The basic psychophysical principle of speed-accuracy tradeoff (SAT) has been used to understand key aspects of neuronal information processing in vision and audition, but the principle of SAT is still debated in olfaction. In this study we present the direct observation of SAT in olfaction. We developed a behavioral paradigm for mice in which both the duration of odorant sampling and the difficulty of the odor discrimination task were controlled by the experimenter. We observed that the accuracy of odor discrimination increases with the duration of imposed odorant sampling, and that the rate of this increase is slower for harder tasks. We also present a unifying picture of two previous, seemingly disparate experiments on timing of odorant s...
Relationships between accuracy and speed of decision-making, or speed-accuracy tradeoffs (SAT), hav...
A major challenge in neuroscience is relating neuronal activity to animal behavior. In olfaction lim...
While it is commonly assumed that decisions taken slowly result in superior outcomes, is it possible...
SummaryThe basic psychophysical principle of speed-accuracy tradeoff (SAT) has been used to understa...
Odor discrimination times and their dependence on stimulus similarity were evaluated to test tempora...
Odor discrimination times and their dependence on stimulus similarity were evaluated to test tempora...
AbstractOdor discrimination times and their dependence on stimulus similarity were evaluated to test...
In this issue of Neuron, Rinberg et al. show that mice use a speed-accuracy tradeoff in odor discrim...
Response accuracy and odor sample times on positive (S+) and negative (S) trials were recorded for m...
The sense of smell is typically thought of as a 'slow' sense, but the true temporal constraints on t...
Odor discrimination is a complex task that may be improved by increasing sampling time to facilitate...
The olfactory environment is first represented by glomerular activity patterns in the olfactory bulb...
The olfactory environment is first represented by glomerular activity patterns in the olfactory bulb...
In awake mice, sniffing behavior is subject to complex contextual modulation. It has been hypothesiz...
Mammalian olfactory receptor neurons in the nasal cavity are stimulated by odorants carried by the i...
Relationships between accuracy and speed of decision-making, or speed-accuracy tradeoffs (SAT), hav...
A major challenge in neuroscience is relating neuronal activity to animal behavior. In olfaction lim...
While it is commonly assumed that decisions taken slowly result in superior outcomes, is it possible...
SummaryThe basic psychophysical principle of speed-accuracy tradeoff (SAT) has been used to understa...
Odor discrimination times and their dependence on stimulus similarity were evaluated to test tempora...
Odor discrimination times and their dependence on stimulus similarity were evaluated to test tempora...
AbstractOdor discrimination times and their dependence on stimulus similarity were evaluated to test...
In this issue of Neuron, Rinberg et al. show that mice use a speed-accuracy tradeoff in odor discrim...
Response accuracy and odor sample times on positive (S+) and negative (S) trials were recorded for m...
The sense of smell is typically thought of as a 'slow' sense, but the true temporal constraints on t...
Odor discrimination is a complex task that may be improved by increasing sampling time to facilitate...
The olfactory environment is first represented by glomerular activity patterns in the olfactory bulb...
The olfactory environment is first represented by glomerular activity patterns in the olfactory bulb...
In awake mice, sniffing behavior is subject to complex contextual modulation. It has been hypothesiz...
Mammalian olfactory receptor neurons in the nasal cavity are stimulated by odorants carried by the i...
Relationships between accuracy and speed of decision-making, or speed-accuracy tradeoffs (SAT), hav...
A major challenge in neuroscience is relating neuronal activity to animal behavior. In olfaction lim...
While it is commonly assumed that decisions taken slowly result in superior outcomes, is it possible...