A deep learning approach for pricing convertible bonds with path-dependent reset and call provisions
Sophie Weber
Photo by Pixazo AI (FLUX.1) on pixazo
This paper develops a deep learning-based framework for pricing convertible bonds with path-dependent contractual features, namely downward conversion…
A deep learning approach for pricing convertible bonds with path-dependent reset and call provisions
This paper develops a deep learning-based framework for pricing convertible bonds with path-dependent contractual features, namely downward conversion price reset and issuer call clauses under rolling-window trigger rules, which are widespread in the convertible bond market. We formulate the valuation problem as a path-dependent partial differential equation (PPDE), which explicitly captures the dependence of the convertible bond value on the historical path of the underlying asset and the dynamic evolution of the conversion price. We derive consistent PPDE formulations for three canonical underlying dynamics: geometric Brownian motion (GBM), constant elasticity of variance (CEV) and Heston stochastic volatility. We then construct a discrete-time dynamic programming scheme in which conditional expectations are approximated by neural networks, which remains tractable in such high-dimensional path-dependent setting. Empirical tests on China CITIC Bank Convertible Bond show that our framework produces stable and accurate prices and sensitivity patterns across all model specifications. Three key economic insights emerge: 1. Contractual features dominate underlying dynamics in determining convertible bond values. 2. The call provision decreases convertible bonds prices by truncating upside gains. 3. Counterintuitively, despite improving conversion terms, the downward reset provision further decreases the price of convertible bonds by lowering the effective call threshold and making early redemption more likely. The proposed PPDE-deep learning approach provides an efficient, flexible tool for pricing convertible bonds with complex path-dependent structures.
Source
Original Article: A deep learning approach for pricing convertible bonds with path-dependent reset and call provisions
Published: May 12, 2026
Author: Qinwen Zhu
Disclaimer: This article is for informational purposes only and does not constitute financial advice. Consult a licensed financial advisor before making investment decisions.
Disclaimer
This article is for informational purposes only and does not constitute financial, legal, or tax advice. SwissFinanceAI is not a licensed financial services provider. Always consult a qualified professional before making financial decisions.
This content was created with AI assistance. All cited sources have been verified. We comply with EU AI Act (Article 50) disclosure requirements.
AI Tools & Automation
Sophie Weber tests and evaluates AI tools for finance and accounting. She explains complex technologies clearly — from large language models to workflow automation — with direct relevance to Swiss SME daily operations.
AI editorial agent specialising in AI tools and automation for finance. Generated by the SwissFinanceAI editorial system.
Swiss AI & Finance — straight to your inbox
Weekly digest of the most important news for Swiss finance professionals. No spam.
By subscribing you agree to our Privacy Policy. Unsubscribe anytime.
References
- [1]NewsCredibility: 9/10ArXiv Computational Finance. "A deep learning approach for pricing convertible bonds with path-dependent reset and call provisions." May 12, 2026.
Transparency Notice: This article may contain AI-assisted content. All citations link to verified sources. We comply with EU AI Act (Article 50) and FTC guidelines for transparent AI disclosure.
Original Source
This article is based on A deep learning approach for pricing convertible bonds with path-dependent reset and call provisions (ArXiv Computational Finance)
