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7) Provocative evidence that the brain's geometry affords more parsimonious and accurate predictions of macroscale neural activity than models with interconnected nodes. www.nature.com/articles/s41... Pang et al.
Cortical and subcortical activity can be parsimoniously understood as resulting from excitations of fundamental, resonant modes of the brain’s geometry rather than from modes of complex interregiona...
6) A model of space and concept learning with both algorithmic and neural commitments. www.science.org/doi/full/10.... by Mok & Love.
A neural flocking rule captures how units coordinate to support learning in the hippocampus.
5) A prudent analysis on how neural oscillations relate to representation, leveraging the always useful causal/constitutive distinction. philpapers.org/rec/MARNOA-7 by Martínez & Artiga.
We explore the contribution made by oscillatory, synchronous neural activity to representation in the brain. We closely examine six prominent examples of brain function in which neural oscillations pl...
4) A sharp piece on the computational capacities of neural oscillations, and what they can and can't do for syntactical processing. www.nature.com/articles/s41...www.sandervanbree.com/posts/1497-t... ).
Neural oscillations are thought to have an important role in syntactic structure building but views differ on their exact function in this context. In this Perspective, Kazanina and Tavano explore two...
3) A philosophical treatment of constraint, which is a form of non-causal explanation that's kind of trendy right now. link.springer.com/article/10.1... by Ross.
This paper provides an analysis of explanatory constraints and their role in scientific explanation. This analysis clarifies main characteristics of explanatory constraints, ways in which they differ ...
2) A review on brain circuits of spatial navigation in fruit flies and other insects. www.annualreviews.org/doi/abs/10.1... by Wilson.
Anterior and posterior human hippocampus display different theta rates and functions (spatial vs non-spatial processing): www.nature.com/articles/s41...
We show that the human hippocampus exhibits two distinct theta oscillations during spatial navigation with the faster oscillation in posterior regions showing movement modulation. This result suggests...