sim.seasonalNoise: Generation of Background Noise for Simulated Timeseries
In surveillance: Temporal and Spatio-Temporal Modeling and Monitoring of Epidemic Phenomena
View source: R/sim_background.R
sim.seasonalNoise R Documentation
Generation of Background Noise for Simulated Timeseries
Description
Generation of a cyclic model of a Poisson distribution
as background data for a simulated timevector.
The mean of the Poisson distribution is modelled as:
\mu = \exp(A \sin( frequency \cdot \omega \cdot (t + \phi)) + \alpha + \beta * t + K * state)
Usage
sim.seasonalNoise(A = 1, alpha = 1, beta = 0, phi = 0,
length, frequency = 1, state = NULL, K = 0)
Arguments
A
amplitude (range of sinus), default = 1.
alpha
parameter to move along the y-axis (negative values not allowed)
with alpha > = A, default = 1.
beta
regression coefficient, default = 0.
phi
factor to create seasonal moves
(moves the curve along the x-axis), default = 0.
length
number of weeks to model.
frequency
factor to determine the oscillation-frequency, default = 1.
state
if a state chain is entered the outbreaks will be additional
weighted by K.
K
additional weight for an outbreak which influences the distribution
parameter mu, default = 0.
Value
an object of class seasonNoise which includes the modelled
timevector, the parameter mu and all input parameters.
Author(s)
M. Höhle, A. Riebler, C. Lang
See Also
sim.pointSource
Examples
season <- sim.seasonalNoise(length = 300)
plot(season$seasonalBackground,type = "l")
# use a negative timetrend beta
season <- sim.seasonalNoise(beta = -0.003, length = 300)
plot(season$seasonalBackground,type = "l")
surveillance documentation built on Oct. 2, 2024, 1:08 a.m.
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View source: R/sim_background.R
| sim.seasonalNoise | R Documentation |
Generation of Background Noise for Simulated Timeseries
Description
Generation of a cyclic model of a Poisson distribution as background data for a simulated timevector.
The mean of the Poisson distribution is modelled as:
\mu = \exp(A \sin( frequency \cdot \omega \cdot (t + \phi)) + \alpha + \beta * t + K * state)
Usage
sim.seasonalNoise(A = 1, alpha = 1, beta = 0, phi = 0,
length, frequency = 1, state = NULL, K = 0)
Arguments
A |
amplitude (range of sinus), default = 1. |
alpha |
parameter to move along the y-axis (negative values not allowed) with alpha > = A, default = 1. |
beta |
regression coefficient, default = 0. |
phi |
factor to create seasonal moves (moves the curve along the x-axis), default = 0. |
length |
number of weeks to model. |
frequency |
factor to determine the oscillation-frequency, default = 1. |
state |
if a state chain is entered the outbreaks will be additional weighted by K. |
K |
additional weight for an outbreak which influences the distribution parameter mu, default = 0. |
Value
an object of class seasonNoise which includes the modelled
timevector, the parameter mu and all input parameters.
Author(s)
M. Höhle, A. Riebler, C. Lang
See Also
sim.pointSource
Examples
season <- sim.seasonalNoise(length = 300)
plot(season$seasonalBackground,type = "l")
# use a negative timetrend beta
season <- sim.seasonalNoise(beta = -0.003, length = 300)
plot(season$seasonalBackground,type = "l")
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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