dWDSTP_grid: Generate Grid for PDF of the Weibull Dual-Stage Two-Phase...

In ream: Density, Distribution, and Sampling Functions for Evidence Accumulation Models

Generate Grid for PDF of the Weibull Dual-Stage Two-Phase Model of Selective Attention

Description

Generate a grid of response-time values and the corresponding PDF values. For more details on the model see, for example, dWDSTP.

Usage

dWDSTP_grid(rt_max = 10, phi, x_res = "default", t_res = "default")

Arguments

rt_max	maximal response time <- max(rt)
phi	parameter vector in the following order: Non-decision time (t_{nd}). Time for non-decision processes such as stimulus encoding and response execution. Total decision time t is the sum of the decision and non-decision times. Relative start (w). Sets the start point of accumulation as a ratio of the two decision thresholds. Related to the absolute start z point via equation z = b_l + w*(b_u - b_l). Relative start of the target selection process (w_{ts}). Sets the start point of accumulation for the target selection process as a ratio of the two decision thresholds. Related to the absolute start z_{ts} point via equation z_{ts} = b_{lts} + w_ts*(b_{uts} – b_{lts}). Target stimulus strength (\mu_t). Congruence parameter (c). Set experiment congruency. In congruent condition c = 1, in incongruent condition c = -1, and in neutral condition c = 0. Non-target stimulus strength (\mu_{nt}). Drift rate following target selection i.e. stage 2 (\mu_2). Scale parameter for Weibull function (\lambda). Shape parameter for Weibull function (\kappa). Noise scale (\sigma). Model scaling parameter. Decision thresholds (b). Sets the location of each decision threshold. The upper threshold b_u is above 0 and the lower threshold b_l is below 0 such that b_u = -b_l = b. The threshold separation a = 2b. Target selection decision thresholds (b_{ts}). Sets the location of each decision threshold for the target selection process. The upper threshold b_{uts} is above 0 and the lower threshold b_{lts} is below 0 such that b_{uts} = -b_{lts} = b_{ts}. The threshold separation a_{ts} = 2b_{ts}. Contamination (g). Sets the strength of the contamination process. Contamination process is a uniform distribution f_c(t) where f_c(t) = 1/(g_u-g_l) if g_l <= t <= g_u and f_c(t) = 0 if t < g_l or t > g_u. It is combined with PDF f_i(t) to give the final combined distribution f_{i,c}(t) = g*f_c(t) + (1-g)*f_i(t), which is then output by the program. If g = 0, it just outputs f_i(t). Lower bound of contamination distribution (g_l). See parameter g. Upper bound of contamination distribution (g_u). See parameter g.
x_res	spatial/evidence resolution
t_res	time resolution

Value

list of RTs and corresponding defective PDFs at lower and upper threshold

Author(s)

Raphael Hartmann & Matthew Murrow

References

Hübner, R., Steinhauser, M., & Lehle, C. (2010). A dual-stage two-phase model of selective attention. Psychological Review, 117(3), 759-784.

ream documentation built on Oct. 7, 2024, 1:20 a.m.