In rats, the long facial whiskers (mystacial macrovibrissae) are repetitively and rapidly swept back and forth during exploration in a behaviour known as ‘whisking’. In this paper, we summarize previous evidence from rats, and present new data for rat, mouse and the marsupial grey short-tailed opossum (Monodelphis domestica) showing that whisking in all three species is actively controlled both with respect to movement of the animal's body and relative to environmental structure. Using automatic whisker tracking, and Fourier analysis, we first show that the whisking motion of the mystacial vibrissae, in the horizontal plane, can be approximated as a blend of two sinusoids at the fundamental frequency (mean 8.5, 11.3 and 7.3 Hz in rat, mouse...
Abstract While most mammals have whiskers, some tactile specialists - mainly small, nocturnal and ar...
All small mammals have prominent facial whiskers that they employ as tactile sensors to guide naviga...
We investigated the natural resonance properties and damping characteristics of rat macrovibrissae (...
Facial vibrissae, or whiskers, are found in nearly all extant mammal species and are likely to have ...
Rodents, such as rats and mice, are strongly tactile animals who explore the environment with their ...
SummaryDuring exploration, rats and other small mammals make rhythmic back-and-forth sweeps of their...
Animals actively move their sensory organs in order to acquire sensory information. Some rodents, su...
Abstract. The rat whisker system may be a good model for approaching the design of robust robotic ac...
Exploratory "whisking" is a rhythmic motor activity that enables rodents to locate objects in their ...
Movable tactile sensors in the form of whiskers are present in most mammals, but sensory coding in t...
While most mammals have whiskers, some tactile specialists - mainly small, nocturnal and arboreal sp...
All small mammals have prominent facial whiskers that they employ as tactile sensors to guide naviga...
Animals actively regulate the position and movement of their sensory systems to boost the quality an...
SummaryEyes may be ‘the window to the soul’ in humans, but whiskers provide a better path to the inn...
Tactile hair, or vibrissae, are a mammalian characteristic found on many mammals (Ahl, 1986). Vibris...
Abstract While most mammals have whiskers, some tactile specialists - mainly small, nocturnal and ar...
All small mammals have prominent facial whiskers that they employ as tactile sensors to guide naviga...
We investigated the natural resonance properties and damping characteristics of rat macrovibrissae (...
Facial vibrissae, or whiskers, are found in nearly all extant mammal species and are likely to have ...
Rodents, such as rats and mice, are strongly tactile animals who explore the environment with their ...
SummaryDuring exploration, rats and other small mammals make rhythmic back-and-forth sweeps of their...
Animals actively move their sensory organs in order to acquire sensory information. Some rodents, su...
Abstract. The rat whisker system may be a good model for approaching the design of robust robotic ac...
Exploratory "whisking" is a rhythmic motor activity that enables rodents to locate objects in their ...
Movable tactile sensors in the form of whiskers are present in most mammals, but sensory coding in t...
While most mammals have whiskers, some tactile specialists - mainly small, nocturnal and arboreal sp...
All small mammals have prominent facial whiskers that they employ as tactile sensors to guide naviga...
Animals actively regulate the position and movement of their sensory systems to boost the quality an...
SummaryEyes may be ‘the window to the soul’ in humans, but whiskers provide a better path to the inn...
Tactile hair, or vibrissae, are a mammalian characteristic found on many mammals (Ahl, 1986). Vibris...
Abstract While most mammals have whiskers, some tactile specialists - mainly small, nocturnal and ar...
All small mammals have prominent facial whiskers that they employ as tactile sensors to guide naviga...
We investigated the natural resonance properties and damping characteristics of rat macrovibrissae (...