Top 4% solution for the Kaggle M5 (Accuracy) competition. The competition requires predicting store sales of individual items over a prediction period of 28 days.

The code is quite short (<300 lines) and uses only fairly basic features in a LightGBM model. I didn't use any "magic" adjustment factors. I also didn't use any custom metrics, just rmse. I think the evaluation metric is noisy, especially for features with short history, because random fluctuations in the day-to-day sales history can cause products to be weighted very differently even if they have similar long-term average. So I thought trying to optimise for this metric would lead to overfitting.

Rather than using a recursive approach, I trained separate models for each day of the forecasting horizon, and for each n I recalculated the features so that the n-day-ahead model is trained on data that has been lagged by n days. Based on discussions in the forum (specifically, this post https://www.kaggle.com/c/m5-forecasting-accuracy/discussion/144067#), I decided that the recursive approach was only performing well on the training period by coincidence.

I noticed that in the test period, there are very few new products (i.e. products that have not been sold before the test period). So I excluded from the training set rows before the first sale date of a product in a store, and also excluded these rows when calculating aggregate features.

I used 3 years of data to calculate the features (to reduce noise and capture seasonal trends) and 1 year to actually train the model. I excluded December from the training period because of the effect of Christmas.

The feature engineering is mainly common sense: as well as the obvious date features, just lagged sales at various levels of aggregation. For the aggregated features, I took the mean of sales at 3 levels of aggregation:

• item and store
• item (aggregated over all stores)
• dept id and store id

The idea of this was that the higher levels of aggregation provide a less noisy view of item-level and store-level trends.

Specifically, the features are:

• dept_id and store_id (categorical)
• day of week, month, snap (i.e. is today a snap day for the current store)
• days since product first sold in that store
• price relative to price 1 week and 2 weeks ago
• item-level holiday adjustment factor (for each holiday and each item, calculate the average change in sales in the week leading up to the holiday and the holiday itself)
• long-term mean and variance of sales at the 3 levels of aggregation
• long-term mean and variance of sales at the 3 levels of aggregation for each day of week
• average of last 7, 14, and 28 days of sales at the 3 levels of aggregation
• average sales lagged 1-7 days at the 3 levels of aggregation