visual displays, recognizing 13 distinct body patterns. Although this conclusion is based on extensive observations, a quantitative method for analysing complex patterning has obvious advantages. We formally define a body pattern in terms of the probabilities that various skin features are expressed, and use Bayesian statistical methods to estimate the number of distinct body patterns and their visual characteristics. For the dataset of cuttlefish coloration patterns recorded in our laboratory, this statistical method identifies 12–14 different patterns, a number consistent with the 13 found by Hanlon and Messenger. If used for signalling these would give a channel capacity of 3.4 bits per pattern. Bayesian generative models might be useful...
Cuttlefish and other cephalopods achieve dynamic background matching with two general classes of bod...
[[abstract]]We investigated some visual background features that influence young cuttlefish, Sepia p...
AbstractRapid adaptive camouflage is the primary defense of soft-bodied cuttlefish. Previous studies...
It might seem obvious that a camouflaged animal must generally match its background whereas to be co...
Few animals provide a readout that is as objective of their perceptual state as camouflaging cephalo...
International audienceTo camouflage themselves on the seafloor, European cuttlefish Sepia officinali...
It might seem obvious that a camouflaged animal must generally match its background whereas to be co...
We build a model of cuttlefish chromatophore excita-tion patterns due to environmental input. Specif...
AbstractCuttlefish are cephalopod molluscs that achieve dynamic camouflage by rapidly extracting vis...
Many cephalopods escape detection using camouflage. This behaviour relies on a visual assessment of ...
Juvenile cuttlefish (Sepia officinalis) camouflage themselves by changing their body pattern accordi...
Juvenile cuttlefish (Sepia officinalis) camouflage themselves by changing their body pattern accordi...
[[abstract]]Among the changeable camouflage patterns of cuttlefish, disruptive patterning is shown i...
Cephalopod mollusks including octopus and cuttlefish are adept at adaptive camouflage, varying their...
It might seem obvious that a camouflaged animal must generally match its background whereas to be co...
Cuttlefish and other cephalopods achieve dynamic background matching with two general classes of bod...
[[abstract]]We investigated some visual background features that influence young cuttlefish, Sepia p...
AbstractRapid adaptive camouflage is the primary defense of soft-bodied cuttlefish. Previous studies...
It might seem obvious that a camouflaged animal must generally match its background whereas to be co...
Few animals provide a readout that is as objective of their perceptual state as camouflaging cephalo...
International audienceTo camouflage themselves on the seafloor, European cuttlefish Sepia officinali...
It might seem obvious that a camouflaged animal must generally match its background whereas to be co...
We build a model of cuttlefish chromatophore excita-tion patterns due to environmental input. Specif...
AbstractCuttlefish are cephalopod molluscs that achieve dynamic camouflage by rapidly extracting vis...
Many cephalopods escape detection using camouflage. This behaviour relies on a visual assessment of ...
Juvenile cuttlefish (Sepia officinalis) camouflage themselves by changing their body pattern accordi...
Juvenile cuttlefish (Sepia officinalis) camouflage themselves by changing their body pattern accordi...
[[abstract]]Among the changeable camouflage patterns of cuttlefish, disruptive patterning is shown i...
Cephalopod mollusks including octopus and cuttlefish are adept at adaptive camouflage, varying their...
It might seem obvious that a camouflaged animal must generally match its background whereas to be co...
Cuttlefish and other cephalopods achieve dynamic background matching with two general classes of bod...
[[abstract]]We investigated some visual background features that influence young cuttlefish, Sepia p...
AbstractRapid adaptive camouflage is the primary defense of soft-bodied cuttlefish. Previous studies...
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