Presentations

Displaying 1 - 10 of 10
  • Quaresima, A., Fitz, H., Petersson, K. M., & Hagoort, P. (2024). A biologically constrained model of word-form access. Poster presented at the Highlights in the Language Sciences Conference 2024, Nijmegen, The Netherlands.
  • Quaresima, A., Fitz, H., Duarte, R., Hagoort, P., & Petersson, K. M. (2023). Dendritic non-linearity supports the formation and reactivation of word memories as cell assemblies. Poster presented at the 15th Annual Meeting of the Society for the Neurobiology of Language (SNL 2023), Marseille, France.
  • Quaresima, A., Fitz, H., Duarte, R., Hagoort, P., & Petersson, K. M. (2023). Dendritic non-linearity supports the formation and reactivation of word memories as cell assemblies. Talk presented at the 15th Annual Meeting of the Society for the Neurobiology of Language (SNL 2023). Marseille, France. 2023-10-24 - 2023-10-26.
  • Quaresima, A., & Hagoort, P. (2023). Dendrites support the formation and recall of lexical memories. Poster presented at the 19th NVP Winter Conference on Brain and Cognition, Egmond aan Zee, The Netherlands.

    Abstract

    Phonological word forms are maintained in long-term memory and rapidly accessed during speech. However, the neural mechanisms that support the acquisition, maintenance, and recollection of word-form memories remain unclear. Starting from the hypothesis that dendrites and cell assemblies are the neural substrate for associating phoneme sequences to words, the present study investigates the dynamics of lexical access in a biologically constrained network model and compares it to the computational principles of human spoken word recognition. The model is a spiking recurrent network of dendritic neurons with realistic physiology and connectivity. The network implements unsupervised plasticity in the excitatory and inhibitory synapses, resulting in stable associations between phonemic and word representations. The activity of word assemblies indicates that, first, lexical representations are activated incrementally; second, lexical neighbors delay correct lexical access with both cohort and rhyme groups reactivated; and third, partial phonemic mismatch degrades word recognition. We also derive the model's predictions on the lexical bias effect and show that it is consistent with the hypothesis of offline feedback, providing a plausible mechanism for perceptual learning. In conclusion, we show that the dendrites could be the missing link between the perceptual space of phonemes and the mental lexicon.
  • Quaresima, A. (2022). Temporal order is made easy with heterogeneous timescales. Poster presented at the IMPRS Conference 2022, Nijmegen, the Netherlands.
  • Quaresima, A., Van den Broek, D., Fitz, H., Duarte, R., Hagoort, P., & Petersson, K. M. (2022). The Tripod neuron: a minimal model of dendric computation. Poster presented at Dendrites 2022: Dendritic anatomy, molecules and function, Heraklion, Greece.
  • Quaresima, A., Fitz, H., Duarte, R., Van den Broek, D., Hagoort, P., & Petersson, K. M. (2022). Dendritic NMDARs facilitate Up and Down states. Poster presented at Bernstein Conference 2022, Berlin, Germany.
  • Vlachos, P.-E., Quaresima, A., & Fitz, H. (2022). Sequence learning and replay through excitatory and inhibitory synaptic plasticity in recurrent spiking neural networks. Poster presented at Bernstein Conference 2022, Berlin, Germany.
  • Quaresima, A., Van den Broek, D., Fitz, H., Duarte, R., & Petersson, K. M. (2020). A minimal reduction of dendritic structure and its functional implication for sequence processing in biological neurons. Poster presented at the Twelfth Annual (Virtual) Meeting of the Society for the Neurobiology of Language (SNL 2020).
  • Quaresima, A., Duarte, R., & Fitz, H. (2019). Review of computational models of cortical microcircuits. Poster presented at the Max Planck Neuro Symposium. Max Planck Institute of Neurobiology, Martinsried, Germany.

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