Attila Andics
Senior Research Fellow
lecturer
lecturer
Contact details
Address
1117 Budapest, Pázmány Péter sétány 1/c.
Room
6.205/a
Phone/Extension
1075
E-mail
Links
ORCID
Scopus
Google Scholar
Publications
Szakmai honlap
Doktori.hu
Scientific classifications
- 1. Natural sciences
- 1.6 Biological sciences
- Behavioural sciences biology
- 1.6 Biological sciences
Main research areas
comparative cognitive neuroscience of voice and speech processing
Comparative ethological and cognitive neuroscientific investigations of voice and speech processing in the framework of a Lendület research group (2017-2022) and an ERC Starting Grant (2021-2026). Vocalizations of any mammal carry prominent cues about the inner states and identity of the vocalizer. Voice is also a prevalent channel for humans’ recently emerged communication system, speech. Recent evidence suggests that certain human auditory brain specializations and mechanisms, relevant for voice and speech perception, reflect abrupt shifts in human capacities compared to other primates. Do these brain specializations for voice and speech perception reflect human-specific predispositions and are thus human-unique, or are they the consequence of rapid evolutionary adaptations or developmental accommodations of the ancient voice perception system to recent demands imposed by the presence of speech? I hypothesize that in general voice perception mechanisms are conserved across mammals, and provide a neuronal niche in which specializations for human voice and speech perception may arise also in non-humans. The case of companion animals provides an unparalleled model system to study the possible evolutionary and experiential effects of the presence of speech on the mammalian voice perception system. Dogs and pigs are phylogenetically distant, highly vocal species that live, when kept as companions, with humans. VOIMA combines ethology and brain imaging (EEG/fMRI/HD-DOT) to compare voice and speech processing in humans, dogs and pigs: WP1 seeks evidence for selective processing of conspecific voices, human voice, and speech. WP2 explores the mechanisms and specific sensitivities for inner state coding, voice identity recognition and vocalizer normalization, from con- and heterospecific voice. WP3 tests how sensitivities to human voice and speech emerge across dog breed types, in neonate dogs, pigs, wolves and wild boars, and in input-manipulated developing dogs. Revealing how adaptation to the human social niche shapes domestic mammals' voice perception, this project will provide new insights on how speech shaped human voice perception.
Highlighted publications
- 2016 – Neural mechanisms for lexical processing in dogs – mtmt.hu
- 2021 – Neural processes underlying statistical learning for speech segmentation in dogs – mtmt.hu
- 2024 – Neural evidence for referential understanding of object words in dogs – mtmt.hu
- 2025 – Action instruction word processing in the dog brain entails both auditory form identification and meaning representation – mtmt.hu
- 2026 – Cross-species acoustic codes for yes and no in human nonverbal vocalizations – mtmt.hu