The quantification of behaviors of interest from video data is commonly used to study brain function, the effects of pharmacological interventions, and genetic alterations. Existing approaches lack the capability to analyze the behavior of groups of animals in complex environments. We present a novel deep learning architecture for classifying individual and social animal behavior, even in complex environments directly from raw video frames, while requiring no intervention after initial human supervision. Our behavioral classifier is embedded in a pipeline (SIPEC) that performs segmentation, identification, pose-estimation, and classification of complex behavior, outperforming the state of the art. SIPEC successfully recognizes multiple beha...
Understanding how the brain generates behavior is a core goal of neuroscience. The need for tools to...
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...
The quantification of behaviors of interest from video data is commonly used to study brain function...
Analysing the behavior of individuals or groups of animals in complex environments is an important, ...
Understanding the brain requires knowledge of the relationship between neuronal activity and behavio...
A lack of automated, quantitative, and accurate assessment of social behaviors in mammalian animal m...
Quantitative descriptions of animal behavior are essential to study the neural substrates of cogniti...
We have developed a video-annotation pipeline that can be used to automatically track the movement o...
Social interactions are made of complex behavioural actions that might be found in all mammalians, i...
The study of naturalistic social behavior requires quantification of animals' interactions. This is ...
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...
1. Studying animal behaviour allows us to understand how different species and individuals navigate...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Understanding how the brain generates behavior is a core goal of neuroscience. The need for tools to...
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...
The quantification of behaviors of interest from video data is commonly used to study brain function...
Analysing the behavior of individuals or groups of animals in complex environments is an important, ...
Understanding the brain requires knowledge of the relationship between neuronal activity and behavio...
A lack of automated, quantitative, and accurate assessment of social behaviors in mammalian animal m...
Quantitative descriptions of animal behavior are essential to study the neural substrates of cogniti...
We have developed a video-annotation pipeline that can be used to automatically track the movement o...
Social interactions are made of complex behavioural actions that might be found in all mammalians, i...
The study of naturalistic social behavior requires quantification of animals' interactions. This is ...
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...
1. Studying animal behaviour allows us to understand how different species and individuals navigate...
Detailed behavioral analysis is key to understanding the brain-behavior relationship. Here, we prese...
Understanding how the brain generates behavior is a core goal of neuroscience. The need for tools to...
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...