To Topic-Graph

7.552 Topics available

To Map

748 Locations available

230.548 People

PeopleLocationsStatistics
Aksjonov, AndreiEspoo
  • 9
  • 26
  • 47
  • 2022
Wei, Wei
  • 10
  • 50
  • 182
  • 2022
Boussauw, Kobe
  • 8
  • 17
  • 55
  • 2022
Correia, G Homem De Almeida RodriguezDelft
  • 74
  • 203
  • 1k
  • 2022
Liu, YongfengLinköping, Villeurbanne
  • 126
  • 541
  • 2k
  • 2022
Marconi, Edoardo
  • 4
  • 6
  • 6
  • 2022
Šarkan, Branislav
  • 6
  • 15
  • 11
  • 2022
Ruponen, PekkaEspoo
  • 8
  • 21
  • 63
  • 2022
Sorniotti, AldoGuildford
  • 71
  • 295
  • 1k
  • 2022
Orlovska, JuliaGothenburg
  • 3
  • 7
  • 13
  • 2022
Costescu, Dorinela
  • 8
  • 28
  • 13
  • 2022
Bonander, Carl
  • 3
  • 8
  • 27
  • 2022
Kim, Sunghwan
  • 2
  • 6
  • 0
  • 2022
Kluge, M.
  • 13
  • 81
  • 272
  • 2022
Van Vuuren, Detlef PeterBerlin
  • 12
  • 129
  • 1k
  • 2022
Maternini, Giulio
  • 9
  • 32
  • 69
  • 2022
Kouwenhoven, Marco
  • 11
  • 39
  • 288
  • 2022
Zwick, Thomas
  • 51
  • 167
  • 990
  • 2022
Haddad, HediLyon
  • 4
  • 12
  • 10
  • 2022
SHARMA, SANJEEV
  • 1
  • 1
  • 0
  • 2022
Rakhmangulov, Aleksandr Nelevich
  • 6
  • 46
  • 22
  • 2022
Rusca, Aura
  • 5
  • 21
  • 2
  • 2022
Osintsev, Nikita Anatolyevich
  • 6
  • 46
  • 22
  • 2022
Rosca, Mircea Augustin
  • 6
  • 25
  • 15
  • 2022
Yang, BinAalborg
  • 44
  • 247
  • 1k
  • 2022

Yang, Bin

Aalborg University

in Cooperation with on an Cooperation-Score of 37%

Publications

Places of action

Chart of shared publication
Ceylan, Halil - 7 publications, 1 shared
Kim, Sunghwan - 2 publications, 1 shared
Zhang, Yang - 3 publications, 1 shared
Zheng, Daoyuan - 1 publications, 1 shared
Liu, Feng - 22 publications, 1 shared
Han, Ke Li - 1 publications, 1 shared
Wang, Xiaochen - 1 publications, 1 shared
Zhang, Ruiling - 1 publications, 1 shared
Jiang, Junke - 2 publications, 1 shared
Tao, Shuxia - 1 publications, 1 shared
Bai, Tianxin - 1 publications, 1 shared
Song, Xuewei - 2 publications, 1 shared
Gao, Zhen Hai - 5 publications, 1 shared
Kaizuka, Tsutomu - 5 publications, 3 shared
Maki, Tetsuo - 2 publications, 2 shared
Ishii, Ryo - 1 publications, 1 shared
Sakurai, Toshiaki - 3 publications, 2 shared
Sugimachi, Toshiyuki - 5 publications, 2 shared
Nakano, Kimihiko - 9 publications, 4 shared
Wang, Zheng - 6 publications, 2 shared
Obana, Tatsuya - 1 publications, 1 shared
Jensen, Christian S. - 21 publications, 12 shared
Pedersen, Simon Aagaard - 3 publications, 3 shared
ZHANG, Xiang-Hua - 113 publications, 3 shared
Li, Shenglong - 34 publications, 3 shared
Yu, T. - 2 publications, 2 shared
Wang, Jingbo - 2 publications, 2 shared
Shu, H. - 3 publications, 2 shared
Zhu, Tong - 6 publications, 1 shared
Yang, Lihui - 34 publications, 1 shared
He, Tian - 4 publications, 3 shared
Lan, C. - 1 publications, 1 shared
Wang, Jiandong - 225 publications, 1 shared
Zhou, Yongkang - 1 publications, 1 shared
Momiyama, Fujio - 1 publications, 1 shared
Ando, Takayuki - 1 publications, 1 shared
Aoki, Keiji - 1 publications, 1 shared
Huang, S. Ted - 1 publications, 1 shared
Cai, Zhijun - 1 publications, 1 shared
Feng, Qigao - 1 publications, 1 shared
Zhang, Yongqian - 145 publications, 1 shared
Abildgaard, Nicolaj Casanova - 1 publications, 1 shared
Lisby, Nichlas Orts - 1 publications, 1 shared
Hansen, Jonas - 1 publications, 1 shared
Jacobsen, Tobias Lambek - 1 publications, 1 shared
Knudsen, Thomas Hojriis - 1 publications, 1 shared
Bang, Casper Weiss - 1 publications, 1 shared
Guo, Chenjuan - 16 publications, 9 shared
Xiong, Hui - 2 publications, 1 shared
Hu, Jilin - 5 publications, 5 shared
Nielsen, Christopher Hansen - 1 publications, 1 shared
Agerholm, Niels - 23 publications, 1 shared
Randers, Simon Makne - 1 publications, 1 shared
Dai, Weine - 2 publications, 1 shared
Li, Junxiong - 112 publications, 3 shared
Dong, Zejiao - 29 publications, 1 shared
Chen, Cailian - 31 publications, 3 shared
Cong, Y. - 1 publications, 1 shared
Wu, W. - 3 publications, 1 shared
Nietch, C. - 2 publications, 2 shared
Tong, S. - 3 publications, 3 shared
Macke, D. - 2 publications, 2 shared
Shu, S. - 3 publications, 3 shared
Wu, Qiuwei - 83 publications, 3 shared
Emery, E. - 3 publications, 3 shared
Murray, A. - 5 publications, 3 shared
Wang, Shiyuan - 66 publications, 3 shared
Berling, K. - 3 publications, 3 shared
Young, John - 6 publications, 3 shared
Reif, M. - 7 publications, 3 shared
Ye, Z. - 5 publications, 3 shared
Stillings, G. - 3 publications, 3 shared
Johansen, R. - 1 publications, 1 shared
Liu, Hongbin - 64 publications, 3 shared
Martin, Mikael - 14 publications, 3 shared
Harwood, J. - 3 publications, 3 shared
Zhan, S. - 4 publications, 3 shared
Huang, Yingping - 59 publications, 3 shared
Stumpf, R. - 2 publications, 2 shared
Su, Haibin - 14 publications, 3 shared
Xu, Min - 10 publications, 3 shared
Beck, R. - 3 publications, 3 shared
Yu, Jing - 3 publications, 1 shared
Tan, Xianlong - 1 publications, 1 shared
Lin, Yi - 3 publications, 1 shared
Zhang, Jianwei - 1 publications, 1 shared
Yang, Kai - 8 publications, 1 shared
Jensen, Christian Søndergaard - 12 publications, 3 shared
Cheng, Xiaogang - 1 publications, 1 shared
Li, Haibo - 2 publications, 1 shared
Liu, Guoqing - 1 publications, 1 shared
Olofsson, Thomas - 6 publications, 1 shared
Shi, Longyu - 1 publications, 1 shared
Huseynova, Nigar - 1 publications, 1 shared
Gao, Lijie - 1 publications, 1 shared
Li, Chunming - 2 publications, 1 shared
Shen, H - 1 publications, 1 shared
Redfern, S. A. T. - 1 publications, 1 shared
Zhang, Haiqing - 66 publications, 1 shared
Feng, Xuning - 4 publications, 1 shared
Lu, Sha - 16 publications, 1 shared
Wei, H. - 7 publications, 1 shared
Zeng, Q. - 3 publications, 1 shared
Tse, Js - 1 publications, 1 shared
Zhang, Weidong - 61 publications, 2 shared
Wang, Haiyuan - 117 publications, 1 shared
Chen, Zhengpu - 60 publications, 1 shared
Yong, X - 1 publications, 1 shared
Zheng, W. - 5 publications, 1 shared
Zheng, Taixiong - 14 publications, 3 shared
Feng, Huizong - 10 publications, 1 shared
Li, Yongliang - 173 publications, 3 shared
Song, Y. - 28 publications, 1 shared
Johansen, R. A. - 1 publications, 1 shared
Zheng, Rencheng - 4 publications, 1 shared
Stump, R. - 1 publications, 1 shared
Guan, Xinping - 5 publications, 2 shared
Han, Qiaoni - 5 publications, 1 shared
Tan, R. - 2 publications, 1 shared
Zhou, T. - 2 publications, 1 shared
Shi, L. - 3 publications, 2 shared
Ma, Yu - 3 publications, 2 shared
Hao, X. - 6 publications, 1 shared
Han, Wei - 12 publications, 1 shared
Kong, Dewen - 2 publications, 1 shared
Guo, Xiucheng - 5 publications, 1 shared
Wu, Dingxin - 4 publications, 1 shared
Xu, Yongneng - 26 publications, 1 shared
Kaul, Manohar - 4 publications, 3 shared
Andersen, Ove - 6 publications, 2 shared
Torp, Kristian - 9 publications, 2 shared
Zou, J. - 3 publications, 1 shared
Li, Liying - 2 publications, 1 shared
Shang, Shuo - 3 publications, 1 shared
Zhang, Fangwei - 25 publications, 1 shared
Duong, H. T. - 4 publications, 1 shared
Skafidas, E. - 4 publications, 1 shared
Evans, R. J. - 9 publications, 1 shared
Le, Huy Viet - 4 publications, 1 shared
Huynh, A. T. - 4 publications, 1 shared
Janssens, Davy - 360 publications, 1 shared
Wets, Geert P M - 363 publications, 1 shared
Ruan, D. - 19 publications, 1 shared
BELLEMANS, Tom - 164 publications, 1 shared
Cools, Mario - 77 publications, 1 shared
Chart of publication period
2022
2021
2020
2019
2018
2017
2016
2015
2014
2013
2012
2011

Co-Authors (by relevance)

book

Using Incomplete Information for Complete Weight Annotation of Road Networks:Extended Version

  • Kaul, Manohar
  • Jensen, Christian Søndergaard
  • Yang, Bin
Abstract

We are witnessing increasing interests in the effective use of road networks. For example, to enable effective vehicle routing, weighted-graph models of transportation networks are used, where the weight of an edge captures some cost associated with traversing the edge, e.g., greenhouse gas (GHG) emissions or travel time. It is a precondition to using a graph model for routing that all edges have weights. Weights that capture travel times and GHG emissions can be extracted from GPS trajectory data collected from the network. However, GPS trajectory data typically lack the coverage needed to assign weights to all edges. This paper formulates and addresses the problem of annotating all edges in a road network with travel cost based weights from a set of trips in the network that cover only a small fraction of the edges, each with an associated ground-truth travel cost. A general framework is proposed to solve the problem. Specifically, the problem is modeled as a regression problem and solved by minimizing a judiciously designed objective function that takes into account the topology of the road network. In particular, the use of weighted PageRank values of edges is explored for assigning appropriate weights to all edges, and the property of directional adjacency of edges is also taken into account to assign weights. Empirical studies with weights capturing travel time and GHG emissions on two road networks (Skagen, Denmark, and North Jutland, Denmark) offer insight into the design properties of the proposed techniques and offer evidence that the techniques are effective. ; We are witnessing increasing interests in the effective use of road networks. For example, to enable effective vehicle routing, weighted-graph models of transportation networks are used, where the weight of an edge captures some cost associated with traversing the edge, e.g., greenhouse gas (GHG) emissions or travel time. It is a precondition to using a graph model for routing that all edges have weights. Weights that capture travel times and GHG emissions can be extracted from GPS trajectory data collected from the network. However, GPS trajectory data typically lack the coverage needed to assign weights to all edges. This paper formulates and addresses the problem of annotating all edges in a road network with travel cost based weights from a set of trips in the network that cover only a small fraction of the edges, each with an associated ground-truth travel cost. A general framework is proposed to solve the problem. Specifically, the problem is modeled as a regression problem and solved by minimizing a judiciously designed objective function that takes into account the topology of the road network. In particular, the use of weighted PageRank values of edges is explored for assigning appropriate weights to all edges, and the property of directional adjacency of edges is also taken into account to assign weights. Empirical studies with weights capturing travel time and GHG emissions on two road networks (Skagen, Denmark, and North Jutland, Denmark) offer insight into the design properties of the proposed techniques and offer evidence that the techniques are effective.

Topics
  • vehicle
  • data
  • contaminant
  • weight
  • travel
  • regression analysis
  • gas
  • trajectory
  • routing
  • topology
  • travel time
  • road network
  • travel cost
  • property
  • greenhouse gas
  • graph