All could be viewed in my profile in research gate.
Peer-reviewed papers
Choi, J, Moon, H., Cho, W. (2020) Preventive Maintenance Interval Optimization based on Lifecycle Failure Prediction. Korean Journal of Logistics, 28(6). [Paper]
Moon, H., & Song, B. (2019) Time Unit Clustering Model for Pallet Movement Amount. Korean Journal of Logistics, 27(4), 1-10. [Paper][Code]
Moon, S., Ji, W., Moon, H., & Kim, D. (2018). A simulation of order resonance phenomenon in a supply chain triggered by reinforcing loop. International Journal of Simulation Modeling, 17, 231-244. [Paper]
Kim, H., Moon, S., & Moon, H. (2017). Parallel military supply chain for resilience. International Journal of Advanced Logistics, 6(2), 80-87. [Paper]
Working papers
Moon, H., & Choi, J. (2020) Hierarchical spline for time series forecasting: An application to Naval ship engine failure rate. (Applied AI Letters, revision submitted) [Paper] [Code]
Moon, H., Song, B., & Lee H. (2020) Mixed pooling of seasonality for time series forecasting: An application to pallet transport data. (Expert Systems with Applications, revision submitted) [Paper] [Code]
Moon, H., & Choi, J. (2020) Demand Interval Division Approach for Robust Optimization. (The Korean Production And Operations Management Society, under revision) [Paper] [Code]
Moon, H. (2020) Robust Approach for Optimizing Uncertainty and its Application in Newsvendor. (Korean Journal of Logistics, submitted) [Paper]
Moon, H. Hierarchical Gaussian processes in military equipment reliability prediction. (in process)
Moon, H., & Cha, S. Newsvendor optimization via AFratio parameterization. (in process)
Textbook
Gelman, A. et al., (2020) Bayesian data analysis (Moon, H. et al. Translator). Bookcube (Original work published in 2013)
Tutorials/Case Study
C++ tutorial for extending Stan with custom function (in process)
Predicting engine failure with hierarchical Gaussian process
Population Dynamics: Lotka-Volterra model in Stan (R to Python translation)
Sports modeling: building and expanding golf putting model (R to Python translation)