The source code of my paper.
Hao Wu, Ziyang Chen, Weiwei Sun, Baihua Zheng, Wei Wang, Modeling Trajectories with Recurrent Neural Networks. IJCAI 2017.
The directory structure may be as follows
workspace (e.g., /data)
└ dataset_name1 (e.g., porto_6k)
├ data
| └ your_traj_file.txt
├ map
| ├ nodeOSM.txt
| └ edgeOSM.txt
└ ckpt
└ CSSRNN
├ dest_emb
| └ emb_50_hid_50_deep_1
├ dest_coord
| └ emb_200_hid_50_deep_1
└ without_dest
└ emb_250_hid_350_deep_3
codespace
├ config
├ main.py
├ geo.py
├ trajmodel.py
└ ngram_model.py
The map is recommended to be constructed from OpenStreetMap.
You can get your own road network file from OpenStreetMap by selecting the rectangle area and export the file by, say, Overpass API
(the first choice in the web page).
Then you will be prompted to download a data named map
which is actually an XML-formatted file.
By executing OSMGen.cs
(you may have to maually set the file path in the code) on the raw map file, the nodeOSM.txt
and edgeOSM.txt
will be automatically extracted.
The format of these two file are shown as follows.
Format: [NodeID]
\t[latitude]
\t[longitude]
One node/vertex per line with increasing (continuous) ids. E.g.,
0 41.1689665 -8.6444747
1 41.1658735 -8.6444774
2 41.1670798 -8.6424338
3 41.1673856 -8.642543
4 41.1669776 -8.6417132
5 41.1676312 -8.6424866
...
1000 41.1575375 -8.6443184
, which records 1,000 vertices in the road network.
Format: [EdgeId]
\t[StartNodeId]
\t[EndNodeId]
\t[k]
\t[lat1]
\t[lon1]
\t[lat2]
\t[lon2]
...\t[latk]
\t[lonk]
One edge (StartNode
-> EndNode
) per line with increasing (continuous) ids.
And k
refers to the number of points of a polyline representing the shape of the road (including the start and the end node).
I.e., (lat1, lon1)
is just the coordinate of StartNode
, and (latk, lonk)
is the coordinate of EndNode
.
E.g.,
0 0 1326 5 41.1689665 -8.6444747 41.1688112 -8.6443785 41.1685579 -8.6440804 41.1683059 -8.6438068 41.1680768 -8.6437482
1 4 5 2 41.1669776 -8.6417132 41.1676312 -8.6424866
...
1500 1499 1494 2 41.1849529 -8.6317477 41.185196 -8.6318118
, which records 1,500 edges in the road network.
Edge 0
represents an edge from node 0
to node 1326
with 5
points representing the shape of the road as a
polyline. And edge 1
represents an edge from node 4
to 5
with 2
points representing the shape, which means the
shape of this road is a straight line segment (i.e., the first point(41.1669776, -8.6417132)
is just the coordinate of
node 4
and the second point (41.1676312, -8.6424866)
is just the coordinate of node 5
).
The format of trajectory data is very simple. The data may like as follows,
1,2,4,6,8,12,7,23,
9,2,4,18,76,42,3,78,98,54,
432,214,678,532,3,5,74,13,123,67,4,
...
Each line records several edge ids in the road network, which represents a trajectory w.r.t. the definition introduced in the paper, i.e.,
Definition 2 (Trajectory). A trajectory T in the form of r_1 → r_2 → … → r_k captures the movement of an object from r_1 to r_2 and so on to r_k along the road network G, where every two consecutive road segments are connected, i.e., \forall r_i, r_{i+1} ∈ T, r_i, r_{i+1}∈ E ∧ r_i.e = r_{i+1}.s.
The code can be successfully run under following environments
- Python: py2/py3 compatible
- Tensorflow version: 12.0 (You may have to change some code if you want to use higher version of Tensorflow since some APIs have been changed after v1.0)
- OS: Linux (I've tried this code on Windows and there may occur some strange runtime problems.)
[TODO] I'll modify some code to make it compatible with newest API of Tensorflow.
The project will also need following package dependencies
- Numpy
- Matplotlib
- Put the codes and the config file into the code space. Leave the trajectory data and the map data in the workspace following the directory structure as above.
- Modify
config
file - Run main function in
main.py
All model setting are included in config
file or can be set through the instance of Config
class.
To run the model, the following settings are important and should be set according your own dataset.
dataset_name
: give a name to your own dataset and put all stuffs w.r.t. this dataset into the directory named by this name (as the directory tree structure as the above section).workspace
: the place you want to put all data in, e.g.\home\data
. Note that you may have several datasets, e.g., with the names being,dataset1
,dataset2
, ... . The directory may like as follows,
/home/data/dataset1/data
/home/data/dataset1/map
/home/data/dataset1/ckpt
/home/data/dataset2/data
/home/data/dataset2/map
/home/data/dataset2/ckpt
...
file_name
: set this as the name of your own trajectory file. If you follow the directory tree sturcture as above, you may set thefile_name
asdata/trajectory.txt
since the file is located in thedata/
directory.
If you have correctly set these fields in the config, the model will be able to run with configuration printed in the screen.
To get the details of the remaining attributes of config, please refer to main.py
. Each field is described in detail
in comments.