SubsidieMeestersThe actuation of sound change
This project investigates the cognitive, social, and phonetic factors driving sound change in languages by analyzing dialect pairs through speech imitation and computational modeling.
Projectdetails
Introduction
In William Shakespeare's times, 'knee' and 'knot' were pronounced with a /k/, just like German does today. But why did English and not German drop the /k/? This question is part of the actuation of sound change, recognized as one of the greatest challenges in linguistics, and which is about explaining why sound change happens, and why languages can follow such different paths of sound change.
The Actuation Puzzle
The actuation puzzle remains unsolved principally because the beginning of sound change is so gradual that it is undetectable even with modern instrumentation. Yet a breakthrough is essential for explaining why languages split and diversify.
Project Objectives
The project remedies this deficiency by determining how the cognitive mechanisms that control human speech processing, the social factors that bind individuals together, and the phonetic properties that shape a community's dialect can, in combination, cause the sounds of the world’s languages to become unstable and change.
Methodological Innovation
The methodological innovation is to recast the elusive actuation puzzle as an empirically tractable transformation of an input (A) into an output (B). Here A and B are two closely related, geographically proximal, living dialects whose sound patterns differ in whether one or more common sound changes have taken place.
Research Approach
The actuation puzzle is then solved with:
- Experiments in human speech imitation
- Computational modeling
These methods are used to estimate which combination of cognitive, social, and phonetic factors transforms A into B.
Generalization
Generalization is achieved by selecting dialect pairs from Bantu, Indo-European, and Japanese languages that differ markedly in their sound patterns and sociocultural background.
Wider Scientific Impact
The wider scientific impact lies in the commonality with many disciplines including ecology, economics, and geoscience in understanding complex systems (here: language) in which interactions between sub-components (here: communicating speakers) cause transitions (here: sound change) that are unevenly distributed in time.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 2.468.550 |
| Totale projectbegroting | € 2.468.550 |
Tijdlijn
| Startdatum | 1-2-2023 |
| Einddatum | 31-1-2028 |
| Subsidiejaar | 2023 |
Partners & Locaties
Projectpartners
- LUDWIG-MAXIMILIANS-UNIVERSITAET MUENCHENpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
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This project uses game-theoretic and reinforcement learning models to explore the balance between causes of language change and conservatism, analyzing historical data from three West Germanic languages.
Gates to Language
The GALA project investigates the biological mechanisms of language acquisition in humans and nonhuman species to uncover why only humans can learn language.
Defining an integrated model of the neural processing of speech in light of its multiscale dynamics
This project aims to develop an integrated model of speech perception by analyzing neural oscillatory dynamics and their relationship with linguistic timescales using advanced neuroimaging techniques.
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This project investigates how canaries learn and adapt hierarchical syntax rules in song production, using neural imaging and simulations to understand the underlying mechanisms of motor sequence control.
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