% Exercise 2.2
%
% This MATLAB script accompanies the chapter "Distinguishing between models
% of perceptual decision making" by J. Ditterich in the book "An
% Introduction to Model-Based Cognitive Neuroscience". It demonstrates that
% a sequential sampling mechanism that does not take advantage of temporal
% integration requires a relatively large number of samples to achieve
% accurate decisions. Please note that this script has been optimized for
% readability, not execution speed.
%
% J. Ditterich, 12/2012
clear;
close all;
% Parameters
% Adjust the decision threshold (between 5 and 10) until an accuracy of
% approximately 90% is obtained!
thr = 6; % decision threshold (B)
dist_mean = 1; % mean of normal distribution from which random samples are drawn
dist_sd = 3; % standard deviation of normal distribution from which random samples are drawn
trials = 20000; % number of trials to be simulated
% Let's go...
dt_vec = []; % vector of decision times
num_correct = 0; % number of correct decisions
disp('Starting simulation...');
for i = 1 : trials % simulate each trial
num_samples = 0; % initialize number of drawn samples
while 1 % loop for sequential sampling
cur_samp = random('norm',dist_mean,dist_sd); % draw a new random number
num_samples = num_samples + 1; % update number of random samples (reflecting decision time)
if cur_samp > thr % Did we exceed the upper threshold?
dt_vec = [dt_vec num_samples]; % store the decision time
num_correct = num_correct+1; % keep track of accuracy
break; % terminate the loop for this trial
end;
if cur_samp < -thr % Did we cross the lower threshold?
dt_vec = [dt_vec num_samples]; % store the decision time
break; % terminate the loop for this trial
end;
end;
if mod(i,1000) == 0
disp([num2str(i) ' trials completed.']);
end;
end;
disp(' ');
disp(['Accuracy: ' num2str(num_correct/trials*100,'%.1f') '%']);
disp(['Average number of evaluated samples: ' num2str(mean(dt_vec),'%.1f')]);