dst0WienerCDF: Partial derivative of the first-passage time cumulative...

View source: R/dst0WienerDist.R

dst0WienerCDFR Documentation

Partial derivative of the first-passage time cumulative distribution function of the diffusion model with respect to the inter-trial variability of the non-decision time

Description

Calculates the partial derivative of the first-passage time cumulative distribution function of the diffusion model with respect to the inter-trial variability of the non-decision time st0.

Usage

dst0WienerCDF(
  t,
  response,
  a,
  v,
  w,
  t0 = 0,
  sv = 0,
  sw = 0,
  st0,
  precision = NULL,
  K = NULL,
  n.threads = FALSE,
  n.evals = 6000
)

Arguments

t

First-passage time. Numeric vector.

response

Response boundary. Character vector with "upper" and "lower" as possible values. Alternatively a numeric vector with 1=lower and 2=upper.

a

Upper barrier. Numeric vector.

v

Drift rate. Numeric vector.

w

Relative starting point. Numeric vector.

t0

Non-decision time. Numeric vector

sv

Inter-trial variability of drift rate. Numeric vector. Standard deviation of a normal distribution N(v, sv).

sw

Inter-trial variability of relative starting point. Numeric vector. Range of uniform distribution U(w-0.5*sw, w+0.5*sw).

st0

Inter-trial variability of non-decision time. Numeric vector. Range of uniform distribution U(t0, t0+st0).

precision

Optional numeric value. Precision of the partial derivative. Numeric value. Default is NULL, which takes default value 1e-12.

K

Optional. Number of iterations to calculate the infinite sums. Numeric value (integer). Default is NULL.

  • precision = NULL and K = NULL: Default precision = 1e-12 used to calculate internal K.

  • precision != NULL and K = NULL: precision is used to calculate internal K,

  • precision = NULL and K != NULL: K is used as internal K,

  • precision != NULL and K != NULL: if internal K calculated through precision is smaller than K, K is used.

We recommend using either default (precision = K = NULL) or only precision.

n.threads

Optional numerical or logical value. Number of threads to use. If not provided (or 1 or FALSE) parallelization is not used. If set to TRUE then all available threads are used.

n.evals

Optional. Number of maximal function evaluations in the numeric integral. Default is 6000 and 0 implies no limit and the numeric integration goes on until the specified precision is guaranteed.

Value

A list of the class Diffusion_deriv containing

  • deriv: the derivatives of the CDF with respect to w,

  • call: the function call,

  • err: the absolute error.

Author(s)

Raphael Hartmann

References

Hartmann, R., & Klauer, K. C. (2021). Partial derivatives for the first-passage time distribution in Wiener diffusion models. Journal of Mathematical Psychology, 103, 102550. \Sexpr[results=rd]{tools:::Rd_expr_doi("10.1016/j.jmp.2021.102550")}

Examples

dst0WienerCDF(t = 1.2, response = "upper", a = 1.1, v = 13, w = .6, t0 = .3, st0 = .1)

WienR documentation built on July 9, 2023, 5:16 p.m.

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