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Moving product

`M = movprod(A,k)`

`M = movprod(A,[kb kf])`

`M = movprod(___,dim)`

`M = movprod(___,nanflag)`

`M = movprod(___,Name,Value)`

`M = movprod(`

returns
an array of local `A`

,`k`

)`k`

-point products, where each
product is calculated over a sliding window of length `k`

across
neighboring elements of `A`

. `M`

is
the same size as `A`

.

When `k`

is odd, the window is centered about
the element in the current position. When `k`

is
even, the window is centered about the current and previous elements.
The window size is automatically truncated at the endpoints when there
are not enough elements to fill the window. When the window is truncated,
the product is taken over only the elements that fill the window.

If

`A`

is a vector, then`movprod`

operates along the length of the vector.If

`A`

is a multidimensional array, then`movprod`

operates along the first array dimension whose size does not equal 1.

`M = movprod(___,`

computes
the product along dimension `dim`

)`dim`

for any of the
previous syntaxes. For example, if `A`

is a matrix,
then `movprod(A,k,2)`

operates across the columns
of `A`

, computing the `k`

-element
sliding product for each row.

`M = movprod(___,`

specifies
whether to include or omit `nanflag`

)`NaN`

values from the
calculation for any of the previous syntaxes. `movprod(A,k,'includenan')`

includes
all `NaN`

values in the calculation, which is the
default. `movprod(A,k,'omitnan')`

ignores them and
computes the product over fewer points.

`M = movprod(___,`

specifies
additional parameters for the moving product using one or more name-value
pair arguments. For example, if `Name,Value`

)`x`

is a vector of
time values, then `movprod(A,k,'SamplePoints',x)`

computes
the moving product relative to the times in `x`

.

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