Development of the Interactive Rehabilitation Game System for Children with Autism Based on Game Psychology

Autism is a widespread neurodevelopmental disorder. The cause of autism is still unclear. Once it occurs, it will be accompanied for life. Intervention treatment is currently recognized as an effective method. With the rise of somatosensory technology, Kinect has gradually been applied to the field of autism rehabilitation with its natural human-computer interaction and game rehabilitation psychology. Because there is a great demand for autism rehabilitation training resources in China and the existing somatosensory rehabilitation equipment has some shortcomings, this study designed a set of somatosensory rehabilitation system for autistic children based on Kinect and carried out its rehabilitation effect with experimental demonstration. The specific research work mainly includes the following contents: first, aiming at the rehabilitation needs of children with autism, this article combines mainstream intervention treatment methods, using C# programming language and Windows Presentation Foundation (WPF) development technology to develop Kinect-based somatosensory game modules. The somatosensory rehabilitation game involves the training of the language communication, behavioral movement, daily life, sensory integration, and other comprehensive abilities of children with autism, which improves the shortcomings of the previous rehabilitation training in the scope of intervention. A variety of game types and diversified game modes are designed to meet the individual needs of rehabilitation training for children with autism. Second, experiments were carried out to verify the rehabilitation effect of the system. Using the Childhood Autism Rating Scale (CARS) and Pediatric Evaluation of Disability Inventory (PEDI) scale as the rehabilitation effect evaluation tools of this system, the experimental subjects were divided into the experimental group and control group, and different comparative experiments were conducted, respectively. Through the analysis of the scoring data of the CARS, it is found that the comprehensive ability of the experimental group of children receiving somatosensory rehabilitation training is significantly improved. Through the analysis of the scoring data of the PEDI scale, it is found that the children's language communication, behavioral activities, and daily life abilities of the experimental group have been significantly enhanced. This article focuses on the design of the somatosensory game module of the autistic somatosensory rehabilitation system and the analysis of the system's rehabilitation effect. It satisfies the training and rehabilitation needs of children with autism and has strong practical significance.