Abstract
Autism spectrum disorder (ASD) represents neuron chaos which may lead to premature death. Classical treatments of ASD are performed by observing the behaviors of patients. However, these methods take more time and can be ambiguous. The earlier treatment can assist the health providers to take necessary precautions and offer essential diagnosis to maintain patient lives. The aim is to learn the ASD on the basis of neuroimaging functional images that helps clinicians to diagnose ASD at an earlier stage. This model employs a deep model to discover if patients suffer from ASD and mine robust features from the image. It interprets the efficiency of pre-processed images for classifying the patterns of neurons. An earlier ASD diagnosis can help to achieve long-term goals. The functional connectivity based on the box neighborhood search algorithm is done to obtain pivotal regions. A Deep Neuro Fuzzy Network (DNFN) is applied for ASD wherein DNFN training is executed using Feedback-Henry Gas Optimization (FHGO). The proposed FHGO-DNFN performed exceptionally well, achieving the highest levels of 93.3% accuracy, 94.7% sensitivity, and 91.4% specificity.
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