Automated planning instance generation with neuro-symbolic AI Núñez Molina, Carlos Mesejo Santiago, Pablo Fernández Olivares, Juan Automated Planning Reinforcement learning Neuro-symbolic AI In the field of Automated Planning there is often the need for a set of planning problems from a particular domain, e.g., to be used as training data for Machine Learning methods or as benchmarks in planning competitions. In most cases, these problems are created either by hand or by a domain-specific generator, putting a burden on the human designers. In this paper, we propose NeSIG (Neuro-Symbolic Instance Generator), to the best of our knowledge the first domain-independent method for automatically generating typed-STRIPS planning problems that are valid, diverse and difficult to solve. We formulate problem generation as a Markov Decision Process and train two generative policies with Deep Reinforcement Learning to generate problems with the desired properties. We conduct experiments on five classical domains, comparing our approach against handcrafted, domain-specific instance generators and various ablations. Results show NeSIG is able to automatically generate valid and diverse problems of much greater difficulty (6.8 times more on geometric average) than domain-specific generators, while simultaneously reducing human effort when compared to them. Additionally, it can generalize to problems more than twice the size of those seen during training. 2026-01-19T10:25:20Z 2026-01-19T10:25:20Z 2026-03 journal article Núñez-Molina, C., Mesejo, P., & Fernández-Olivares, J. (2026). Automated planning instance generation with neuro-symbolic AI. Artificial Intelligence, 352(104471), 104471. https://doi.org/10.1016/j.artint.2025.104471 https://hdl.handle.net/10481/109868 10.1016/j.artint.2025.104471 eng info:eu-repo/grantAgreement/ERC/H2020/885107 http://creativecommons.org/licenses/by/4.0/ open access Atribución 4.0 Internacional Elsevier