dTpdPde2D: Transition probability density in 2D by PDE solving
In sdetorus: Statistical Tools for Toroidal Diffusions
dTpdPde2D R Documentation
Transition probability density in 2D by PDE solving
Description
Computation of the transition probability density (tpd) of the
Wrapped Normal (WN) or Multivariate von Mises (MvM) diffusion, by solving
its associated Fokker–Planck Partial Differential Equation (PDE) in 2D.
Usage
dTpdPde2D(Mx = 50, My = 50, x0, t, alpha, mu, sigma, rho = 0,
type = "WN", Mt = ceiling(100 * t), sdInitial = 0.1, ...)
Arguments
Mx, My
sizes of the equispaced spatial grids in [-\pi,\pi) for each component.
x0
point giving the mean of the initial circular density, an
isotropic WN with standard deviations equal to sdInitial.
t
time separating x0 and the evaluation of the tpd.
alpha
for "WN", a vector of length 3 parametrizing
the A matrix as in alphaToA. For "vM", a vector
of length 3 containing c(alpha[1:2], A[1, 2]), from the
arguments alpha and A in driftMvm.
mu
vector of length 2 giving the mean.
sigma
for "WN", a vector of length 2 containing the
square root of the diagonal of the diffusion matrix. For
"vM", the standard deviation giving the isotropic diffusion matrix.
rho
for "WN", the correlation of the diffusion matrix.
type
either "WN" or "vM".
Mt
size of the time grid in [0, t].
sdInitial
standard deviations of the concentrated WN giving the
initial condition.
...
Further parameters passed to crankNicolson2D.
Details
A combination of small sdInitial and coarse space-time
discretization (small Mx and Mt) is prone to create numerical
instabilities. See Sections 3.4.2, 2.2.1 and 2.2.2 in García-Portugués et al.
(2019) for details.
Value
A matrix of size c(Mx, My) with the tpd evaluated at the
combinations of seq(-pi, pi, l = Mx + 1)[-(Mx + 1)] and
seq(-pi, pi, l = My + 1)[-(My + 1)].
References
García-Portugués, E., Sørensen, M., Mardia, K. V. and Hamelryck, T. (2019)
Langevin diffusions on the torus: estimation and applications.
Statistics and Computing, 29(2):1–22. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1007/s11222-017-9790-2")}
Examples
M <- 100
x <- seq(-pi, pi, l = M + 1)[-c(M + 1)]
image(x, x, dTpdPde2D(Mx = M, My = M, x0 = c(0, pi), t = 1,
alpha = c(1, 1, 0.5), mu = c(pi / 2, 0), sigma = 1:2),
zlim = c(0, 0.25), col = matlab.like.colorRamps(20),
xlab = "x", ylab = "y")
sdetorus documentation built on June 22, 2024, 6:58 p.m.
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| dTpdPde2D | R Documentation |
Transition probability density in 2D by PDE solving
Description
Computation of the transition probability density (tpd) of the Wrapped Normal (WN) or Multivariate von Mises (MvM) diffusion, by solving its associated Fokker–Planck Partial Differential Equation (PDE) in 2D.
Usage
dTpdPde2D(Mx = 50, My = 50, x0, t, alpha, mu, sigma, rho = 0,
type = "WN", Mt = ceiling(100 * t), sdInitial = 0.1, ...)
Arguments
Mx, My |
sizes of the equispaced spatial grids in |
x0 |
point giving the mean of the initial circular density, an
isotropic WN with standard deviations equal to |
t |
time separating |
alpha |
for |
mu |
vector of length |
sigma |
for |
rho |
for |
type |
either |
Mt |
size of the time grid in |
sdInitial |
standard deviations of the concentrated WN giving the initial condition. |
... |
Further parameters passed to |
Details
A combination of small sdInitial and coarse space-time
discretization (small Mx and Mt) is prone to create numerical
instabilities. See Sections 3.4.2, 2.2.1 and 2.2.2 in García-Portugués et al.
(2019) for details.
Value
A matrix of size c(Mx, My) with the tpd evaluated at the
combinations of seq(-pi, pi, l = Mx + 1)[-(Mx + 1)] and
seq(-pi, pi, l = My + 1)[-(My + 1)].
References
García-Portugués, E., Sørensen, M., Mardia, K. V. and Hamelryck, T. (2019) Langevin diffusions on the torus: estimation and applications. Statistics and Computing, 29(2):1–22. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1007/s11222-017-9790-2")}
Examples
M <- 100
x <- seq(-pi, pi, l = M + 1)[-c(M + 1)]
image(x, x, dTpdPde2D(Mx = M, My = M, x0 = c(0, pi), t = 1,
alpha = c(1, 1, 0.5), mu = c(pi / 2, 0), sigma = 1:2),
zlim = c(0, 0.25), col = matlab.like.colorRamps(20),
xlab = "x", ylab = "y")
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