Quantification and detection of the hierarchical organization of behavior is a major challenge in neuroscience. Recent advances in markerless pose estimation enable the visualization of high-dimensional spatiotemporal behavioral dynamics of animal motion. However, robust and reliable technical approaches are needed to uncover underlying structure in these data and to segment behavior into discrete hierarchically organized motifs. Here, we present an unsupervised probabilistic deep learning framework that identifies behavioral structure from deep variational embeddings of animal motion (VAME). By using a mouse model of beta amyloidosis as a use case, we show that VAME not only identifies discrete behavioral motifs, but also captures a hierar...
Behavior Atlas is a spatio-temporal decomposition framework for automatically detecting behavioral p...
Uncovering relationships between neural activity and behavior represents a critical challenge, one t...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
SummaryComplex animal behaviors are likely built from simpler modules, but their systematic identifi...
Recent neuroscience studies demonstrate that a deeper understanding of brain function requires a dee...
Understanding the brain requires knowledge of the relationship between neuronal activity and behavio...
Neurodegenerative diseases are characterised by motor deficiencies. For many of them, there is no su...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Automated recognition of mouse behaviors is crucial in studying psychiatric and neurologic diseases....
Murine behavior recognition is widely used in biology, neuroscience, pharmacology, and other aspects...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Behavior Atlas is a spatio-temporal decomposition framework for automatically detecting behavioral p...
Uncovering relationships between neural activity and behavior represents a critical challenge, one t...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
SummaryComplex animal behaviors are likely built from simpler modules, but their systematic identifi...
Recent neuroscience studies demonstrate that a deeper understanding of brain function requires a dee...
Understanding the brain requires knowledge of the relationship between neuronal activity and behavio...
Neurodegenerative diseases are characterised by motor deficiencies. For many of them, there is no su...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Automated recognition of mouse behaviors is crucial in studying psychiatric and neurologic diseases....
Murine behavior recognition is widely used in biology, neuroscience, pharmacology, and other aspects...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Behavior Atlas is a spatio-temporal decomposition framework for automatically detecting behavioral p...
Uncovering relationships between neural activity and behavior represents a critical challenge, one t...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...