Nature Published the Research Results of Professor Cewu Lu 's Team and Collaborators in Behavior Understanding

Recently, the top academic journal Nature published the research results of Professor Cewu Lu 's team from the School of Electronic Information and Electrical Engineering (SEIEE) and collaborators in behavior understanding (Cortical Ensembles Orchestrate Social Competition through Hypothalamic Outputs). The two co-corresponding authors of the paper are Professor Cewu Lu and Professor Kay M. Tye from Salk Institute for Biological Studies. This is another progress after a series of AI for Science such as Alphafold in recent years.


Based on computer vision technology, this achievement quantitatively explained the intrinsic relationship between visual behavior understanding and brain neurons signal, established the stable mapping model for the first time, and formed a new research paradigm for computer vision behavior analysis to analyze behavioral neural circuit. Based on the machine learning model, the joint team deeply analyzed the neural control mechanism of "Social Hierarchy" behavior (for example, low-ranking mice will give priority to high-ranking mice for food, and the low-ranking mice will show obedience behavior). Social hierarchy behavioral neural control mechanism has always been an important issue in the academic world. How mammals judge the status of other individuals and their own social groups? What is the neural control mechanism behind it? In large-scale group competition videos of mice, we located the "social hierarchy" behavior, recorded the brain activity state of social hierarchy behavior at the same time, and deeply analyzed the formation mechanism of social hierarchy behavior in the brain. It was found that the medial prefrontal cortex-lateral hypothalamus (mPFC-LH) circuit has the function of controlling social hierarchy behavior, which had been confirmed by rigorous biological experiments. This research forms a new research paradigm for discovering neural circuits of unknown behavioral functions based on machine vision learning.


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Fig1. Analysis of behavior neural mechanisms with computer vision and machine learning


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Fig2. Visual Behavior Detection-Brain Neural Signal Correlation Model

 

Artificial Intelligence Research of Cewu Lu 's Team  

Cewu Lu 's team has been engaged in artificial intelligence research for a long time. Focusing on behavior understanding: from the perspective of machine cognition, study how to make machines understand behavior; from the perspective of neural cognition, study the intrinsic relationship between machine cognitive semantics and neural cognition; from the perspective of knowledge, study how to transfer behavior understanding knowledge to robotic systems. The main research results have been achieved as shown in Fig 3. This nature result is part of the behavior understanding of Cewu' Lu s team.


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Fig 3.The Main Work of Cewu Lu 's Team on Behavior Understanding

 


[ 2022-04-11 ]