Your data on MRCVSonline
The nature of the services provided by Vision Media means that we might obtain certain information about you.
Please read our Data Protection and Privacy Policy for details.

In addition, (with your consent) some parts of our website may store a 'cookie' in your browser for the purposes of
functionality or performance monitoring.
Click here to manage your settings.
If you would like to forward this story on to a friend, simply fill in the form below and click send.

Your friend's email:
Your email:
Your name:
 
 
Send Cancel

‘Virtual rat’ could explain how brains control movement
The simulation could support studies into other neural circuits and how they respond to disease.
The artificial brain accurately predicted neural activity.

Researchers from Harvard University have created a virtual rodent, with an artificial brain capable of moving its body.

In collaboration with Google’s DeepMind artificial intelligence (AI) laboratory, the scientists trained its artificial neural network to control a virtual body in a physics simulator.

The AI model is expected to support neuroscientists with their understanding of how the brain is able to learn and control movement. Developing upon this AI simulation, researchers may be able to study other neural circuits, and how they can be compromised by disease.

The virtual rat was built using high-resolution data gathered from the brain activity of real rats, which the scientists used to train the artificial neural network. In time the ‘brain’ proved able to control a virtual body in the physics simulator MuJoco, even when acted upon by gravity and other forces.

It is the result of significant advancement in deep reinforcement learning, AI and the 3D movement tracking of animals.

The simulated neural network can now be fed a reference trajectory for a movement, and learn how to produce the forces necessary to perform it. It could also imitate a range of behaviours, even if it had not been explicitly trained to do so.

This combination of AI technology and neuroscience context will provide new insights into how animals behave and the brain functions.

Through the development of a virtual rat, future experiments in neuroscience could result in other AI-simulated animals which can act like real ones.

The scientists are now considering the possibility of giving their virtual rat autonomy to solve tasks, similar to those encountered by real rats. This could explain how learning algorithms are implemented to develop more skilled behaviours.

Bence Ölveczky, professor in the Department of Organismic and Evolutionary Biology at Harvard University, said: "From our experiments, we have a lot of ideas about how such tasks are solved, and how the learning algorithms that underlie the acquisition of skilled behaviours are implemented,

"We want to start using the virtual rats to test these ideas and help advance our understanding of how real brains generate complex behaviour."

The full study can be found in the journal Nature.

Image © Shutterstock

Become a member or log in to add this story to your CPD history

Antibiotic Amnesty survey opens

News Story 1
 The Responsible Use of Medicines Alliance - Companion Animal and Equine (RUMA - CA&E) has launched a survey which seeks to measure the success of this year's Antibiotic Amnesty campaign.

Its results will help the group to calculate how many unused or out-of-date antibiotics were returned as part of the campaign throughout November. Practices are also asked how they engaged with clients to raise awareness of the issue.

Participating practices can enter a prize draw to win up to 100 in vouchers for taking part. Further prizes from BSAVA and Webinar Vet will be available for practices with the best input.

The survey takes a few minutes to complete and will be running throughout December. It can be accessed via this link

Click here for more...
News Shorts
Further cases of H5N1 confirmed in Norfolk

APHA has officially confirmed that two more cases of H5N1 have been found on premises in Norfolk.

Testing confirmed that highly pathogenic avian influenza H5N1 was present at premises near Attleborough, as well as premises near Hingham in South Norfolk. The case near Hingham follows a slaughter on suspicion which was declared on 23 December.

A 3km Protection Zone and 10km Surveillance Zone have been implemented at each premises, and all the poultry on each premises will be humanely culled.

A third case has also been identified near Beverley in East Riding of Yorkshire.

APHA is reminding bird keepers to remain vigilant and follow biosecurity measures to prevent more outbreaks. Details on the current disease control zones and biosecurity guidance can be found on the APHA website.