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Samenvatting
Learning from past experience is an important adaptation and theoretical models may help to understand its evolution. Many of the existing models study simple phenotypes and do not consider the mechanisms underlying learning while the more complex neural network models often make biologically unrealistic assumptions and rarely consider evolutionary questions. Here, we present a novel way of modelling learning using small neural networks and a simple, biology-inspired learning algorithm. Learning affects only part of the network, and it is governed by the difference between expectations and reality. We use this model to study the evolution of learning under various environmental conditions and different scenarios for the trade-off between exploration (learning) and exploitation (foraging). Efficient learning readily evolves in our individual-based simulations. However, in line with previous studies, the evolution of learning is less likely in relatively constant environments, where genetic adaptation alone can lead to efficient foraging, or in short-lived organisms that cannot afford to spend much of their lifetime on exploration. Once learning does evolve, the characteristics of the learning strategy (i.e. the duration of the learning period and the learning rate) and the average performance after learning are surprisingly little affected by the frequency and/or magnitude of environmental change. In contrast, an organism's lifespan and the distribution of resources in the environment have a clear effect on the evolved learning strategy: a shorter lifespan or a broader resource distribution lead to fewer learning episodes and larger learning rates. Interestingly, a longer learning period does not always lead to better performance, indicating that the evolved neural networks differ in the effectiveness of learning. Overall, however, we show that a biologically inspired, yet relatively simple, learning mechanism can evolve to lead to an efficient adaptation in a changing environment.
Originele taal-2 | English |
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Artikelnummer | e1011840 |
Aantal pagina's | 24 |
Tijdschrift | PLoS Computational Biology |
Volume | 20 |
Nummer van het tijdschrift | 1 |
DOI's | |
Status | Published - 30-jan.-2024 |
Vingerafdruk
Duik in de onderzoeksthema's van 'A neural network model for the evolution of learning in changing environments'. Samen vormen ze een unieke vingerafdruk.Datasets
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Replication Data for: A neural network model for the evolution of learning in changing environments
Kozielska, M. (Creator) & Weissing, F. J. (Creator), DataverseNL, 21-dec.-2023
DOI: 10.34894/iywjzm
Dataset
Projecten
- 1 Afgelopen
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MARM: The evolution of adaptive response mechanisms
Weissing, F. (Hoofdonderzoeker), Kozielska-Reid, M. (Staff), Hildenbrandt, H. (Technician), Janzen, T. (Technician), Bakker, J. (Technician), Elsner, D. (Postdoc), Markovitch, O. (Postdoc), Boon, E. (Postdoc), Méndez Salinas, E. (Researcher), Ramesh, A. (PhD student), Netz, C. (PhD student), Gupte, P. (PhD student), Daras, I. (PhD student), Gismann, J. (PhD student), Long, X. (PhD student), Riederer, J. (PhD student), van Eldijk, T. (PhD student), Zheng, J. (PhD student), Tiso, S. (PhD student) & Rostovtseva, V. (PhD student)
01/12/2018 → 01/12/2023
Project: Research