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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Binding problem | 6/6 | https://en.wikipedia.org/wiki/Binding_problem | reference | science, encyclopedia | 2026-05-05T15:12:30.252490+00:00 | kb-cron |
== Shared intentionality and binding == According to bioengineer Igor Val Danilov, the mother–fetus neurocognitive model—knowledge about neurophysiological processes during shared intentionality—can reveal insights into the binding problem and even the perception of object development since intentionality succeeds before organisms confront the binding problem. Indeed, at the beginning of life, the environment is the cacophony of stimuli: electromagnetic waves, chemical interactions, and pressure fluctuations. Because the environment is uncategorised for the organisms at this beginning stage of development, the sensation is too limited by the noise to solve the cue problem—the relevant stimulus cannot overcome the noise magnitude if it passes through the senses. While very young organisms need to combine objects, background and abstract or emotional features into a single experience for building the representation of the surrounded reality, they cannot distinguish relevant sensory stimuli independently to integrate them into object representations. Even the embodied dynamical system approach cannot get around the cue to noise problem. The application of embodied information requires an already categorised environment onto objects—holistic representation of reality—which occurs through (and only after the emergence of) perception and intentionality. In short, properties of the mother's heart—the electromagnetic and acoustic oscillations—converge the neuronal activity of both nervous systems in an ensemble, shaping synchrony. During the mother's intentional acts with her environment, these interchanges provide clues to the fetus's nervous system, binding synaptic activity with relevant stimuli, occurring due to brain wave interaction between the mother's and fetal nervous systems.
== See also == Artificial Intelligence Frame problem Hard problem of consciousness Neural coding Philosophy of perception Problem of mental causation Symbol grounding Vertiginous question Synesthesia
== References ==
== Further reading == Zimmer, H. D. (Hubert D.); Mecklinger, Axel.; Lindenberger, Ulman. (2006). Handbook of binding and memory: perspectives from cognitive neuroscience. Oxford; New York: Oxford University Press. ISBN 978-0-19-852967-5. OCLC 63702616.