Hybrid Responsible AI-Stochastic Approach for SLA Compliance in Multivendor 6G Networks

TL;DR

This paper introduces a hybrid responsible AI framework for 6G networks that combines stochastic optimization with accountability mechanisms to improve SLA compliance, fairness, and traceability across multiple vendors.

Contribution

It presents a novel hybrid responsible AI-stochastic learning model that embeds fairness, robustness, and accountability directly into multivendor 6G network control systems.

Findings

Improves worst group accuracy by up to 10.5%.

Achieves 99% traceability of SLA violations to responsible AI entities.

Outperforms traditional models in fairness and robustness metrics.

Abstract

The convergence of AI and 6G network automation introduces new challenges in maintaining transparency, fairness, and accountability across multivendor management systems. Although closed-loop AI orchestration improves adaptability and self-optimization, it also creates a responsibility gap, where violations of SLAs cannot be causally attributed to specific agents or vendors. This paper presents a hybrid responsible AI-stochastic learning framework that embeds fairness, robustness, and auditability directly into the network control loop. The framework integrates RAI games with stochastic optimization, enabling dynamic adversarial reweighting and probabilistic exploration across heterogeneous vendor domains. An RAAP continuously records AI-driven decision trajectories and produces dual accountability reports: user-level SLA summaries and operator-level responsibility analytics. Experimental evaluations on synthetic two-class multigroup datasets demonstrate that the proposed hybrid model improves the accuracy of the worst group by up to 10.5\%. Specifically, hybrid RAI achieved a WGAcc of 60.5\% and an AvgAcc of 72.7\%, outperforming traditional RAI-GA (50.0\%) and ERM (21.5\%). The audit mechanism successfully traced 99\% simulated SLA violations to the AI entities responsible, producing both vendor and agent-level accountability indices. These results confirm that the proposed hybrid approach enhances fairness and robustness as well as establishes a concrete accountability framework for autonomous SLA assurance in multivendor 6G networks.