SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2998999889> ?p ?o ?g. }

Showing items 1 to 100 of ±197 with 100 items per page.

W2998999889 abstract "Abstract In systems neuroscience, most models posit that brain regions communicate information under constraints of efficiency. Yet, evidence for efficient communication in structural brain networks characterized by hierarchical organization and highly connected hubs remains sparse. The principle of efficient coding proposes that the brain transmits maximal information in a metabolically economical or compressed form to improve future behavior. To determine how structural connectivity supports efficient coding, we develop a theory specifying minimum rates of message transmission between brain regions to achieve an expected fidelity, and we test five predictions from the theory based on random walk communication dynamics. In doing so, we introduce the metric of compression efficiency, which quantifies the trade-off between lossy compression and transmission fidelity in structural networks. In a large sample of youth ( n = 1,042; age 8-23 years), we analyze structural networks derived from diffusion weighted imaging and metabolic expenditure operationalized using cerebral blood flow. We show that structural networks strike compression efficiency trade-offs consistent with theoretical predictions. We find that compression efficiency prioritizes fidelity with development, heightens when metabolic resources and myelination guide communication, explains advantages of hierarchical organization, links higher input fidelity to disproportionate areal expansion, and shows that hubs integrate information by lossy compression. Lastly, compression efficiency is predictive of behavior—beyond the conventional network efficiency metric—for cognitive domains including executive function, memory, complex reasoning, and social cognition. Our findings elucidate how macroscale connectivity supports efficient coding, and serve to foreground communication processes that utilize random walk dynamics constrained by network connectivity. Author Summary Macroscale communication between interconnected brain regions underpins most aspects of brain function and incurs substantial metabolic cost. Understanding efficient and behaviorally meaningful information transmission dependent on structural connectivity has remained challenging. We validate a model of communication dynamics atop the macroscale human structural connectome, finding that structural networks support dynamics that strike a balance between information transmission fidelity and lossy compression. Notably, this balance is predictive of behavior and explanatory of biology. In addition to challenging and reformulating the currently held view that communication occurs by routing dynamics along metabolically efficient direct anatomical pathways, our results suggest that connectome architecture and behavioral demands yield communication dynamics that accord to neurobiological and information theoretical principles of efficient coding and lossy compression." @default.
W2998999889 created "2020-01-23" @default.
W2998999889 creator A5001885115 @default.
W2998999889 creator A5005234637 @default.
W2998999889 creator A5009266404 @default.
W2998999889 creator A5018607314 @default.
W2998999889 creator A5021061052 @default.
W2998999889 creator A5024589723 @default.
W2998999889 creator A5039906500 @default.
W2998999889 creator A5041082600 @default.
W2998999889 creator A5058169245 @default.
W2998999889 creator A5058192322 @default.
W2998999889 creator A5058433895 @default.
W2998999889 creator A5060417820 @default.
W2998999889 date "2020-01-15" @default.
W2998999889 modified "2023-10-16" @default.
W2998999889 title "Efficient Coding in the Economics of Human Brain Connectomics" @default.
W2998999889 cites W1471548710 @default.
W2998999889 cites W1508769776 @default.
W2998999889 cites W1970613379 @default.
W2998999889 cites W1973747802 @default.
W2998999889 cites W1974764791 @default.
W2998999889 cites W1975201511 @default.
W2998999889 cites W1975821649 @default.
W2998999889 cites W1981964569 @default.
W2998999889 cites W1983485726 @default.
W2998999889 cites W1985486578 @default.
W2998999889 cites W1988516611 @default.
W2998999889 cites W1990574575 @default.
W2998999889 cites W1998071216 @default.
W2998999889 cites W1998859476 @default.
W2998999889 cites W1999135091 @default.
W2998999889 cites W1999350894 @default.
W2998999889 cites W1999488699 @default.
W2998999889 cites W1999890357 @default.
W2998999889 cites W2002205771 @default.
W2998999889 cites W2005476331 @default.
W2998999889 cites W2005900392 @default.
W2998999889 cites W2007734075 @default.
W2998999889 cites W2008620264 @default.
W2998999889 cites W2009499611 @default.
W2998999889 cites W2009726930 @default.
W2998999889 cites W2010195483 @default.
W2998999889 cites W2018049970 @default.
W2998999889 cites W2020306690 @default.
W2998999889 cites W2025660290 @default.
W2998999889 cites W2033708181 @default.
W2998999889 cites W2042422091 @default.
W2998999889 cites W2043542879 @default.
W2998999889 cites W2046641115 @default.
W2998999889 cites W2046915931 @default.
W2998999889 cites W2060464767 @default.
W2998999889 cites W2066653668 @default.
W2998999889 cites W2066835186 @default.
W2998999889 cites W2069088601 @default.
W2998999889 cites W2071608556 @default.
W2998999889 cites W2074376560 @default.
W2998999889 cites W2079598623 @default.
W2998999889 cites W2081015195 @default.
W2998999889 cites W2082326637 @default.
W2998999889 cites W2109105547 @default.
W2998999889 cites W2117987496 @default.
W2998999889 cites W2122609459 @default.
W2998999889 cites W2126322809 @default.
W2998999889 cites W2126956247 @default.
W2998999889 cites W2129823286 @default.
W2998999889 cites W2131681506 @default.
W2998999889 cites W2133645220 @default.
W2998999889 cites W2142029338 @default.
W2998999889 cites W2143502460 @default.
W2998999889 cites W2144588131 @default.
W2998999889 cites W2151936673 @default.
W2998999889 cites W2152435897 @default.
W2998999889 cites W2153234270 @default.
W2998999889 cites W2155847838 @default.
W2998999889 cites W2156737316 @default.
W2998999889 cites W2161493176 @default.
W2998999889 cites W2162763711 @default.
W2998999889 cites W2163886718 @default.
W2998999889 cites W2167479345 @default.
W2998999889 cites W2168336873 @default.
W2998999889 cites W2170328207 @default.
W2998999889 cites W2173905415 @default.
W2998999889 cites W2211147350 @default.
W2998999889 cites W2216403645 @default.
W2998999889 cites W2339054975 @default.
W2998999889 cites W2467410077 @default.
W2998999889 cites W2469257888 @default.
W2998999889 cites W2497939844 @default.
W2998999889 cites W2499800833 @default.
W2998999889 cites W2514959782 @default.
W2998999889 cites W2549355627 @default.
W2998999889 cites W2559781538 @default.
W2998999889 cites W2563000655 @default.
W2998999889 cites W2617657205 @default.
W2998999889 cites W2726651083 @default.
W2998999889 cites W2755945667 @default.
W2998999889 cites W2773293192 @default.
W2998999889 cites W2774313241 @default.
W2998999889 cites W2774446342 @default.