bayesian intermittent demand forecasting
Bayesian Intermittent Demand Forecasting for Large Inventories
We present a scalable and robust Bayesian method for demand forecasting in the context of a large e-commerce platform, paying special attention to intermittent and bursty target statistics. Inference is approximated by the Newton-Raphson algorithm, reduced to linear-time Kalman smoothing, which allows us to operate on several orders of magnitude larger problems than previous related work. In a study on large real-world sales datasets, our method outperforms competing approaches on fast and medium moving items.
Bayesian Intermittent Demand Forecasting for Large Inventories
Matthias W. Seeger, David Salinas, Valentin Flunkert
There, demand is highly intermittent and bursty: long runs of zeros, with islands of high counts.
- North America > Trinidad and Tobago > Trinidad > Arima > Arima (0.04)
- Europe > United Kingdom > England > Oxfordshire > Oxford (0.04)
- Europe > United Kingdom > England > Cambridgeshire > Cambridge (0.04)
- (2 more...)
- Information Technology > Artificial Intelligence > Machine Learning > Learning Graphical Models > Directed Networks > Bayesian Learning (1.00)
- Information Technology > Artificial Intelligence > Representation & Reasoning > Uncertainty > Bayesian Inference (0.95)
- Information Technology > Artificial Intelligence > Machine Learning > Statistical Learning (0.94)
Bayesian Intermittent Demand Forecasting for Large Inventories
Matthias W. Seeger, David Salinas, Valentin Flunkert
There, demand is highly intermittent and bursty: long runs of zeros, with islands of high counts.
- North America > Trinidad and Tobago > Trinidad > Arima > Arima (0.04)
- Europe > United Kingdom > England > Oxfordshire > Oxford (0.04)
- Europe > United Kingdom > England > Cambridgeshire > Cambridge (0.04)
- (2 more...)
- Information Technology > Artificial Intelligence > Machine Learning > Learning Graphical Models > Directed Networks > Bayesian Learning (1.00)
- Information Technology > Artificial Intelligence > Representation & Reasoning > Uncertainty > Bayesian Inference (0.95)
- Information Technology > Artificial Intelligence > Machine Learning > Statistical Learning (0.94)
Reviews: Bayesian Intermittent Demand Forecasting for Large Inventories
How can an item be both intermittent and fast moving at the same time?
Bayesian Intermittent Demand Forecasting for Large Inventories
Seeger, Matthias W., Salinas, David, Flunkert, Valentin
We present a scalable and robust Bayesian method for demand forecasting in the context of a large e-commerce platform, paying special attention to intermittent and bursty target statistics. Inference is approximated by the Newton-Raphson algorithm, reduced to linear-time Kalman smoothing, which allows us to operate on several orders of magnitude larger problems than previous related work. In a study on large real-world sales datasets, our method outperforms competing approaches on fast and medium moving items. Papers published at the Neural Information Processing Systems Conference.
Bayesian Intermittent Demand Forecasting for Large Inventories
Seeger, Matthias W., Salinas, David, Flunkert, Valentin
We present a scalable and robust Bayesian method for demand forecasting in the context of a large e-commerce platform, paying special attention to intermittent and bursty target statistics. Inference is approximated by the Newton-Raphson algorithm, reduced to linear-time Kalman smoothing, which allows us to operate on several orders of magnitude larger problems than previous related work. In a study on large real-world sales datasets, our method outperforms competing approaches on fast and medium moving items.
- North America > Trinidad and Tobago > Trinidad > Arima > Arima (0.04)
- Europe > United Kingdom > England > Oxfordshire > Oxford (0.04)
- Europe > United Kingdom > England > Cambridgeshire > Cambridge (0.04)
- (2 more...)
- Information Technology > Artificial Intelligence > Machine Learning > Statistical Learning (0.94)
- Information Technology > Artificial Intelligence > Representation & Reasoning > Uncertainty > Bayesian Inference (0.89)
- Information Technology > Artificial Intelligence > Machine Learning > Learning Graphical Models > Directed Networks > Bayesian Learning (0.67)