*Pfrommer, J.*,
*Warrington, J.*,
*Schildbach, G.*,
*Morari, M.*,

**Dynamic Vehicle Redistribution and Online Price Incentives in Shared
Mobility Systems**,

*ITS(15)*, No. 4, August 2014, pp. 1567-1578.

IEEE DOI
**1410**

bicycles
BibRef

*Leu, J.S.[Jenq-Shiou]*,
*Zhu, Z.Y.[Zhe-Yi]*,

**Regression-based parking space availability prediction for the Ubike
system**,

*IET-ITS(9)*, No. 3, 2015, pp. 323-332.

DOI Link
**1506**

bicycles
BibRef

*Corno, M.*,
*Berretta, D.*,
*Savaresi, S.M.*,

**An IMU-Driven Rider-on-Saddle Detection System for
Electric-Power-Assisted Bicycles**,

*ITS(17)*, No. 11, November 2016, pp. 3184-3193.

IEEE DOI
**1609**

Bicycles
BibRef

*Kiefer, C.*,
*Behrendt, F.*,

**Smart e-bike monitoring system: real-time open source and open
hardware GPS assistance and sensor data for electrically-assisted
bicycles**,

*IET-ITS(10)*, No. 2, 2016, pp. 79-88.

DOI Link
**1602**

Global Positioning System
BibRef

*Schweizer, J.*,
*Bernardi, S.*,
*Rupi, F.*,

**Map-matching algorithm applied to bicycle global positioning system
traces in Bologna**,

*IET-ITS(10)*, No. 4, 2016, pp. 244-250.

DOI Link
**1606**

Global Positioning System
BibRef

*Schlote, A.*,
*Chen, B.*,
*Shorten, R.*,

**On Closed-Loop Bicycle Availability Prediction**,

*ITS(16)*, No. 3, June 2015, pp. 1449-1455.

IEEE DOI
**1506**

Availability
BibRef

*Lopez, A.J.[Angel J.]*,
*Astegiano, P.[Paola]*,
*Gautama, S.[Sidharta]*,
*Ochoa, D.[Daniel]*,
*Tampère, C.M.J.[Chris M. J.]*,
*Beckx, C.[Carolien]*,

**Unveiling E-Bike Potential for Commuting Trips from GPS Traces**,

*IJGI(6)*, No. 7, 2017, pp. xx-yy.

DOI Link
**1708**

BibRef

*Hrncír, J.*,
*Žilecký, P.*,
*Song, Q.*,
*Jakob, M.*,

**Practical Multicriteria Urban Bicycle Routing**,

*ITS(18)*, No. 3, March 2017, pp. 493-504.

IEEE DOI
**1703**

Approximation algorithms
BibRef

*Liu, D.X.[Dong-Xu]*,
*Dong, H.Z.[Hong-Zhao]*,
*Li, T.B.[Tie-Bei]*,
*Corcoran, J.[Jonathan]*,
*Ji, S.M.[Shi-Ming]*,

**Vehicle scheduling approach and its practice to optimise public bicycle
redistribution in Hangzhou**,

*IET-ITS(12)*, No. 8, October 2018, pp. 976-985.

DOI Link
**1809**

BibRef

*Mao, D.H.[Dian-Hui]*,
*Hao, Z.H.[Zhi-Hao]*,
*Wang, Y.[Yalei]*,
*Fu, S.T.[Shu-Ting]*,

**A Novel Dynamic Dispatching Method for Bicycle-Sharing System**,

*IJGI(8)*, No. 3, 2019, pp. xx-yy.

DOI Link
**1903**

BibRef

*Pajarito, D.[Diego]*,
*Gould, M.[Michael]*,

**Mapping Frictions Inhibiting Bicycle Commuting**,

*IJGI(7)*, No. 10, 2018, pp. xx-yy.

DOI Link
**1811**

BibRef

*Tang, G.*,
*Keshav, S.*,
*Golab, L.*,
*Wu, K.*,

**Bikeshare Pool Sizing for Bike-and-Ride Multimodal Transit**,

*ITS(19)*, No. 7, July 2018, pp. 2279-2289.

IEEE DOI
**1807**

Bicycles, Employment, Public transportation, Rail transportation,
Schedules, Sociology, Statistics, Bikeshare pool sizing, multimodal transit
BibRef

*He, B.[Biao]*,
*Zhang, Y.[Yan]*,
*Chen, Y.[Yu]*,
*Gu, Z.H.[Zhi-Hui]*,

**A Simple Line Clustering Method for Spatial Analysis with
Origin-Destination Data and Its Application to Bike-Sharing Movement
Data**,

*IJGI(7)*, No. 6, 2018, pp. xx-yy.

DOI Link
**1806**

BibRef

*Jing, W.P.[Wei-Peng]*,
*Kang, J.[Jian]*,
*Liu, M.L.[Mei-Ling]*,

**Mining taxi trajectories for most suitable stations of sharing bikes to
ease traffic congestion**,

*IET-ITS(12)*, No. 7, September 2018, pp. 586-593.

DOI Link
**1808**

BibRef

*Pritchard, R.[Ray]*,
*Frøyen, Y.[Yngve]*,
*Snizek, B.[Bernhard]*,

**Bicycle Level of Service for Route Choice: A GIS Evaluation of Four
Existing Indicators with Empirical Data**,

*IJGI(8)*, No. 5, 2019, pp. xx-yy.

DOI Link
**1906**

BibRef

*Werner, C.[Christian]*,
*Resch, B.[Bernd]*,
*Loidl, M.[Martin]*,

**Evaluating Urban Bicycle Infrastructures through Intersubjectivity of
Stress Sensations Derived from Physiological Measurements**,

*IJGI(8)*, No. 6, 2019, pp. xx-yy.

DOI Link
**1908**

BibRef

*Gu, Z.H.[Zhi-Hui]*,
*Zhu, Y.[Yong]*,
*Zhang, Y.[Yan]*,
*Zhou, W.Y.[Wan-Yu]*,
*Chen, Y.[Yu]*,

**Heuristic Bike Optimization Algorithm to Improve Usage Efficiency of
the Station-Free Bike Sharing System in Shenzhen, China**,

*IJGI(8)*, No. 5, 2019, pp. xx-yy.

DOI Link
**1906**

BibRef

*Lee, J.S.[Jin-Shyan]*,
*Jiang, J.W.[Jun-Wei]*,

**Enhanced fuzzy-logic-based power-assisted control with user-adaptive
systems for human-electric bikes**,

*IET-ITS(13)*, No. 10, October 2019, pp. 1492-1498.

DOI Link
**1909**

BibRef

*Sweeney, S.*,
*Ordóñez-Hurtado, R.*,
*Pilla, F.*,
*Russo, G.*,
*Timoney, D.*,
*Shorten, R.*,

**A Context-Aware E-Bike System to Reduce Pollution Inhalation While
Cycling**,

*ITS(20)*, No. 2, February 2019, pp. 704-715.

IEEE DOI
**1902**

Sensors, Electric motors, Air pollution, Automobiles, Batteries,
Urban areas, Cyber-physics, pollution mitigation, pedelecs,
man-machine interaction
BibRef

*Huang, F.*,
*Qiao, S.*,
*Peng, J.*,
*Guo, B.*,

**A Bimodal Gaussian Inhomogeneous Poisson Algorithm for Bike Number
Prediction in a Bike-Sharing System**,

*ITS(20)*, No. 8, August 2019, pp. 2848-2857.

IEEE DOI
**1908**

Predictive models, Nonhomogeneous media, Meteorology,
Prediction algorithms, Public transportation, Neural networks,
time series prediction
BibRef

*Cheng, X.Q.[Xiao-Qian]*,
*Li, C.M.[Cheng-Ming]*,
*Du, W.B.[Wei-Bing]*,
*Shen, J.M.[Jian-Ming]*,
*Dai, Z.X.[Zhao-Xin]*,

**Trip Extraction of Shared Electric Bikes Based on
Multi-Rule-Constrained Homomorphic Linear Clustering Algorithm**,

*IJGI(8)*, No. 12, 2019, pp. xx-yy.

DOI Link
**1912**

BibRef

*Zhai, Y.[Yong]*,
*Liu, J.[Jin]*,
*Du, J.[Juan]*,
*Wu, H.[Hao]*,

**Fleet Size and Rebalancing Analysis of Dockless Bike-Sharing Stations
Based on Markov Chain**,

*IJGI(8)*, No. 8, 2019, pp. xx-yy.

DOI Link
**1909**

BibRef

*Dong, J.[Jian]*,
*Chen, B.[Bin]*,
*He, L.[Lingnan]*,
*Ai, C.[Chuan]*,
*Zhang, F.[Fang]*,
*Guo, D.[Danhuai]*,
*Qiu, X.G.[Xiao-Gang]*,

**A Spatio-Temporal Flow Model of Urban Dockless Shared Bikes Based on
Points of Interest Clustering**,

*IJGI(8)*, No. 8, 2019, pp. xx-yy.

DOI Link
**1909**

BibRef

*Christian, K.[Kapuku]*,
*Cho, S.H.[Shin-Hyung]*,
*Kho, S.Y.[Seung-Young]*,
*Kim, D.K.[Dong-Kyu]*,

**Bayesian models with spatial autocorrelation for bike sharing ridership
variability based on revealed preference GPS trajectory data**,

*IET-ITS(13)*, No. 11, November 2019, pp. 1658-1667.

DOI Link
**1911**

BibRef

*Cao, M.[Min]*,
*Ma, S.J.[Shang-Jing]*,
*Huang, M.X.[Meng-Xue]*,
*Lü, G.N.[Guo-Nian]*,
*Chen, M.[Min]*,

**Effects of Free-Floating Shared Bicycles on Urban Public
Transportation**,

*IJGI(8)*, No. 8, 2019, pp. xx-yy.

DOI Link
**1909**

BibRef

*Zhao, X.F.[Xiao-Fei]*,
*Hu, C.Y.[Cai-Yi]*,
*Liu, Z.[Zhao]*,
*Meng, Y.Y.[Yang-Yang]*,

**Weighted Dynamic Time Warping for Grid-Based Travel-Demand-Pattern
Clustering: Case Study of Beijing Bicycle-Sharing System**,

*IJGI(8)*, No. 6, 2019, pp. xx-yy.

DOI Link
**1908**

BibRef

*Cao, M.[Min]*,
*Cai, B.[Boqin]*,
*Ma, S.J.[Shang-Jing]*,
*Lü, G.[Guonian]*,
*Chen, M.[Min]*,

**Analysis of the Cycling Flow Between Origin and Destination for
Dockless Shared Bicycles Based on Singular Value Decomposition**,

*IJGI(8)*, No. 12, 2019, pp. xx-yy.

DOI Link
**1912**

BibRef

*Yang, Z.*,
*Chen, J.*,
*Hu, J.*,
*Shu, Y.*,
*Cheng, P.*,

**Mobility Modeling and Data-Driven Closed-Loop Prediction in
Bike-Sharing Systems**,

*ITS(20)*, No. 12, December 2019, pp. 4488-4499.

IEEE DOI
**2001**

Predictive models, Bicycles, Urban areas, Optimization, Meteorology,
Probabilistic logic, Bike-sharing, mobility modeling,
Monte Carlo simulation
BibRef

*Bao, J.[Jie]*,
*Yu, H.[Hao]*,
*Wu, J.[JiaMing]*,

**Short-term FFBS demand prediction with multi-source data in a hybrid
deep learning framework**,

*IET-ITS(13)*, No. 9, September 2019, pp. 1340-1347.

DOI Link
**1908**

Short-term demand of free-floating bike sharing.
BibRef

*Wang, S.F.[Shuo-Feng]*,
*Li, Z.H.[Zhi-Heng]*,
*Gu, R.[Ruochen]*,
*Xie, N.[Na]*,

**Placement optimisation for station-free bicycle-sharing under 1D
distribution assumption**,

*IET-ITS(14)*, No. 9, September 2020, pp. 1079-1086.

DOI Link
**2008**

BibRef

*Ren, Y.*,
*Zhao, F.*,
*Jin, H.*,
*Jiao, Z.*,
*Meng, L.*,
*Zhang, C.*,
*Sutherland, J.W.*,

**Rebalancing Bike Sharing Systems for Minimizing Depot Inventory and
Traveling Costs**,

*ITS(21)*, No. 9, September 2020, pp. 3871-3882.

IEEE DOI
**2008**

Bicycles, Routing, Mathematical model, Vehicle dynamics,
Mathematical programming, Biological system modeling,
mathematical programming
BibRef

*Chen, P.C.[Po-Chuan]*,
*Hsieh, H.Y.[He-Yen]*,
*Su, K.W.[Kuan-Wu]*,
*Sigalingging, X.K.[Xanno Kharis]*,
*Chen, Y.R.[Yan-Ru]*,
*Leu, J.S.[Jenq-Shiou]*,

**Predicting station level demand in a bike-sharing system using
recurrent neural networks**,

*IET-ITS(14)*, No. 6, June 2020, pp. 554-561.

DOI Link
**2005**

BibRef

*Ye, M.[Mao]*,
*Zeng, S.[Simeng]*,
*Yang, G.X.[Gui-Xin]*,
*Chen, Y.J.[Ya-Jing]*,

**Identification of contributing factors on travel mode choice among
different resident types with bike-sharing as an alternative**,

*IET-ITS(14)*, No. 7, July 2020, pp. 639-646.

DOI Link
**2006**

BibRef

*Hua, M.Z.[Ming-Zhuang]*,
*Chen, J.X.[Jing-Xu]*,
*Chen, X.[Xuewu]*,
*Gan, Z.X.[Zuo-Xian]*,
*Wang, P.F.[Peng-Fei]*,
*Zhao, D.[De]*,

**Forecasting usage and bike distribution of dockless bike-sharing using
journey data**,

*IET-ITS(14)*, No. 12, December 2020, pp. 1647-1656.

DOI Link
**2011**

BibRef

*Jin, X.T.[Xue-Ting]*,
*Tong, D.Q.[Dao-Qin]*,

**Station-Free Bike Rebalancing Analysis: Scale, Modeling, and
Computational Challenges**,

*IJGI(9)*, No. 11, 2020, pp. xx-yy.

DOI Link
**2012**

BibRef

*Cheng, X.Q.[Xiao-Qian]*,
*Du, W.B.[Wei-Bing]*,
*Li, C.M.[Cheng-Ming]*,
*Yang, L.K.[Lei-Ku]*,
*Xu, L.J.[Lin-Juan]*,

**Exploring the Attractiveness of Residential Areas for Human
Activities Based on Shared E-Bike Trajectory Data**,

*IJGI(9)*, No. 12, 2020, pp. xx-yy.

DOI Link
**2012**

BibRef

*Sathishkumar, V.E.*,
*Park, J.[Jangwoo]*,
*Cho, Y.Y.[Yong-Yun]*,

**Seoul bike trip duration prediction using data mining techniques**,

*IET-ITS(14)*, No. 11, November 2020, pp. 1465-1474.

DOI Link
**2010**

BibRef

*Albuquerque, V.[Vitória]*,
*Dias, M.S.[Miguel Sales]*,
*Bacao, F.[Fernando]*,

**Machine Learning Approaches to Bike-Sharing Systems:
A Systematic Literature Review**,

*IJGI(10)*, No. 2, 2021, pp. xx-yy.

DOI Link
**2103**

BibRef

*Gao, F.[Feng]*,
*Li, S.Y.[Shao-Ying]*,
*Tan, Z.Z.[Zhang-Zhi]*,
*Zhang, X.M.[Xiao-Ming]*,
*Lai, Z.P.[Zhi-Peng]*,
*Tan, Z.[Ziling]*,

**How Is Urban Greenness Spatially Associated with Dockless Bike
Sharing Usage on Weekdays, Weekends, and Holidays?**,

*IJGI(10)*, No. 4, 2021, pp. xx-yy.

DOI Link
**2104**

BibRef

*Fan, R.N.[Rui-Na]*,
*Ma, F.Q.[Fan-Qi]*,

**Bike-sharing systems with a dual selection mechanism and a dynamic
double-threshold repositioning policy**,

*IET-ITS(15)*, No. 5, 2021, pp. 712-725.

DOI Link
**2106**

BibRef

*Wang, W.[Wei]*,
*Zhao, X.F.[Xiao-Feng]*,
*Gong, Z.G.[Zhi-Guo]*,
*Chen, Z.K.[Zhi-Kui]*,
*Zhang, N.[Ning]*,
*Wei, W.[Wei]*,

**An Attention-Based Deep Learning Framework for Trip Destination
Prediction of Sharing Bike**,

*ITS(22)*, No. 7, July 2021, pp. 4601-4610.

IEEE DOI
**2107**

Machine learning, Task analysis, Neural networks, Smart cities,
Convolution, Predictive models, Internet of Things,
attention model
BibRef

*Borowska-Stefanska, M.[Marta]*,
*Mikusova, M.[Miroslava]*,
*Kowalski, M.[Michal]*,
*Kurzyk, P.[Paulina]*,
*Wisniewski, S.[Szymon]*,

**Changes in Urban Mobility Related to the Public Bike System with
Regard to Weather Conditions and Statutory Retail Restrictions**,

*RS(13)*, No. 18, 2021, pp. xx-yy.

DOI Link
**2109**

BibRef

*Bahadori, M.S.[Mohammad Sadegh]*,
*Gonçalves, A.B.[Alexandre B.]*,
*Moura, F.[Filipe]*,

**A Systematic Review of Station Location Techniques for
Bicycle-Sharing Systems Planning and Operation**,

*IJGI(10)*, No. 8, 2021, pp. xx-yy.

DOI Link
**2108**

BibRef

*Zhang, X.Y.[Xiao-Yi]*,
*Chen, Y.[Yurong]*,
*Zhong, Y.[Yang]*,

**Spatial and Temporal Characteristic Analysis of Imbalance Usage in
the Hangzhou Public Bicycle System**,

*IJGI(10)*, No. 10, 2021, pp. xx-yy.

DOI Link
**2110**

BibRef

*Chen, L.J.[Li-Jun]*,
*Zhang, H.P.[Hai-Ping]*,
*Wang, H.[Haoran]*,
*Wu, P.[Peng]*,

**Understanding Plum Rain's Effects on Urban Public Bicycle
Unavailability Considering Both Place Semantics and Riding Distance**,

*IJGI(10)*, No. 10, 2021, pp. xx-yy.

DOI Link
**2110**

BibRef

*Lee, J.[Jiwon]*,
*Yu, K.[Kiyun]*,
*Kim, J.Y.[Ji-Young]*,

**Public Bike Trip Purpose Inference Using Point-of-Interest Data**,

*IJGI(10)*, No. 5, 2021, pp. xx-yy.

DOI Link
**2106**

BibRef

*Jiang, G.Y.[Guan-Ying]*,
*Zhang, R.H.[Rong-Hui]*,
*Qu, X.B.[Xiao-Bo]*,
*Zhao, D.Z.[De-Zong]*,

**A Dynamic Model Averaging for the Discovery of Time-Varying
Weather-Cycling Patterns**,

*ITS(22)*, No. 5, May 2021, pp. 2786-2796.

IEEE DOI
**2105**

Weather impacts cyclists. Scheduling bike trips.
Predictive models, Production, Weather forecasting, Urban areas,
Wind speed, Intelligent transportation systems.
BibRef

*Capodici, A.E.[Alessandro Emilio]*,
*D'Orso, G.[Gabriele]*,
*Migliore, M.[Marco]*,

**A GIS-Based Methodology for Evaluating the Increase in Multimodal
Transport between Bicycle and Rail Transport Systems. A Case Study in
Palermo**,

*IJGI(10)*, No. 5, 2021, pp. xx-yy.

DOI Link
**2106**

BibRef

DOI Link

BibRef

Chapter on Motion -- Feature-Based, Long Range, Motion and Structure Estimates, Tracking, Surveillance, Activities continues in

Transit Traffic Analysis, Public Transit, Bus .

Last update:Nov 30, 2021 at 22:19:38