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Sample (signal) : ウィキペディア英語版
Sampling (signal processing)

In signal processing, sampling is the reduction of a continuous signal to a discrete signal. A common example is the conversion of a sound wave (a continuous signal) to a sequence of samples (a discrete-time signal).
A sample is a value or set of values at a point in time and/or space.
A sampler is a subsystem or operation that extracts samples from a continuous signal.
A theoretical ideal sampler produces samples equivalent to the instantaneous value of the continuous signal at the desired points.
== Theory ==

Sampling can be done for functions varying in space, time, or any other dimension, and similar results are obtained in two or more dimensions.
For functions that vary with time, let ''s''(''t'') be a continuous function (or "signal") to be sampled, and let sampling be performed by measuring the value of the continuous function every ''T'' seconds, which is called the sampling interval.  Then the sampled function is given by the sequence:
:''s''(''nT''),   for integer values of ''n''.
The sampling frequency or sampling rate, fs, is the average number of samples obtained in one second (''samples per second''), thus fs = 1/T.
Reconstructing a continuous function from samples is done by interpolation algorithms. The Whittaker–Shannon interpolation formula is mathematically equivalent to an ideal lowpass filter whose input is a sequence of Dirac delta functions that are modulated (multiplied) by the sample values. When the time interval between adjacent samples is a constant (''T''), the sequence of delta functions is called a Dirac comb. Mathematically, the modulated Dirac comb is equivalent to the product of the comb function with ''s''(''t''). That purely mathematical abstraction is sometimes referred to as ''impulse sampling''.
Most sampled signals are not simply stored and reconstructed. But the fidelity of a theoretical reconstruction is a customary measure of the effectiveness of sampling. That fidelity is reduced when ''s''(''t'') contains frequency components whose periodicity is smaller than 2 samples; or equivalently the ratio of cycles to samples exceeds ½ (see Aliasing). The quantity ½ ''cycles/sample'' × fs ''samples/sec'' = fs/2 ''cycles/sec'' (hertz) is known as the Nyquist frequency of the sampler. Therefore, ''s''(''t'') is usually the output of a lowpass filter, functionally known as an ''anti-aliasing filter''. Without an anti-aliasing filter, frequencies higher than the Nyquist frequency will influence the samples in a way that is misinterpreted by the interpolation process.〔C. E. Shannon, "Communication in the presence of noise", Proc. Institute of Radio Engineers, vol. 37, no.1, pp. 10–21, Jan. 1949. (Reprint as classic paper in: ''Proc. IEEE'', Vol. 86, No. 2, (Feb 1998) )〕

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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