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The Heaviside step function, named in honor of Oliver Heaviside, is a discontinuous function whose value is zero for negative inputs and one elsewhere:
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The function is used in the mathematics of signal processing
to represent a signal that switches on at a specified time and stays switched on indefinitely. Its derivative is formally the Dirac delta
function.
It is the cumulative distribution
function of a random variable which is almost surely 0. (See constant random variable.)
The Heaviside function is the integral of the Dirac delta
function. The value of H(0) is of very little importance, since the function is often used within an integral. Some writers give H(0) = 0, some H(0) = 1. H(0) = 0.5 is often used, since
it maximizes the symmetry of the function. This makes the definition:
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This is sometimes notated by a subscript, as in H0.5(x), which means that H(0) = 0.5. This notation is also used to
represent a completely different concept, however; an x offset:
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where c is a positive offset in the x-dimension of the transition from 0 to 1. In other words,
H3(x) = H(x − 3) would be zero until x = 3, and would transition to
1 for x > 3. The meaning of the subscript should be given in context.
The question of the Fourier transform of H is an interesting
example for the theory of distributions. It is often stated that it is 1/x,
up to a normalizing constant. But near x=0 that cannot be
justified: the definition must be given in terms of principal value limit, and the transform isn't to be treated simply as a function. The
corresponding convolution operator is the Hilbert transform.
Often an integral representation of the step function is useful,
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in the limit .
Related topics
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