Abstract
Artificial grammar learning (AGL) provides a useful tool for exploring rule learning strategies linked to general purpose pattern perception. To be able to directly compare performance of humans with other species with different memory capacities, we developed an AGL task in the visual domain. Presenting entire visual patterns simultaneously instead of sequentially minimizes the amount of required working memory. This approach allowed us to evaluate performance levels of two bird species, kea (Nestor notabilis) and pigeons (Columba livia), in direct comparison to human participants. After being trained to discriminate between two types of visual patterns generated by rules at different levels of computational complexity and presented on a computer screen, birds and humans received further training with a series of novel stimuli that followed the same rules, but differed in various visual features from the training stimuli. Most avian and all human subjects continued to perform well above chance during this initial generalization phase, suggesting that they were able to generalize learned rules to novel stimuli. However, detailed testing with stimuli that violated the intended rules regarding the exact number of stimulus elements indicates that neither bird species was able to successfully acquire the intended pattern rule. Our data suggest that, in contrast to humans, these birds were unable to master a simple rule above the finite-state level, even with simultaneous item presentation and despite intensive training.
Highlights
The capacity to learn and recognize complex regularities and generalize over stimuli that follow abstract rules is thought to be a prerequisite for the ability to acquire language in humans [1,2,3]
We investigate the ability of humans and two bird species to recognize abstract, higher-order visual patterns, constructed using rules at two levels of computational complexity
Our results clearly show that all participants were able to discriminate between two high-level patterns: training of both humans and two bird species in a 2-AFC resulted in successful discrimination of two types of visual patterns, each structured according to different rules
Summary
The capacity to learn and recognize complex regularities and generalize over stimuli that follow abstract rules is thought to be a prerequisite for the ability to acquire language in humans [1,2,3]. The visual stimuli were created from subunits that were non-representational tile images differing in many potential perceptual dimensions (including colour and shape), to rule out any influence of biological relevance of the stimuli to any species These meaningless, abstract patterns were presented to humans as well as to two bird species, pigeons (Columba livia) and kea (Nestor notabilis). Training was terminated when birds had completed a certain minimum number of sessions (18 sessions for kea, 24 sessions for pigeons) and performance had fulfilled a pre-specified learning criterion This was set to at least 70 per cent first correct choices per session in six consecutive sessions (corresponding to p , 0.008 in a one-sided binomial test). In the following test trials, performance did not differ between the two groups trained on either (AB)n or AnBn
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