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‘Virtual Child’ to Train Workers to Treat Kids with Autism

New Tech to Address Shortage of Qualified Professionals

Assoc. Prof. Richard Serna develops software training tools for people with autism spectrum disorder and professionals. Photo by K. Webster
UMass Lowell Assoc. Prof. Richard Serna, in collaboration with UMass Medical School Assoc. Prof. Charles Hamad, is developing a "virtual child" that can be used to train professionals to work with children with autism spectrum disorder.

12/11/2017

Media contacts: Christine Gillette, 978-934-2209 or Christine_Gillette@uml.edu and Nancy Cicco, 978-934-4944 or Nancy_Cicco@uml.edu

LOWELL, Mass. – Nearly one in 50 children in the United States is diagnosed with autism spectrum disorder, usually before age 3, according to the U.S. Centers for Disease Control and Prevention. But the number of people trained to help them isn’t keeping pace with the demand.

The disparity is in part because training takes place one-on-one with children with a wide range of symptoms, from the highest-functioning to those with multiple, severe issues. 

But a UMass Lowell faculty researcher is out to change this with a “virtual child” – immersive, interactive software to help professionals learn key treatment techniques.

Richard Serna, an associate professor of psychology, recently won a $250,000 grant from the National Institute of Mental Health to address the acute need for professionals trained in the most effective treatment for children with autism spectrum disorder: behavioral intervention. Early treatment is critical in addressing intellectual delays and disabilities, as well as in heading off behavioral problems.

“Behavioral intervention is the most widely used evidence-based treatment method for autism,” Serna said.

Serna is collaborating with fellow psychologist and Associate Prof. Charles Hamad of UMass Medical School to develop the new training tool. The software will feature a virtual child, programmed with learning difficulties associated with autism spectrum disorder, who can interact with people training in behavioral intervention techniques.

“The software will be useful in college classrooms, for new employees of agencies, special education teachers, paraprofessionals in the schools and even parents,” said Serna.

Serna is the principal investigator on the grant, which was awarded by the National Institute of Mental Health’s Small Business Technology Transfer Program, which funds projects that translate academic research into products and services. 

Serna and Hamad, who is the co-director of UMass Medical’s Center for University Excellence in Developmental Disabilities, have collaborated on previous NIMH-Small Business Technology Transfer Program grants to develop software for people with intellectual disabilities. The current award is a Phase One prototype grant to develop and evaluate the interactive training software, Serna said.

Serna and Hamad will start with a virtual boy in a simulated environment, since boys are diagnosed with ASD four or five times more frequently than girls. The virtual boy will present common learning difficulties and the software user will practice applying the best behavioral intervention technique to help the boy learn a new skill or desired behavior. 

If the software user chooses the correct actions in the appropriate sequence – including praising the virtual boy each time he performs the desired skill or behavior to reinforce his learning – the software will allow the user to move to the next lesson. If the user does not implement the procedure correctly, the software will provide feedback until the user has mastered the technique.

“It’s of critical importance in behavioral intervention that you implement the procedures with accuracy and precision,” Serna said. “The software is like a flight simulator: It’s a do-no-harm way of practicing before you work with real children.”
Serna, who has previously created interactive video training software using live actors, said he got the idea for a virtual child in a realistic setting while watching his 17-year-old son play video games. 

“I thought, ‘Why can’t we leverage that technology?’” he said. “With a simulation and a virtual child, we will have far more flexibility to change it and add features, and it will be less expensive than hiring actors and shooting and editing video.”

Once they have developed and evaluated a basic prototype, Hamad and Serna will seek additional grant funding to develop it into a fully realized product. 

“We’ll add voice control, more features, different virtual children, more languages, more interventions and more behaviors and levels of difficulty,” said Serna. “There’s a great need for such training in China, Brazil, Spanish-speaking Latin American countries and other places, so it could go worldwide.”

UMass Lowell is a national research university located on a high-energy campus in the heart of a global community. The university offers its 18,000 students bachelor’s, master’s and doctoral degrees in business, education, engineering, fine arts, health, humanities, sciences and social sciences. UMass Lowell delivers high-quality educational programs, vigorous hands-on learning and personal attention from leading faculty and staff, all of which prepare graduates to be ready for work, for life and for all the world offers. www.uml.edu