CogMod Final Paper
- The Reward Experiment
- An ACT-R model that explains at least one of these effects (well)
- Report to justify design choices
- ‘cognitive’ interpretation, that is justifiable & plausible
To test
- linear decrease in goal activation
Papers
- Sequential effects within a short foreperiod context Evidence for the conditioning account of temporal preparation : IMPORTANT
- Traces of times past Representations of temporal intervals in memory : Explain the fanning effect
- The warning stimulus as retrieval cue The role of associative memory in temporal preparation : temporal preparation , sloping effects
- Modeling motivation using goal competition in mental fatigue studies : performance in reward vs non reward , distraction, linear decrease in goal activation
- The neural correlates of mental fatigue and reward processing - A task-based fMRI study : studies the physical brain effect of reward and fatigue
- Implicitly learning when to be ready - From instances to categories : fanning , maybe the graphs can also be explained by categorical association instead of just instance based
- On the Distinction Between Perceived Duration and Event Timing - Towards a Unified Model of Time Perception : brain uses temporal expectations to bias perception in a way that stimuli are ‘regularized’
- Change of Variable Foreperiod Effects within an Experiment - A Bayesian Modeling Approach : sequential modulation, which is attributed to feature binding and retrieval by the BRAC framework, could have different underlying mechanisms depending on the task scenario.
- Revisiting variable foreperiod effects evaluating the repetition priming account : change in foreperiod