Validation Framework for Robust and Explainable Machine Learning Models in Autism Spectrum Disorder Triage

Authors

Ghadeer Ghazi Shayea, Universiti Tenaga Nasional (UNITEN), Kajang, Malaysia
Mohd Hazli Mohammed Zabil, Universiti Tenaga Nasional (UNITEN), Kajang, Malaysia
A. S. Albahri, Technical Engineering College, Imam Ja’afar Al-Sadiq University, Baghdad, IraqFollow
Rula A. Hamid, College of Business Informatics, University of Information Technology and Communications (UOITC), Baghdad, Iraq
O. S. Albahri, Institute of Innovation, Science and Sustainability (IISS), Federation University, Melbourne Campus, Australia
A. H. Alamoodi, Applied Science Research Center, Applied Science Private University, Amman, Jordan
Iman Mohamad Sharaf, Department of Basic Sciences, Higher Technological Institute, Tenth of Ramadan City, Egypt

Document Type

Article

Keywords

Autism Spectrum Disorder (ASD), Triage, Robust Machine Learning, Adversarial Attacks, Explainable Artificial Intelligence, (XAI), Fuzzy Multi-Criteria Decision- Making (MCDM)

Abstract

The development of real-time triage applications for Autism Spectrum Disorder (ASD) is a critical challenge due to the rising prevalence of ASD and the urgent need for efficient resource allocation in healthcare systems. Previous studies have applied machine learning (ML) to ASD triage; however, most approaches overlook robustness against adversarial attacks, provide limited benchmarking across multiple evaluation criteria, and lack explainability to support clinical adoption. Building on our earlier work, which introduced a fuzzy evaluation and benchmarking framework using the 2-Tuple Linguistic Fermatean Fuzzy Decision by Opinion Score Method (2TLFFDOSM), this study proposes a comprehensive five-stage validation and evaluation framework. The framework systematically validates fuzzy-based rankings against raw performance metrics, conducts dual-perspective analysis under normal and adversarial conditions, performs sensitivity analysis across ten weighting scenarios, and integrates explainable AI (LIME, PFI, Integrated Gradients, and PDP) to interpret feature contributions before and after adversarial perturbations. Finally, a checklist benchmarking approach is used to position the framework against five recent studies.

How to Cite This Article

Shayea, Ghadeer Ghazi; Zabil, Mohd Hazli Mohammed; Albahri, A. S.; Hamid, Rula A.; Albahri, O. S.; Alamoodi, A. H.; and Sharaf, Iman Mohamad (2025) "Validation Framework for Robust and Explainable Machine Learning Models in Autism Spectrum Disorder Triage," Mesopotamian Journal of Big Data: Vol. 5: Iss. 1, Article 26.
DOI: 10.58496/MJBD/2025/027
Available at: https://map.researchcommons.org/mjbd/vol5/iss1/26