This work proposes a fast and straightforward method, called natural point correspondences (NaPoCo), for the extraction of road segment shapes from trajectories of vehicles. The algorithm can be expressed with 20 lines of code in Python and can be used as a baseline for further extensions or as a heuristic initialization for more complex algorithms. In this paper, we evaluate the performance of the proposed method. We show that (1) the order of the points in a trajectory can be used to cluster points among the trajectories for road segment shape extraction and (2) that preprocessing using polygonal approximation improves the results of the approach. Furthermore, we show based on "averaging GPS segments" competition results, that the algorit...
As Floating Car Data are becoming increasingly available, in recent years many research works focuse...
Aiming at the shortcomings of low-accuracy in the use of GPS data to extract bidirection a roads and...
Intersections are important components of road networks, which are critical to both route planning a...
This work proposes a fast and straightforward method, called natural point correspondences (NaPoCo),...
Extracting road segments by averaging GPS trajectories is very challenging. Most existing averaging ...
With the wide spreading of geo-aware mobile applications, huge amounts of user-contributed GPS traje...
© 2016 Dr. Hengfeng LiWith the popularity of mobile GPS (Global Positioning System) devices such as ...
This paper proposes a method to infer road networks from GPS traces. These networks include intersec...
This paper proposes a method to infer road networks from GPS traces. These networks include intersec...
Modern mobile technology has enabled the collection of large scale vehicle trajectories using GPS de...
Despite advances in cartography, mapping is still a costly process which involves a substantial amou...
We propose a new segmentation and grouping framework for road map inference from GPS traces. We firs...
This paper proposes a method for inferring the road network from Global Position System (GPS) traces...
Since the beginning of this century there has been an explosive growth in the use of GPS technology....
International audienceA method called iTEKA, which stands for iterative time elastic kernel averagin...
As Floating Car Data are becoming increasingly available, in recent years many research works focuse...
Aiming at the shortcomings of low-accuracy in the use of GPS data to extract bidirection a roads and...
Intersections are important components of road networks, which are critical to both route planning a...
This work proposes a fast and straightforward method, called natural point correspondences (NaPoCo),...
Extracting road segments by averaging GPS trajectories is very challenging. Most existing averaging ...
With the wide spreading of geo-aware mobile applications, huge amounts of user-contributed GPS traje...
© 2016 Dr. Hengfeng LiWith the popularity of mobile GPS (Global Positioning System) devices such as ...
This paper proposes a method to infer road networks from GPS traces. These networks include intersec...
This paper proposes a method to infer road networks from GPS traces. These networks include intersec...
Modern mobile technology has enabled the collection of large scale vehicle trajectories using GPS de...
Despite advances in cartography, mapping is still a costly process which involves a substantial amou...
We propose a new segmentation and grouping framework for road map inference from GPS traces. We firs...
This paper proposes a method for inferring the road network from Global Position System (GPS) traces...
Since the beginning of this century there has been an explosive growth in the use of GPS technology....
International audienceA method called iTEKA, which stands for iterative time elastic kernel averagin...
As Floating Car Data are becoming increasingly available, in recent years many research works focuse...
Aiming at the shortcomings of low-accuracy in the use of GPS data to extract bidirection a roads and...
Intersections are important components of road networks, which are critical to both route planning a...