Background: Investigating brain dynamics underlying vocal production in animals is a powerf u l w a y to inform on the neural bases of human speech. In particular, brain networks underlying vocal production in non-human primates show striking similarities with the human speech production network. However, despite increasing findings also in birds and more recently in rodents, the extent to which the primate vocal cortical network model generalizes to other non-primate mammals remains unclear. Especially, no domestic species has yet been pro-posed to investigate vocal brain activity using electrophysiological approaches.New method: In the present study, we introduce a novel experimental paradigm to identi f y the cortical dynamics underlying vocal production in behaving minipigs. A key problem to chronically implant cortical probes in pigs is the presence and growth of frontal sinuses extending caudally to the parietal bone and preventing safe access to neural structures with conventional craniotomy in adult animals.Results: Here we first show that implantations of sof t ECoG grids can be done safely using conventional crani-otomy in minipigs younger than 5 months, a period when sinuses are not yet wel l developed. Using wireless recordings in behaving animals, we further show activation of the motor and premotor cortex around the onset of vocal production of grunts, the most common vocalization of pigs. Conclusion: These results suggest that minipigs, which are ve r y loquacious and social animals, can be a good experimental large animal model to study the cortical bases of vocal production.