Title
Understanding operation behaviors of taxicabs in cities by matrix factorization.
Abstract
Taxicabs play significant roles in public transport systems in large cities. To meet repetitive demands of daily intra-urban travels, cabdrivers acquire self-organized habitual operation behaviors in space and time, largely with assistance of their longitudinal operating experience. Recognizing those collective operation behavior patterns of taxicabs will enable us to better design and implement public transport services and urban development plan. In this paper, we systematically study patterns of the spatial supply of 6000+ taxicabs in Wuhan, China based on a monthly collection of their digital traces and the non-negative matrix factorization method. We successfully identify a set of high-level statistical features of the spatial operation behaviors of taxicabs in Wuhan, providing valuable insights to our knowledge of the demand and supply of taxicabs in (similar) large cities. First, we decouple several spatially cohesive regions with intensive internal taxicab travels (termed as demand regions), which intuitively reveal the well-known multi-sectored urban configuration of Wuhan. Second, by applying the non-negative matrix factorization to taxicab's longitudinal traces, we uncover remarkably self-organized operation patterns of cabdrivers in space (termed as supply regions) as reactions to the sectored distribution of daily travel behaviors. We find that a large proportion of cabdrivers frequently operate within single specific service area and a small proportion of taxicabs works as shifting tools between different service areas. Last, we focus on performances of taxicabs with distinct spatial operation behaviors and unveil their statistical characteristics in terms of frequency, duration and distance with passenger on board. Our work demonstrates the great potential to understand and improve urban mobility and public transport system from cabdrivers' collective intelligence.
Year
DOI
Venue
2016
10.1016/j.compenvurbsys.2016.08.002
Computers, Environment and Urban Systems
Keywords
Field
DocType
Taxicab mobility,Travel demand-supply,Habitual operation behavior,Digital trace,Matrix factorization
Simulation,Collective intelligence,Matrix decomposition,Transport engineering,Public transport,Urban planning,Supply and demand,Geography
Journal
Volume
ISSN
Citations 
60
0198-9715
6
PageRank 
References 
Authors
0.44
18
2
Name
Order
Citations
PageRank
Chaogui Kang117310.16
Kun Qin260.77