Datasets:

Anonymous-LaEx
/

Anonymous-LaDe

	---
	license: apache-2.0
	tags:
	- Logistics
	- Last-mile Delivery
	- Spatial-Temporal
	- Graph
	size_categories:
	- 10M<n<100M
	---

	Dataset Download: https://huggingface.co/datasets/Anonymous-LaEx/Anonymous-LaDe

	Code Link:https://anonymous.4open.science/r/Anonymous-64B3/

	# 1 About Dataset
	LaDe is a publicly available last-mile delivery dataset with millions of packages from industry.
	It has three unique characteristics: (1) Large-scale. It involves 10,677k packages of 21k couriers over 6 months of real-world operation.
	(2) Comprehensive information, it offers original package information, such as its location and time requirements, as well as task-event information, which records when and where the courier is while events such as task-accept and task-finish events happen.
	(3) Diversity: the dataset includes data from various scenarios, such as package pick-up and delivery, and from multiple cities, each with its unique spatio-temporal patterns due to their distinct characteristics such as populations.
	![LaDe.png](./img/LaDe.png)



	# 2 Download
	LaDe is composed of two subdatasets: i) [LaDe-D](https://huggingface.co/datasets/Anonymous-LaDe/Anonymous/tree/main/delivery), which comes from the package delivery scenario.
	ii) [LaDe-P](https://huggingface.co/datasets/Anonymous-LaDe/Anonymous/tree/main/pickup), which comes from the package pickup scenario. To facilitate the utilization of the dataset, each sub-dataset is presented in CSV format.

	LaDe can be used for research purposes. Before you download the dataset, please read these terms. And [Code link](https://anonymous.4open.science/r/Anonymous-64B3/). Then put the data into "./data/raw/".
	The structure of "./data/raw/" should be like:
	```
	* ./data/raw/
	* delivery
	* delivery_sh.csv
	* ...
	* pickup
	* pickup_sh.csv
	* ...
	```

	Each sub-dataset contains 5 csv files, with each representing the data from a specific city, the detail of each city can be find in the following table.


	\| City \| Description \|
	\|------------\|----------------------------------------------------------------------------------------------\|
	\| Shanghai \| One of the most prosperous cities in China, with a large number of orders per day. \|
	\| Hangzhou \| A big city with well-developed online e-commerce and a large number of orders per day. \|
	\| Chongqing \| A big city with complicated road conditions in China, with a large number of orders. \|
	\| Jilin \| A middle-size city in China, with a small number of orders each day. \|
	\| Yantai \| A small city in China, with a small number of orders every day. \|


	# 3 Description
	Below is the detailed field of each sub-dataset.
	## 3.1 LaDe-P
	\| Data field \| Description \| Unit/format \|
	\|----------------------------\|----------------------------------------------\|--------------\|
	\| Package information \| \| \|
	\| package_id \| Unique identifier of each package \| Id \|
	\| time_window_start \| Start of the required time window \| Time \|
	\| time_window_end \| End of the required time window \| Time \|
	\| Stop information \| \| \|
	\| lng/lat \| Coordinates of each stop \| Float \|
	\| city \| City \| String \|
	\| region_id \| Id of the Region \| String \|
	\| aoi_id \| Id of the AOI (Area of Interest) \| Id \|
	\| aoi_type \| Type of the AOI \| Categorical \|
	\| Courier Information \| \| \|
	\| courier_id \| Id of the courier \| Id \|
	\| Task-event Information \| \| \|
	\| accept_time \| The time when the courier accepts the task \| Time \|
	\| accept_gps_time \| The time of the GPS point closest to accept time \| Time \|
	\| accept_gps_lng/lat \| Coordinates when the courier accepts the task \| Float \|
	\| pickup_time \| The time when the courier picks up the task \| Time \|
	\| pickup_gps_time \| The time of the GPS point closest to pickup_time \| Time \|
	\| pickup_gps_lng/lat \| Coordinates when the courier picks up the task \| Float \|
	\| Context information \| \| \|
	\| ds \| The date of the package pickup \| Date \|


	## 3.2 LaDe-D
	\| Data field \| Description \| Unit/format \|
	\|-----------------------\|--------------------------------------\|---------------\|
	\| Package information \| \| \|
	\| package_id \| Unique identifier of each package \| Id \|
	\| Stop information \| \| \|
	\| lng/lat \| Coordinates of each stop \| Float \|
	\| city \| City \| String \|
	\| region_id \| Id of the region \| Id \|
	\| aoi_id \| Id of the AOI \| Id \|
	\| aoi_type \| Type of the AOI \| Categorical \|
	\| Courier Information \| \| \|
	\| courier_id \| Id of the courier \| Id \|
	\| Task-event Information\| \| \|
	\| accept_time \| The time when the courier accepts the task \| Time \|
	\| accept_gps_time \| The time of the GPS point whose time is the closest to accept time \| Time \|
	\| accept_gps_lng/accept_gps_lat \| Coordinates when the courier accepts the task \| Float \|
	\| delivery_time \| The time when the courier finishes delivering the task \| Time \|
	\| delivery_gps_time \| The time of the GPS point whose time is the closest to the delivery time \| Time \|
	\| delivery_gps_lng/delivery_gps_lat \| Coordinates when the courier finishes the task \| Float \|
	\| Context information \| \| \|
	\| ds \| The date of the package delivery \| Date \|


	# 4 Leaderboard
	Blow shows the performance of different methods in Shanghai.
	## 4.1 Route Prediction

	Experimental results of route prediction. We use bold and underlined fonts to denote the best and runner-up model, respectively.

	\| Method \| HR@3 \| KRC \| LSD \| ED \|
	\|--------------\|--------------\|--------------\|-------------\|-------------\|
	\| TimeGreedy \| 57.65 \| 31.81 \| 5.54 \| 2.15 \|
	\| DistanceGreedy \| 60.77 \| 39.81 \| 5.54 \| 2.15 \|
	\| OR-Tools \| 66.21 \| 47.60 \| 4.40 \| 1.81 \|
	\| LightGBM \| 73.76 \| 55.71 \| 3.01 \| 1.84 \|
	\| FDNET \| 73.27 ± 0.47 \| 53.80 ± 0.58 \| 3.30 ± 0.04 \| 1.84 ± 0.01 \|
	\| DeepRoute \| 74.68 ± 0.07 \| 56.60 ± 0.16 \| 2.98 ± 0.01 \| 1.79 ± 0.01 \|
	\| Graph2Route \| 74.84 ± 0.15 \| 56.99 ± 0.52 \| 2.86 ± 0.02 \| 1.77 ± 0.01 \|


	## 4.2 Estimated Time of Arrival Prediction

	\| Method \| MAE \| RMSE \| ACC@30 \|
	\| ------ \|--------------\|--------------\|-------------\|
	\| LightGBM \| 17.48 \| 20.39 \| 0.85 \|
	\| SPEED \| 23.75 \| 27.86 \| 0.73 \|
	\| KNN \| 21.28 \| 25.36 \| 0.75 \|
	\| MLP \| 21.54 ± 2.20 \| 25.05 ± 2.46 \| 0.79 ± 0.04 \|
	\| FDNET \| 18.47 ± 0.25 \| 21.44 ± 0.28 \| 0.84 ± 0.01 \|


	## 4.3 Spatio-temporal Graph Forecasting


	\| Method \| MAE \| RMSE \|
	\|-------\|-------------\|-------------\|
	\| HA \| 4.63 \| 9.91 \|
	\| DCRNN \| 3.69 ± 0.09 \| 7.08 ± 0.12 \|
	\| STGCN \| 3.04 ± 0.02 \| 6.42 ± 0.05 \|
	\| GWNET \| 3.16 ± 0.06 \| 6.56 ± 0.11 \|
	\| ASTGCN \| 3.12 ± 0.06 \| 6.48 ± 0.14 \|
	\| MTGNN \| 3.13 ± 0.04 \| 6.51 ± 0.13 \|
	\| AGCRN \| 3.93 ± 0.03 \| 7.99 ± 0.08 \|
	\| STGNCDE \| 3.74 ± 0.15 \| 7.27 ± 0.16 \|

	---
	license: apache-2.0
	tags:
	- Logistics
	- Last-mile Delivery
	- Spatial-Temporal
	- Graph
	size_categories:
	- 10M<n<100M
	---

	Dataset Download: https://huggingface.co/datasets/Anonymous-LaEx/Anonymous-LaDe

	Code Link:https://anonymous.4open.science/r/Anonymous-64B3/

	# 1 About Dataset
	LaDe is a publicly available last-mile delivery dataset with millions of packages from industry.
	It has three unique characteristics: (1) Large-scale. It involves 10,677k packages of 21k couriers over 6 months of real-world operation.
	(2) Comprehensive information, it offers original package information, such as its location and time requirements, as well as task-event information, which records when and where the courier is while events such as task-accept and task-finish events happen.
	(3) Diversity: the dataset includes data from various scenarios, such as package pick-up and delivery, and from multiple cities, each with its unique spatio-temporal patterns due to their distinct characteristics such as populations.
	![LaDe.png](./img/LaDe.png)



	# 2 Download
	LaDe is composed of two subdatasets: i) [LaDe-D](https://huggingface.co/datasets/Anonymous-LaDe/Anonymous/tree/main/delivery), which comes from the package delivery scenario.
	ii) [LaDe-P](https://huggingface.co/datasets/Anonymous-LaDe/Anonymous/tree/main/pickup), which comes from the package pickup scenario. To facilitate the utilization of the dataset, each sub-dataset is presented in CSV format.

	LaDe can be used for research purposes. Before you download the dataset, please read these terms. And [Code link](https://anonymous.4open.science/r/Anonymous-64B3/). Then put the data into "./data/raw/".
	The structure of "./data/raw/" should be like:
	```
	* ./data/raw/
	* delivery
	* delivery_sh.csv
	* ...
	* pickup
	* pickup_sh.csv
	* ...
	```

	Each sub-dataset contains 5 csv files, with each representing the data from a specific city, the detail of each city can be find in the following table.


	\| City \| Description \|
	\|------------\|----------------------------------------------------------------------------------------------\|
	\| Shanghai \| One of the most prosperous cities in China, with a large number of orders per day. \|
	\| Hangzhou \| A big city with well-developed online e-commerce and a large number of orders per day. \|
	\| Chongqing \| A big city with complicated road conditions in China, with a large number of orders. \|
	\| Jilin \| A middle-size city in China, with a small number of orders each day. \|
	\| Yantai \| A small city in China, with a small number of orders every day. \|


	# 3 Description
	Below is the detailed field of each sub-dataset.
	## 3.1 LaDe-P
	\| Data field \| Description \| Unit/format \|
	\|----------------------------\|----------------------------------------------\|--------------\|
	\| Package information \| \| \|
	\| package_id \| Unique identifier of each package \| Id \|
	\| time_window_start \| Start of the required time window \| Time \|
	\| time_window_end \| End of the required time window \| Time \|
	\| Stop information \| \| \|
	\| lng/lat \| Coordinates of each stop \| Float \|
	\| city \| City \| String \|
	\| region_id \| Id of the Region \| String \|
	\| aoi_id \| Id of the AOI (Area of Interest) \| Id \|
	\| aoi_type \| Type of the AOI \| Categorical \|
	\| Courier Information \| \| \|
	\| courier_id \| Id of the courier \| Id \|
	\| Task-event Information \| \| \|
	\| accept_time \| The time when the courier accepts the task \| Time \|
	\| accept_gps_time \| The time of the GPS point closest to accept time \| Time \|
	\| accept_gps_lng/lat \| Coordinates when the courier accepts the task \| Float \|
	\| pickup_time \| The time when the courier picks up the task \| Time \|
	\| pickup_gps_time \| The time of the GPS point closest to pickup_time \| Time \|
	\| pickup_gps_lng/lat \| Coordinates when the courier picks up the task \| Float \|
	\| Context information \| \| \|
	\| ds \| The date of the package pickup \| Date \|


	## 3.2 LaDe-D
	\| Data field \| Description \| Unit/format \|
	\|-----------------------\|--------------------------------------\|---------------\|
	\| Package information \| \| \|
	\| package_id \| Unique identifier of each package \| Id \|
	\| Stop information \| \| \|
	\| lng/lat \| Coordinates of each stop \| Float \|
	\| city \| City \| String \|
	\| region_id \| Id of the region \| Id \|
	\| aoi_id \| Id of the AOI \| Id \|
	\| aoi_type \| Type of the AOI \| Categorical \|
	\| Courier Information \| \| \|
	\| courier_id \| Id of the courier \| Id \|
	\| Task-event Information\| \| \|
	\| accept_time \| The time when the courier accepts the task \| Time \|
	\| accept_gps_time \| The time of the GPS point whose time is the closest to accept time \| Time \|
	\| accept_gps_lng/accept_gps_lat \| Coordinates when the courier accepts the task \| Float \|
	\| delivery_time \| The time when the courier finishes delivering the task \| Time \|
	\| delivery_gps_time \| The time of the GPS point whose time is the closest to the delivery time \| Time \|
	\| delivery_gps_lng/delivery_gps_lat \| Coordinates when the courier finishes the task \| Float \|
	\| Context information \| \| \|
	\| ds \| The date of the package delivery \| Date \|


	# 4 Leaderboard
	Blow shows the performance of different methods in Shanghai.
	## 4.1 Route Prediction

	Experimental results of route prediction. We use bold and underlined fonts to denote the best and runner-up model, respectively.

	\| Method \| HR@3 \| KRC \| LSD \| ED \|
	\|--------------\|--------------\|--------------\|-------------\|-------------\|
	\| TimeGreedy \| 57.65 \| 31.81 \| 5.54 \| 2.15 \|
	\| DistanceGreedy \| 60.77 \| 39.81 \| 5.54 \| 2.15 \|
	\| OR-Tools \| 66.21 \| 47.60 \| 4.40 \| 1.81 \|
	\| LightGBM \| 73.76 \| 55.71 \| 3.01 \| 1.84 \|
	\| FDNET \| 73.27 ± 0.47 \| 53.80 ± 0.58 \| 3.30 ± 0.04 \| 1.84 ± 0.01 \|
	\| DeepRoute \| 74.68 ± 0.07 \| 56.60 ± 0.16 \| 2.98 ± 0.01 \| 1.79 ± 0.01 \|
	\| Graph2Route \| 74.84 ± 0.15 \| 56.99 ± 0.52 \| 2.86 ± 0.02 \| 1.77 ± 0.01 \|


	## 4.2 Estimated Time of Arrival Prediction

	\| Method \| MAE \| RMSE \| ACC@30 \|
	\| ------ \|--------------\|--------------\|-------------\|
	\| LightGBM \| 17.48 \| 20.39 \| 0.85 \|
	\| SPEED \| 23.75 \| 27.86 \| 0.73 \|
	\| KNN \| 21.28 \| 25.36 \| 0.75 \|
	\| MLP \| 21.54 ± 2.20 \| 25.05 ± 2.46 \| 0.79 ± 0.04 \|
	\| FDNET \| 18.47 ± 0.25 \| 21.44 ± 0.28 \| 0.84 ± 0.01 \|


	## 4.3 Spatio-temporal Graph Forecasting


	\| Method \| MAE \| RMSE \|
	\|-------\|-------------\|-------------\|
	\| HA \| 4.63 \| 9.91 \|
	\| DCRNN \| 3.69 ± 0.09 \| 7.08 ± 0.12 \|
	\| STGCN \| 3.04 ± 0.02 \| 6.42 ± 0.05 \|
	\| GWNET \| 3.16 ± 0.06 \| 6.56 ± 0.11 \|
	\| ASTGCN \| 3.12 ± 0.06 \| 6.48 ± 0.14 \|
	\| MTGNN \| 3.13 ± 0.04 \| 6.51 ± 0.13 \|
	\| AGCRN \| 3.93 ± 0.03 \| 7.99 ± 0.08 \|
	\| STGNCDE \| 3.74 ± 0.15 \| 7.27 ± 0.16 \|