ORCID
Mona Gharib: https://orcid.org/0009-0006-7367-4307
Mehboob Ali: https://orcid.org/0000-0002-5108-3497
Ishtiaq Hussain: https://orcid.org/0000-0003-2816-2397
Article Type
Research Article
Abstract
This paper introduces the Neutrosophic Hankel Transform (NHT) as a novel mathematical framework for modeling systems with radial structure under uncertainty, indeterminacy, and inconsistency. Building upon classical Hankel transforms and neutrosophic logic, we define two complementary realizations: a componentwise transform (NHT–C) that transports uncertainty with the signal, and a kernel-weighted transform (NHT–K) that embeds neutrosophic weights into the integral kernel. We establish linearity, inversion, and Parseval-type relations, and derive operational rules that diagonalize the Bessel radial operator.
To demonstrate utility, we formulate a radial diffusion–reaction model for pollutant concentration in a radialized river cross-section and solve it in closed form under neutrosophic initial and boundary information. A legal-compliance belt and sensor-trust heterogeneity are encoded as neutrosophic kernel weights, and an AI-driven calibration loop aligns parameters with multi-source observations under policy constraints. The approach maintains full interpretability via truth/indeterminacy/falsity channels, offering a bridge between advanced mathematical analysis and ecological governance in the Yellow River Basin.
Keywords
Neutrosophy, Hankel transform, Neutrosophic hankel transform, Integral transforms, Indeterminacy, Artificial intelligence, Cross-domain legislation, Ecological protection, Yellow River Basin
How to Cite
Gharib, Mona; Ali, Mehboob; and Hussain, Ishtiaq
(2026)
"Neutrosophic Hankel Transforms and Their Application to Cross-Domain Legislative Integration,"
Neutrosophic Systems with Applications: Vol. 26:
Iss.
1, Article 3.
DOI: https://doi.org/10.63689/2993-7159.1316
