ETM: Exponential Threshold Model

rt

vector of response times

resp

vector of responses ("upper" and "lower")

phi

parameter vector in the following order:

1. 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.

2. 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 \(z = b_l + w*(b_u - b_l)\).

3. Stimulus strength (\(\mu\)). Strength of the stimulus and used to set the drift rate. For changing threshold models \(v(x,t) = \mu\).

4. Noise scale (\(\sigma\)). Model noise scale parameter.

5. Initial decision threshold location (\(b_0\)). Sets the location of each decision threshold at time \(t = 0\).

6. Log10-rate of threshold change (\(log_{10}(\tau)\)).

7. 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 \(f_i(t)\).

8. Lower bound of contamination distribution (\(g_l\)). See parameter \(g\).

9. Upper bound of contamination distribution (\(g_u\)). See parameter \(g\).

x_res

spatial/evidence resolution

t_res

time resolution

n

number of samples

dt

step size of time. We recommend 0.00001 (1e-5)

Raphael Hartmann & Matthew Murrow