overlap$56656$ - definizione. Che cos'è overlap$56656$
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Cosa (chi) è overlap$56656$ - definizione

Overlap-add Method; Overlap-add; Overlap add; Overlap-add method

Orbital overlap         
CONCENTRATION OF CHEMICAL ORBITALS ON ADJACENT ATOMS
Overlap matrix; Wikipedia talk:Articles for creation/Orbital Overlap
In chemical bonds, an orbital overlap is the concentration of orbitals on adjacent atoms in the same regions of space. Orbital overlap can lead to bond formation.
Overlap (railway signalling)         
LENGTH OF RAILWAY TRACK LEFT CLEAR BEYOND A STOP SIGNAL AS A SAFETY MEASURE
Overlap (railway); Signal overlap
An overlap in railway signalling is the length of track beyond a stop signal that is proved to be clear of vehicles in the controls of the previous signal, as a safety margin.
overlap         
WIKIMEDIA DISAMBIGUATION PAGE
Overlapping; Overlap (disambiguation)
(overlapped)
1.
If one thing overlaps another, or if you overlap them, a part of the first thing occupies the same area as a part of the other thing. You can also say that two things overlap.
When the bag is folded flat, the bag bottom overlaps one side of the bag...
Overlap the slices carefully so there are no gaps...
Use vinyl seam adhesive where vinyls overlap...
The edges must overlap each other or weeds will push through the gaps.
V-RECIP: V n, V pl-n, pl-n V, pl-n V n
2.
If one idea or activity overlaps another, or overlaps with another, they involve some of the same subjects, people, or periods of time.
Elizabeth met other Oxford intellectuals some of whom overlapped Naomi's world...
Christian holy week overlaps with the beginning of the Jewish holiday of Passover...
The needs of patients invariably overlap...
V-RECIP: V n, V with n, pl-n V
Overlap is also a noun.
...the overlap between civil and military technology...
N-VAR: oft N between pl-n

Wikipedia

Overlap–add method

In signal processing, the overlap–add method is an efficient way to evaluate the discrete convolution of a very long signal x [ n ] {\displaystyle x[n]} with a finite impulse response (FIR) filter h [ n ] {\displaystyle h[n]} :

where h[m] = 0 for m outside the region [1, M]. This article uses common abstract notations, such as y ( t ) = x ( t ) h ( t ) , {\textstyle y(t)=x(t)*h(t),} or y ( t ) = H { x ( t ) } , {\textstyle y(t)={\mathcal {H}}\{x(t)\},} in which it is understood that the functions should be thought of in their totality, rather than at specific instants t {\textstyle t} (see Convolution#Notation).

The concept is to divide the problem into multiple convolutions of h[n] with short segments of x [ n ] {\displaystyle x[n]} :

x k [ n ]     { x [ n + k L ] , n = 1 , 2 , , L 0 , otherwise , {\displaystyle x_{k}[n]\ \triangleq \ {\begin{cases}x[n+kL],&n=1,2,\ldots ,L\\0,&{\text{otherwise}},\end{cases}}}

where L is an arbitrary segment length. Then:

x [ n ] = k x k [ n k L ] , {\displaystyle x[n]=\sum _{k}x_{k}[n-kL],\,}

and y[n] can be written as a sum of short convolutions:

y [ n ] = ( k x k [ n k L ] ) h [ n ] = k ( x k [ n k L ] h [ n ] ) = k y k [ n k L ] , {\displaystyle {\begin{aligned}y[n]=\left(\sum _{k}x_{k}[n-kL]\right)*h[n]&=\sum _{k}\left(x_{k}[n-kL]*h[n]\right)\\&=\sum _{k}y_{k}[n-kL],\end{aligned}}}

where the linear convolution y k [ n ]     x k [ n ] h [ n ] {\displaystyle y_{k}[n]\ \triangleq \ x_{k}[n]*h[n]\,} is zero outside the region [1, L + M − 1]. And for any parameter N L + M 1 , {\displaystyle N\geq L+M-1,\,} it is equivalent to the N-point circular convolution of x k [ n ] {\displaystyle x_{k}[n]\,} with h [ n ] {\displaystyle h[n]\,} in the region [1, N].  The advantage is that the circular convolution can be computed more efficiently than linear convolution, according to the circular convolution theorem:

where:

  • DFTN and IDFTN refer to the Discrete Fourier transform and its inverse, evaluated over N discrete points, and
  • L is customarily chosen such that N = L+M-1 is an integer power-of-2, and the transforms are implemented with the FFT algorithm, for efficiency.