Add to ORKGJournal ArticleBirdsong is a widely used model for vocal learning and human speech, which exhibits high temporal and acoustic diversity. Rapid acoustic modulations are thought to arise from the vocal organ, the syrinx, by passive interactions between the two independent sound generators or intrinsic nonlinear dynamics of sound generating structures. Additionally, direct neuromuscular control could produce such rapid and precisely timed acoustic features if syringeal muscles exhibit rare superfast muscle contractile kinetics. However, no direct evidence exists that avian vocal muscles can produce modulations at such high rates
Journal ArticleBirdsong production requires coordinated activity of syringeal and respiratory muscle...
The manner in which the brain sends commands to muscles to enact behavior is instrumental to our abi...
The coordination of complex vocal behaviors like human speech and oscine birdsong requires fine inte...
© The Authors, 2008. This article is distributed under the terms of the Creative Commons Attributio...
Birdsong is a widely used model for vocal learning and human speech, which exhibits high temporal an...
As animals vocalize, their vocal organ transforms motor commands into vocalizations for social commu...
Journal ArticleIn this work we present an experimental validation of a recently proposed model for t...
Bird songs frequently contain trilling sounds that demand extremely fast vocalization control1, 2. H...
The biomechanics of sound production forms an integral part of the neuromechanical control loop of a...
1. The contribution of syringeal muscles to controlling the pho-nology of song was studied by record...
pre-printFrequency modulation is a salient acoustic feature of birdsong. Its control is usually attr...
Journal ArticleIn this work, we build an electronic syrinx, i.e., a programmable electronic device c...
In most animals that vocalize, control of fundamental frequency is a key element for effective commu...
Background: Like human infants, songbirds learn their species-specific vocalizations through imitat...
Brain machine interfaces (BMIs) hold promise to restore impaired motor function and serve as powerfu...
Journal ArticleBirdsong production requires coordinated activity of syringeal and respiratory muscle...
The manner in which the brain sends commands to muscles to enact behavior is instrumental to our abi...
The coordination of complex vocal behaviors like human speech and oscine birdsong requires fine inte...
© The Authors, 2008. This article is distributed under the terms of the Creative Commons Attributio...
Birdsong is a widely used model for vocal learning and human speech, which exhibits high temporal an...
As animals vocalize, their vocal organ transforms motor commands into vocalizations for social commu...
Journal ArticleIn this work we present an experimental validation of a recently proposed model for t...
Bird songs frequently contain trilling sounds that demand extremely fast vocalization control1, 2. H...
The biomechanics of sound production forms an integral part of the neuromechanical control loop of a...
1. The contribution of syringeal muscles to controlling the pho-nology of song was studied by record...
pre-printFrequency modulation is a salient acoustic feature of birdsong. Its control is usually attr...
Journal ArticleIn this work, we build an electronic syrinx, i.e., a programmable electronic device c...
In most animals that vocalize, control of fundamental frequency is a key element for effective commu...
Background: Like human infants, songbirds learn their species-specific vocalizations through imitat...
Brain machine interfaces (BMIs) hold promise to restore impaired motor function and serve as powerfu...
Journal ArticleBirdsong production requires coordinated activity of syringeal and respiratory muscle...
The manner in which the brain sends commands to muscles to enact behavior is instrumental to our abi...
The coordination of complex vocal behaviors like human speech and oscine birdsong requires fine inte...