since 10-3 = 7. Since the early 1990s it has been recommended by several authorities including the Audio Engineering Society that measurements of dynamic range be made with an audio signal present. This avoids questionable measurements based on the use of blank media, or muting circuits. Electronics Electronics engineers apply the term to:
In audio and electronics applications, the ratio involved is often so huge that it is converted to a Logarithm and specified in Decibel s. Music In ''' typically has a dynamic range of 6 to 10 dB, with some forms of music having as little as 1 dB or as much as 15 dB.1 Photography See Also: Exposure range Photographer s use Exposure Range as a Synonym for the ''luminosity range'' of a scene being photographed; the ''light sensitivity range'' of photographic film, paper and digital camera sensors; the ''opacity range'' of developed film images; the ''reflectance range'' of images on photographic papers. Metrology In metrology, such as when performed in support of science, engineering or manufacturing objectives, “dynamic range” refers to the range of values that can be measured by a sensor or metrology instrument. Often this dynamic range of measurement is limited at one end of the range by saturation of a sensing signal sensor or by physical limits that exist on the motion or other response capability of a mechanical indicator. The other end of the dynamic range of measurement is often limited by one or more sources of random Noise or uncertainty in signal levels that may be described as the defining the Sensitivity of the sensor or metrology device. When digital sensors or sensor signal converters are a component of the sensor or metrology device, the dynamic range of measurement will be also related to the number of binary digits (“bits”) into which any analog measurement quantities are converted to create digital numeric values. For example, a 12-bit digital sensor or converter can only provide a dynamic range in which the ratio of the maximum measured value to the minimum measured value is limited to 4096-to-1. Metrology systems and devices may use several basic methods to increase their basic dynamic range. These methods include averaging and other forms of filtering, repetition of measurements, nonlinear transformations to avoid saturation, etc. In more advance forms of metrology, such as multiwavelength Digital Holography , Interferometry measurements made at different scales (different wavelengths) can be combined to retain the same low-end resolution while extending the upper end of the dynamic range of measurement by orders of magnitude. Others High Dynamic Range Imaging is an emerging field in computer graphics which seeks to represent light levels (either measured or synthesised) as an open-ended range of absolute values, rather than as a simple ratio of 'full' brightness. This allows more accurate and realistic renderings. Standard Operating Level: A specified reference level. In recording applications, standard operating level is defined as O VU = + 4 dBm. |
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