Abstract
When two persons share a Simon task, a joint Simon effect occurs. The task co-representation account assumes that the joint Simon effect is the product of a vicarious representation of the co-actor’s task. In contrast, recent studies show that even (non-human) event-producing objects could elicit a Simon effect in an individual go/no-go Simon task arguing in favor of the referential coding account. For the human-induced Simon effect, a modulation of the P300 component in Electroencephalography (EEG) is typically considered as a neural indicator of the joint Simon effect and task co-representation. Showing that the object-induced Simon effects also modulates the P300 would lead to a re-evaluation of the interpretation of the P300 in individual go/no-go and joint Simon task contexts. To do so, the present study conceptually replicated Experiment 1 from Dolk et al. (2013a) adding EEG recordings and an experimenter controlling the EEG computer to test whether a modulation of the P300 can also be elicited by adding a Japanese waving cat to the task context. Subjects performed an individual go/no-go Simon task with or without a cat placed next to them. Results show an overall Simon effect regardless of the cat’s presence and no modulatory influence of the cat on the P300 (Experiment 1), even when conceivably interfering context factors are diminished (Experiment 2). These findings may suggest that the presence of a spatially aligned experimenter in the laboratory may produce an overall Simon effect overwriting a possible modulation of the Japanese waving cat.
Highlights
Coordinating human interaction is part of our daily life’s challenges
Experiment 1 of the present study aimed to replicate the objectinduced joint Simon effect found by Dolk et al (2013a) and the P300 effect induced by a human co-actor (Sebanz et al, 2006) using an individual go/no-go Simon task with visual stimuli
The (1) main effect of compatibility with faster reaction time (RT) for compatible trials than for incompatible trials prompts the presence of a Simon effect (Simon and Rudell, 1967) in the cat present as well as in the cat absent condition
Summary
Coordinating human interaction is part of our daily life’s challenges. Even simple activities as carrying furniture together require precise coordination of one’s own action with our co-actors’ actions (van der Wel et al, 2016). According to the dimensional overlap model (Kornblum et al, 1990), the stimulus location primes the spatially compatible response This results in faster and more accurate responses for compatible trials (required response and stimulus on the same side) compared to incompatible trials (spatial location of response and stimulus differ) which will elicit a response conflict requiring additional time to be solved (De Jong et al, 1994; Nicoletti and Umiltà, 1994; Hommel et al, 2001). This compatibility effect is the so-called Simon effect (Simon and Rudell, 1967; Hedge and Marsh, 1975)
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