Abstract
AbstractThe phenomenon of semantic satiation, which refers to the loss of meaning of a word or phrase after being repeated many times, is a well-known psychological phenomenon. However, the microscopic neural computational principles responsible for these mechanisms remain unknown. In this study, we use a deep learning model of continuous coupled neural networks to investigate the mechanism underlying semantic satiation and precisely describe this process with neuronal components. Our results suggest that, from a mesoscopic perspective, semantic satiation may be a bottom-up process. Unlike existing macroscopic psychological studies that suggest that semantic satiation is a top-down process, our simulations use a similar experimental paradigm as classical psychology experiments and observe similar results. Satiation of semantic objectives, similar to the learning process of our network model used for object recognition, relies on continuous learning and switching between objects. The underlying neural coupling strengthens or weakens satiation. Taken together, both neural and network mechanisms play a role in controlling semantic satiation.
Publisher
Springer Science and Business Media LLC
Reference67 articles.
1. Lambert, W. E. & Jakobovits, L. A. Verbal satiation and changes in the intensity of meaning. J. Exp. Psychol. 60, 376 (1960).
2. Das, J. P. Verbal conditioning and behaviour (Elsevier, 2014).
3. Bassett, M. & Warne, C. On the lapse of verbal meaning with repetition. A. J. Psychol. 30, 415–418 (1919).
4. Esposito, N. J. & Pelton, L. H. Review of the measurement of semantic satiation. Psychol. Bull. 75, 330 (1971).
5. Di Bona, E. On hearing meanings. reflections on the method of contrast, adaptational effects, and semantic satiation. Rivista di filosofia 111, 215–237 (2020).