This Special Section on Language and Cognition of Journal of Electronic Science and Technology(JEST) presents a collective of state-of-theart interdisciplinary research on language and cognition. It features empiric...This Special Section on Language and Cognition of Journal of Electronic Science and Technology(JEST) presents a collective of state-of-theart interdisciplinary research on language and cognition. It features empirical and theoretical studies on cognitive approaches to language, using a variety of methodological approaches, from behavioral measures to neuroimaging. The topics discussed are varied,ranging from language comprehension and acquisition to the language-emotion interactions, reflecting marked broadening of the research agenda in this field. We invite yet more integrated research to move the field forward.展开更多
Information sharing is a critical task for group-living animals. The pattern of sharing can be modeled as a network whose structure can affect the decision-making performance of individual members as well as that of t...Information sharing is a critical task for group-living animals. The pattern of sharing can be modeled as a network whose structure can affect the decision-making performance of individual members as well as that of the group as a whole. A fully connected network, in which each member can directly transfer information to all other members, ensures rapid sharing of important information, such as a promising foraging location. However, it can also impose costs by amplifying the spread of inaccur- ate information (if, for example the foraging location is actually not profitable). Thus, an optimal net- work structure should balance effective sharing of current knowledge with opportunities to discover new information. We used a computer simulation to measure how well groups characterized by dif- ferent network structures (fully connected, small world, lattice, and random) find and exploit resource peaks in a variable environment. We found that a fully connected network outperformed other struc- tures when resource quality was predictable. When resource quality showed random variation, however, the small world network was better than the fully connected one at avoiding extremely poor outcomes. These results suggest that animal groups may benefit by adjusting their informa- tion-sharing network structures depending on the noisiness of their environment.展开更多
文摘This Special Section on Language and Cognition of Journal of Electronic Science and Technology(JEST) presents a collective of state-of-theart interdisciplinary research on language and cognition. It features empirical and theoretical studies on cognitive approaches to language, using a variety of methodological approaches, from behavioral measures to neuroimaging. The topics discussed are varied,ranging from language comprehension and acquisition to the language-emotion interactions, reflecting marked broadening of the research agenda in this field. We invite yet more integrated research to move the field forward.
文摘Information sharing is a critical task for group-living animals. The pattern of sharing can be modeled as a network whose structure can affect the decision-making performance of individual members as well as that of the group as a whole. A fully connected network, in which each member can directly transfer information to all other members, ensures rapid sharing of important information, such as a promising foraging location. However, it can also impose costs by amplifying the spread of inaccur- ate information (if, for example the foraging location is actually not profitable). Thus, an optimal net- work structure should balance effective sharing of current knowledge with opportunities to discover new information. We used a computer simulation to measure how well groups characterized by dif- ferent network structures (fully connected, small world, lattice, and random) find and exploit resource peaks in a variable environment. We found that a fully connected network outperformed other struc- tures when resource quality was predictable. When resource quality showed random variation, however, the small world network was better than the fully connected one at avoiding extremely poor outcomes. These results suggest that animal groups may benefit by adjusting their informa- tion-sharing network structures depending on the noisiness of their environment.
