Class FastSineTransformer
- All Implemented Interfaces:
Serializable,RealTransformer
There are several variants of the discrete sine transform. The present
implementation corresponds to DST-I, with various normalization conventions,
which are specified by the parameter DstNormalization.
It should be noted that regardless to the convention, the first
element of the dataset to be transformed must be zero.
DST-I is equivalent to DFT of an odd extension of the data series. More precisely, if x0, …, xN-1 is the data set to be sine transformed, the extended data set x0#, …, x2N-1# is defined as follows
- x0# = x0 = 0,
- xk# = xk if 1 ≤ k < N,
- xN# = 0,
- xk# = -x2N-k if N + 1 ≤ k < 2N.
Then, the standard DST-I y0, …, yN-1 of the real
data set x0, …, xN-1 is equal to half
of i (the pure imaginary number) times the N first elements of the DFT of the
extended data set x0#, …,
x2N-1#
yn = (i / 2) ∑k=02N-1
xk# exp[-2πi nk / (2N)]
k = 0, …, N-1.
The present implementation of the discrete sine transform as a fast sine
transform requires the length of the data to be a power of two. Besides,
it implicitly assumes that the sampled function is odd. In particular, the
first element of the data set must be 0, which is enforced in
transform(UnivariateFunction, double, double, int, TransformType),
after sampling.
- See Also:
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Constructor Summary
ConstructorsConstructorDescriptionFastSineTransformer(DstNormalization normalization) Creates a new instance of this class, with various normalization conventions. -
Method Summary
Modifier and TypeMethodDescriptionprotected double[]fst(double[] f) Perform the FST algorithm (including inverse).double[]transform(double[] f, TransformType type) Returns the (forward, inverse) transform of the specified real data set.double[]transform(UnivariateFunction f, double min, double max, int n, TransformType type) Returns the (forward, inverse) transform of the specified real function, sampled on the specified interval.
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Constructor Details
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FastSineTransformer
Creates a new instance of this class, with various normalization conventions.- Parameters:
normalization- the type of normalization to be applied to the transformed data
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Method Details
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transform
Returns the (forward, inverse) transform of the specified real data set. The first element of the specified data set is required to be0.- Specified by:
transformin interfaceRealTransformer- Parameters:
f- the real data array to be transformed (signal)type- the type of transform (forward, inverse) to be performed- Returns:
- the real transformed array (spectrum)
- Throws:
MathIllegalArgumentException- if the length of the data array is not a power of two, or the first element of the data array is not zero
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transform
Returns the (forward, inverse) transform of the specified real function, sampled on the specified interval. This implementation enforcesf(x) = 0.0atx = 0.0.- Specified by:
transformin interfaceRealTransformer- Parameters:
f- the function to be sampled and transformedmin- the (inclusive) lower bound for the intervalmax- the (exclusive) upper bound for the intervaln- the number of sample pointstype- the type of transform (forward, inverse) to be performed- Returns:
- the real transformed array
- Throws:
MathIllegalArgumentException- if the lower bound is greater than, or equal to the upper boundMathIllegalArgumentException- if the number of sample points is negativeMathIllegalArgumentException- if the number of sample points is not a power of two
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fst
Perform the FST algorithm (including inverse). The first element of the data set is required to be0.- Parameters:
f- the real data array to be transformed- Returns:
- the real transformed array
- Throws:
MathIllegalArgumentException- if the length of the data array is not a power of two, or the first element of the data array is not zero
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