面向供应链压力测试的共生生成对抗网络框架

A symbiotic generative adversarial network framework for supply chain stress-testing

International Journal of Production Research · 2026
被引 0
ABS 3

中文导读

提出一种共生条件生成对抗网络框架,生成超越已知风险的供应链中断场景,在汽车供应链网络中验证其能产生更高冲击和损失的情景。

Abstract

This paper introduces a symbiotic conditional generative adversarial network (c-GAN) framework to address the critical challenge of generating disruption scenarios that are novel relative to simulated known risks (model-relative unknowns) in complex supply networks. Traditional predictive models fail against Black Swan–like events (within the modelled system) due to their reliance on historical data and inductive inference limitations. Our framework explores the tail-risk space of plausible disruption scenarios beyond the simulated known-unknown boundary by conditioning on network topology metrics through a specialised c-GAN architecture. These synthetic disruption vectors integrate with an adaptive inoperability input-output model (AIIM) that simulates cascading failures using tri-load coordination mechanisms. The framework incorporates rigorous evaluation metrics to quantify the novelty of the situation and its systemic impact. A symbiotic human-AI interface enables domain experts to validate plausibility and to steer scenario generation through explainable AI and latent-space regulation. Experimental validation in a 127-node automotive supply network demonstrates the framework's capability to systematically generate scenarios with 60.5% higher simulated cascading failure impact and 64.3% greater relative simulated economic losses than the simulated known-unknown scenarios used for training.

供应链管理生成对抗网络风险分析人工智能