FINITE DIFFERENCE AND PDE - kuliah.ftsl.itb.ac.id · Finite differences Finite volumes -...
Transcript of FINITE DIFFERENCE AND PDE - kuliah.ftsl.itb.ac.id · Finite differences Finite volumes -...
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FINITE DIFFERENCE
AND PDE Haryo Tomo
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Finite differences
Finite volumes
- time-dependent PDEs
-> robust, simple concept, easy to
parallelize, regular grids, explicit method
Finite elements - static and time-dependent PDEs
-> implicit approach, matrix inversion, well founded,
irregular grids, more complex algorithms,
engineering problems
- time-dependent PDEs
-> robust, simple concept, irregular grids, explicit
method
Numerical methods: properties
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Particle-based
methods
Pseudospectral
methods
- lattice gas methods
- molecular dynamics
- granular problems
- fluid flow
- earthquake simulations
-> very heterogeneous problems, nonlinear problems
Boundary element
methods
- problems with boundaries (rupture)
- based on analytical solutions
- only discretization of planes
-> good for problems with special boundary conditions
(rupture, cracks, etc)
- orthogonal basis functions, special case of FD
- spectral accuracy of space derivatives
- wave propagation, ground penetrating radar
-> regular grids, explicit method, problems with
strongly heterogeneous media
Other numerical methods
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What is a finite difference? Common definitions of the derivative of f(x):
dx
xfdxxff
dxx
)()(lim
0
dx
dxxfxff
dxx
)()(lim
0
dx
dxxfdxxff
dxx
2
)()(lim
0
These are all correct definitions in the limit dx->0.
But we want dx to remain FINITE
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What is a finite difference? The equivalent approximations of the derivatives are:
dx
xfdxxffx
)()(
dx
dxxfxffx
)()(
dx
dxxfdxxffx
2
)()(
forward difference
backward difference
centered difference
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The big question:
How good are the FD approximations?
This leads us to Taylor series....
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Taylor Series Taylor series are expansions of a function f(x) for some
finite distance dx to f(x+dx)
What happens, if we use this expression for
dx
xfdxxffx
)()(
?
...)(!4
)(!3
)(!2
)(dx)()( ''''4
'''3
''2
' xfdx
xfdx
xfdx
xfxfdxxf
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Taylor Series ... that leads to :
The error of the first derivative using the forward
formulation is of order dx.
Is this the case for other formulations of the derivative?
Let’s check!
)()(
...)(!3
)(!2
)(dx1)()(
'
'''3
''2
'
dxOxf
xfdx
xfdx
xfdxdx
xfdxxf
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... with the centered formulation we get:
The error of the first derivative using the centered
approximation is of order dx2.
This is an important results: it DOES matter which formulation
we use. The centered scheme is more accurate!
Taylor Series
)()(
...)(!3
)(dx1)2/()2/(
2'
'''3
'
dxOxf
xfdx
xfdxdx
dxxfdxxf
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'''!3
)2(''
!2
)2(')2()2(
32
fdx
fdx
fdxfdxxf *a |
*b |
*c |
*d |
... again we are looking for the coefficients a,b,c,d with which
the function values at x±(2)dx have to be multiplied in order
to obtain the interpolated value or the first (or second) derivative!
... Let us add up all these equations like in the previous case ...
'''!3
)(''
!2
)(')()(
32
fdx
fdx
fdxfdxxf
'''!3
)(''
!2
)(')()(
32
fdx
fdx
fdxfdxxf
'''!3
)2(''
!2
)2(')2()2(
32
fdx
fdx
fdxfdxxf
Higher order operators
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Problems: Stability
2
2
22
)()(2
)()(2)()(
sdtdttptp
dxxpxpdxxpdx
dtcdttp
1 dx
dtc
Stability: Careful analysis using harmonic functions shows that a stable numerical calculation is subject to special conditions (conditional stability). This holds for many numerical problems. (Derivation on the board).
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Problems: Dispersion
2
2
22
)()(2
)()(2)()(
sdtdttptp
dxxpxpdxxpdx
dtcdttp
Dispersion: The numerical approximation has artificial dispersion, in other words, the wave speed becomes frequency dependent (Derivation in the board). You have to find a frequency bandwidth where this effect is small. The solution is to use a sufficient number of grid points per wavelength.
True velocity
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Finite Differences - Summary
Conceptually the most simple of the numerical methods and
can be learned quite quickly
Depending on the physical problem FD methods are
conditionally stable (relation between time and space
increment)
FD methods have difficulties concerning the accurate
implementation of boundary conditions (e.g. free surfaces,
absorbing boundaries)
FD methods are usually explicit and therefore very easy to
implement and efficient on parallel computers
FD methods work best on regular, rectangular grids
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Partial Differential Equations
by Lale Yurttas, Texas A&M
University Part 8 14
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PERSAMAAN DIFERENSIAL PARSIAL
• Persamaan Umum
• Menyatakan bagaimana variabel tak bebas Ø berubah
terhadap variabel bebas x,y. Disini a,b,c,d,e,f, dan g
mungkin merupakan fungsi dari Ø
02
22
2
2
gf
ye
xd
yc
yxb
xa
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Jenis2 PDP
• Ditentukan oleh harga b2-4ac
< 0, eliptic
= 0, parabolic
> 0, hyperbolic
• Adveksi…
• Difusi….
• Gelombang…
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JENIS-
JENIS
PDP
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by Lale Yurttas, Texas A&M
University 18
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The Laplacian Difference Equations/
04
022
2
2
0
,1,1,,1,1
2
1,,1,
2
,1,,1
2
1,,1,
2
2
2
,1,,1
2
2
2
2
2
2
jijijijiji
jijijijijiji
jijiji
jijiji
TTTTT
yx
y
TTT
x
TTT
y
TTT
y
T
x
TTT
x
T
y
T
x
T
by Lale Yurttas, Texas A&M
University Chapter 29
Laplacian difference
equation.
Holds for all interior points
Laplace Equation
O[(x)2]
O[(y)2]
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by Lale Yurttas, Texas A&M
University Chapter 29 20
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• In addition, boundary conditions along the edges must be
specified to obtain a unique solution.
• The simplest case is where the temperature at the boundary is
set at a fixed value, Dirichlet boundary condition.
• A balance for node (1,1) is:
• Similar equations can be developed for other interior points to
result a set of simultaneous equations.
04
0
75
04
211211
10
01
1110120121
TTT
T
T
TTTTT
by Lale Yurttas, Texas A&M
University Chapter 29 21
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1504
1004
1754
504
04
754
504
04
754
332332
33231322
231312
33322231
2332221221
13221211
323121
22132111
122111
TTT
TTTT
TTT
TTTT
TTTTT
TTTT
TTT
TTTT
TTT
• The result is a set of nine simultaneous equations with nine
unknowns:
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x
Diffusion
Equation Diffusion 2
2
x
hD
t
h
h
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x
d
hu D
x
x
x
du dd
uu x
x
h
duh x x t
x
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duh x x t
x
d
hu D
x
duh
t x
0t
2
2
h hD
t x
Diffusion Equation
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Numerical Solution of Diffusion Eq.
( )h i
( 1)h i
( 1)h i
1
( ) ( 1)h h i h i
x x
x
h
2
( 1) ( )h h i h i
x x
2
2
2 1
1h h h
x x x x
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x
t
x
t
1 2 ・・・・・ i-1 i i+1 ・・・・ N
1
2
・・
j-1
j
j
+
J
),( jih
)1,1( jih
Numerical Calculation of Diffusion Equation
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t
jihjih
t
h
),()1,(
2
2
2
( 1, ) ( , ) ( , ) ( 1, )
( 1, ) 2 ( , ) ( 1, )
h D h i j h i j h i j h i jD
x x x x
h i j h i j h i jD
x
2
( , 1) ( , )
{ ( 1, ) 2 ( , ) ( 1, )}
h i j h i j
D th i j h i j h i j
x
Unknown
Known
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Numerical Solution of Diffusion Equation
x
t
x
t
1 2 ・・・・・ i-1 i i+1 ・・・・ N
1
2
・・
j-1
j
j
+
J
Initial Condition (Given)
Boundary Condition (Given)
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2
2
( ) ( ) ( 1) 2 ( ) ( 1)
2
( ) ( )
new old old old old
newold
do ,N-1
end do
do ,N-1
end do
i
th i h i h i h i h i D
x
i
h i h i
2( , 1) ( , ) { ( 1, ) 2 ( , ) ( 1, )}
D th i j h i j h i j h i j h i j
x
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Contoh
• Cari solusinya dengan step size 0,2
• Jumlah titik solusi n=((2-1)/0,2)-1=4
• Kita dapatkan 4 persamaan, satu untuk tiap titik yang
dicari.
6)2(,1)1(,423 2
2
2
yyxydx
dy
dx
yd
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Penyelesaian dengan Beda Hingga
Persamaannya:
Buat persamaan untuk semua titik, mulai dari i=1,
hingga i=4
x0=a x1 x2 x3 x4 x5=b
211
2
11 422
32
iiiiiii xy
h
yy
h
yyy
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Domain Solusi
y5=6
y0=1
x0=1 x5=2
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Penyelesaian dg Finite Diff.
• Dengan h = 0,2
• Buat persamaan untuk semua titik, mulai dari i=1,
hingga i=4
• Masukkan nilai-nilai x1=1,2 hingga x4 =1,8 dan kondisi
batas y0 = 1 dan y5 = 6
2
11 45,17485,32 iiii xyyy
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Kondisi batas • Dirichlet atau fixed boundary,
misal C(0) = Co
• Neuman atau natural boundary,
misal dC/dx = 0
• Robin/ Cauchy boundary condition,
misal dC/dx + C = 0
• Penerapan dalam finite difference dengan menambahkan
imaginary node
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penyelesaian
persamaan
parabolik
dengan
skema
eksplisit
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persamaan diferensial,
ditulis dalam bentuk metode beda hingga,
SEHINGGA…
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penyelesaian
persamaan
eliptik laplace
….equation
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Stabilitas skema eksplisit
k
k
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penyelesaian
persamaan
parabolik
dengan
skema
implisit
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