Author
Listed:
- Zhongzheng Liu
(School of Economics and Management, Shanghai Maritime University, Shanghai 201306, China)
- Xiangye Yao
(School of Economics & Management, Tongji University, Shanghai 200092, China)
- Jinfeng Li
(Shanghai Prothentic Co., Ltd., Pudong District, Shanghai 201210, China)
Abstract
Geopolitical risks—including export controls, entity listings, and end-use restrictions—have become a major source of disruptions in semiconductor supply chains. The impact of such disruptions depends not only on the policy trigger itself but also on the vulnerability of cross-regional partnerships between supply chain partners. Specifically, under the same policy regime, firms with weak partnerships suffer far greater disruption than those with strong partnerships. Apart from risk propagation, this vulnerability also propagates through the supply chain: when an upstream supply channel has weak partnerships, its downstream stages also become more exposed to disruptions. We call this phenomenon vulnerability propagation . Existing Bayesian Network (BN) frameworks portray risk propagation through fixed parameters that do not reflect partnership vulnerability and cannot capture vulnerability propagation. To fill this gap, we propose a Dependency-Robust Bayesian Network (DeRBN) that conditions risk propagation parameters on the partnership vulnerability. A robust worst-case oriented evaluation method is developed to assess the disruption risk under data scarcity. Computational experiments on a typical semiconductor supply chain network show that (i) moving from all-strong to all-weak partnerships increases the worst-case risk by approximately 24%, (ii) the dependency-induced risk amplification is unevenly distributed across supply channels, with the most influential channel contributing approximately 2.2 times the marginal risk of the least influential one, and (iii) the relative ranking of vulnerability profiles remains perfectly stable under varying levels of data uncertainty. These results suggest that DeRBN has the potential to serve not only as a risk assessment tool but also as a diagnostic instrument for identifying and prioritizing the most vulnerable supply channels for targeted risk mitigation.
Suggested Citation
Zhongzheng Liu & Xiangye Yao & Jinfeng Li, 2026.
"A New Dependency-Robust Bayesian Network for Assessing Geopolitical Risk’s Impact on Semiconductor Supply Chains,"
Sustainability, MDPI, vol. 18(12), pages 1-38, June.
Handle:
RePEc:gam:jsusta:v:18:y:2026:i:12:p:6063-:d:1966063
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