Skip to main content

Posts

Showing posts with the label Robots

Robots help autistic children

With all the research being conducted around autism, (trying to detect it earlier using biomarkers , therapy sessions, and trying to make life easier for the autistic child by engaging them in society) it's been found that sometimes, humans are not enough to solve the problem and so they've sought the help of robots. Yes, you've read that correctly, robots.  Diagnosed from early childhood, children with autism are restricted with a mental condition that prevents them from communications, expressing themselves and forming relationships with other people (adults and other children). Autistic children also have troubles with language and communicating abstract concepts. So to try and find a better method of treatment for the children, r esearchers at the Universidad Miguel Hernández (UMH) and AISOY Robotics are working together to expand the potential of their robot assistant for the treatment of children diagnosed with autism spectrum disorder (ASD).   Welcome AIS

Using Robots to Study Host-Microbiome Interactions

Journal: Exploring Host-Microbiome Interactions using an in Silico Model of biomimetic robots and engineered living cells – Published in Scientific Reports. Dr’s : Heyde and Ruder Funded by : National science Foundation, USA Understanding the human body is vital to understanding how the body works and how drugs can interact with the body. Microbiomes play an important role in the regulation of the behaviour and health of its host (which could be the human body or part of it). Within this new piece of research, scientists have prepared an in silico model of a living microbiome, engineered with synthetic biology, which interfaces with a biomimetic, robotic host. They used this technique to copy complex behaviours in the host giving larger understandings of the exploration of inter-kingdom ecological relationships.  The researchers studied two different topologies of information flow, critical for host-microbiome interactions to help us understand biochemical