Loudness level

== What is loudness? ==

Loudness is the certain criterion of a sound, which correlate with physical strength of sound(amplitude). Loudness also can scaling a sound, extending from quiet to loud. Sometimes, loudness is confused with other measures of sound strength, such as sound pressure, sound intensity and sound power. However, loudness is much more complex than other types of sound strength. Besides, loudness is also affected by additional parameters other than sound pressure, for example, frequency, bandwidth and duration. NO PROPER DEFINITION OF LOUDNESS GIVEN



Unit of loudness(level)
Characteristic of loudness was discovered (DISCOVERED?) by certain graph, equal loudness curve. Loudness(or loudness level) can be measured by two kinds of units, sone and phon.



Sone
The sone is a unit of loudness, which proposed by Stanley Smith Stevens, 1936. It is a non-SI unit. According to Stevens' definition, a loudness of 1 sone has a same value with the loudness of a signal at 40 phons, the loudness level of a 1 kHz tone at 40 dB SPL. Sone But phons scale with level in dB, not with loudness, so the sone and phon scales are not proportional.





Phon
The phon is a unit of loudness level for pure tones. Its purpose is to compensate for the effect of frequency on the perceived loudness of tones. This unit was proposed by S. S. Stevens. By definition, the number of phon of a sound is the dBSPL of a sound at a frequency of 1 kHz that sounds just as loud. This implies that 0 phon is the limit of perception, and inaudible sounds have negative phon levels. The phon unit is not an SI unit in metrology. As a result, phon shows that feeling of sound can be changed by frequency.

Equal loudness graph(ELG)
An equal-loudness grqph is a measure of sound pressure (dB, SPL), over the frequency spectrum, for which a listener perceives a constant loudness when presented with pure steady tones. The unit of measurement for loudness levels is the phon, and is arrived at by reference to equal-loudness contours. The sensitivity of the human ear changes as a function of frequency, as shown in the equal-loudness graph. Each line on this graph shows the SPL required for frequencies to be perceived as equally loud. It also shows that humans with good hearing are most sensitive to sounds around 2–4 kHz, with sensitivity declining to either side of this region. A complete model of the perception of loudness will include the integration of SPL by frequency and the duration of each.