[en] Individual human travel patterns captured by mobile phone data have been quantitatively characterized by mathematical models, but the underlying activities which initiate the movement are still in a less-explored stage. As a result of the nature of how activity and related travel decisions are made in daily life, human activity-travel behavior exhibits a high degree of spatial and temporal regularities as well as sequential ordering. In this study, we investigate to what extent the behavioral routines could reveal the activities being performed at mobile phone call locations that are captured when users initiate or receive a voice call or message.
Our exploration consists of four steps. First, we define a set of comprehensive temporal variables characterizing each call location. Feature selection techniques are then applied to choose the most effective variables in the second step. Next, a set of state-of-the-art machine learning algorithms including Support Vector Machines, Logistic Regression, Decision Trees and Random Forests are employed to build classification models. Alongside, an ensemble of the results of the above models is also tested. Finally, the inference performance is further enhanced by a post-processing algorithm.
Using data collected from natural mobile phone communication patterns of 80 users over a period of more than one year, we evaluated our approach via a set of extensive experiments. Based on the ensemble of the models, we achieved prediction accuracy of 69.7%. Furthermore, using the post processing algorithm, the performance obtained a 7.6% improvement. The experiment results demonstrate the potential to annotate mobile phone locations based on the integration of data mining techniques with the characteristics of underlying activity-travel behavior, contributing towards the semantic comprehension and further application of the massive data.
Research Center/Unit :
Lepur : Centre de Recherche sur la Ville, le Territoire et le Milieu rural - ULiège LEMA - Local Environment Management and Analysis
Disciplines :
Special economic topics (health, labor, transportation...) Civil engineering
Author, co-author :
Liu, Feng; Universiteit Hasselt - UH
Janssens, Davy; Universiteit Hasselt - UH
Wets, Geert; Universiteit Hasselt - UH
Cools, Mario ; Université de Liège - ULiège > Département Argenco : Secteur TLU+C > Transports et mobilité
Language :
English
Title :
Annotating mobile phone location data with activity purposes using machine learning algorithms
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Bibliography
Alvares, L. O.; Bogorny, V.; Kuijpers, B.; Macedo, J. A. F.; Moelans, B.; & Vaisman, A. (2007). A model for enriching trajectories with semantic geographical information. In Proceedings of the 15th annual ACM international symposium on advances in geographic information systems, GIS 07.
T.A. Arentze, and H.J.P. Timmermans A learning-based transportation oriented simulation system Transportation Research Part B: Methodological 38 7 2004 613 633
K. Axhausen, and T. Gärling Activity-based approaches to travel analysis: Conceptual frameworks, models and research problems Transport Reviews 12 1992 324 341
R.A. Becker, R. Caceres, K. Hanson, J.M. Loh, S. Urbanek, and A. Varshavsky A tale of one city: Using cellular network data for urban planning IEEE Pervasive Computing 10 4 2011 18 26
W. Bohte, and K. Maat Deriving and validating trip purposes and travel modes for multi-day GPS-based travel surveys: A large-scale application in The Netherlands Transportation Research Part C: Emerging Technologies 17 3 2009 285 297
L. Breiman Random forests Machine Learning 45 1 2001 5 32
R.N. Buliung, M.J. Roorda, and T.K. Remmel Exploring spatial variety in patterns of activity-travel behaviour: Initial results from the toronto travel-activity panel survey (TTAPS) Transportation 35 6 2008 697 722
F. Calabrese, L.G. Di, L. Liu, and C. Ratti Estimating origin-destination flows using mobile phone location data IEEE Pervasive Computing 10 4 2011 36 44
Caruana, R. & Niculescu-mizil, A. (2006). An empirical comparison of supervised learning algorithms. In Proceedings of the 23rd international conference on machine learning.
Chon, Y.; Kim, Y.; Shin, H.; & Cha H. J. (2012). Topic modeling-based semantic annotation of place using personal behavior and environmental features. In Mobile data challenge (by Nokia) workshop, June 18-19, 2012. Newcastle, UK.
M. Cools, E. Moons, and G. Wets Assessing the impact of public holidays on travel time expenditure Transportation Research Record: Journal of the Transportation Research Board 2157 2010 29 37
J.H. Du, and L. Aultmanhall Increasing the accuracy of trip rate information from passive multi-day GPS travel datasets: Automatic trip end identification issues Transportation Research Part A: Policy and Practice 41 3 2007 220 232
N. Eagle, and A. Pentland Eigen behaviors: Identifying structure in routine Behavioral Ecology and Sociobiology 63 7 2009 1057 1066
T. Frusti, C. Bhat, and K. Axhausen Exploratory analysis of fixed commitments in individual activity-Travel patterns Transportation Research Record: Journal of the Transportation Research Board 1807 2002 101 108
M.C. González, C.A. Hidalgo, and A.L. Barabási Understanding individual human mobility patterns Nature 453 2008 779 782
Hall, M. A. (1998). Correlation-based feature subset selection for machine learning. Hamilton, New Zealand.
E. Hannes, D. Janssens, and G. Wets Destination choice in daily activity travel: Mental map's repertoire Transportation Research Record: Journal of the Transportation Research Board 2054 2008 20 27
E. Hannes, F. Liu, M. Vanhulsel, D. Janssens, T. Bellemans, and K. Vanhoof Tracking household routines using scheduling hypothesis embedded in skeletons (THRUSHES) Transportmetrica 8 3 2010 225 241 Special issue "Universal design"
C.A. Hidalgo, and C. Rodriguez-Sickert The dynamics of a mobile phone network Physica A: Statistical Mechanics and its Applications 387 12 2008 3017 3024
C.K. Huang, T.P. Hong, and S.J. Horng Discovering mobile users' moving behaviors in wireless networks Expert Systems with Applications 36 8 2009 10809 10814
Huang, C. M. Ying, J. J. C.; & Tseng, V. (2012). Mining users' behaviors and environments for semantic place prediction. In Mobile data challenge (by Nokia) workshop, June 18-19, 2012. Newcastle, UK.
K.S. Hwang, and S.B. Cho Landmark detection from mobile life log using a modular Bayesian network model Expert Systems with Applications 36 10 2009 12065 12076
Janssens, D. (2005). Calibrating unsupervised machine learning algorithms for the prediction of activity-travel patterns. Dissertation, Faculty of Economics, Hasselt University, Diepenbeek (pp. 139-198).
D. Janssens, G. Wets, T. Brijs, and K. Vanhoof The development of an adapted Markov chain modelling heuristic and simulation framework in the context of transportation research Expert Systems with Applications 28 1 2005 105 117
C.H. Joh, T.A. Arentze, and H.J.P. Timmermans Identifying skeletal information of activity patterns by multidimensional sequence alignment Transportation Research Record: Journal of the Transportation Research Board 2021 2007 81 88
K. Kasturirangan, R.M. Pendyala, and F.S. Koppelman On the role of history in modeling activity type choice and activity duration for commuters Transportation Research Record: Journal of the Transportation Research Board 1807 2002 129 136
S.S. Keerthi, S.K. Shevade, C. Bhattacharyya, and K.R.K. Murthy Improvements to Platt's SMO algorithm for SVM classifier design Neural Computation 13 3 2001 637 649
R. Kohavi, and G. John Wrappers for feature subset selection Artificial Intelligence 97 1-2 1997 273 324
S.B. Kotsiantis Supervised machine learning: A review of classification techniques Informatica 31 2007 249 268
O. Kwon, and J. Sim Effects of data set features on the performance of classification algorithms Expert Systems with Application 40 5 2012 1847 1857
Laurila, J. K.; Gatica-Perez, D.; Aad, I.; Blom, J.; Bornet, O.; Do, T. M. T.; Dousse, O.; Eberle, J.; & Miettinen, M. (2012). The mobile data challenge: Big data for mobile computing research. In Proceedings of the mobile data challenge (by Nokia) workshop, June 18-19, 2012. Newcastle, UK.
S. Le Cessie, and J.C. van Houwelingen Ridge estimators in logistic regression Applied Statistics 41 1 1992 191 201
S.H. Liao, P.H. Chu, and P.Y. Hsiao Data mining techniques and applications-A decade review from 2000 to 2011 Expert Systems with Applications 39 12 2012 11303 11311
A. Moiseeva, J. Jessurun, and H. Timmermans Semiautomatic imputation of activity travel diaries: Use of global positioning system traces, prompted recall, and context-sensitive learning algorithms Transportation Research Record: Journal of the Transportation Research Board 2183 2010 60 68
Montoliu, R.; & Gatica-Perez, D. (2010). Discovering human places of interest from multimodal mobile phone data. In Proceedings of the ACM. MU.
Montoliu, R.; Martínez-Uso, A.; & Martínez-Sotoca, J. (2012). Semantic place prediction by combining smart binary classifiers. In Mobile data challenge (by Nokia) workshop, June 18-19, 2012. Newcastle, UK.
J.R. Quinlan C4.5: Programs for machine learning 1993 Morgan Kaufmann San Mateo, California
Reumers, S.; Liu, F.; Janssens, D.; Cools, M.; & Wets, G. (2012). Semantic annotation of GPS traces: Activity type inference. In Presented at transportation research board 2013 annual meeting.
Sae-Tang, A.; Catasta, M.; McDowell, L. K.; & Aberer, K. (2012). Semantic place prediction using mobile data. In Mobile data challenge (by Nokia) workshop, June 18-19. Newcastle, UK.
R. Schlich, and K.W. Axhausen Habitual travel behaviour: Evidence from a six-week travel diary Transportation 30 2003 13 36
Schlaich, J.; Otterstätter, T.; & Friedrich, M. (2010). Generating trajectories from mobile phone data. In TRB 89th annual meeting compendium of papers, transportation research board of the national academies. Washington, DC, USA.
N. Schuessler, and K.W. Axhausen Processing raw data from global positioning systems without additional information Transportation Research Record: Journal of the Transportation Research Board 2105 2009 28 36
C.M. Song, T. Koren, P. Wang, and A.L. Barabási Modeling the scaling properties of human mobility Nature Physics 6 2010 818 823
E. Spissu, A.R. Pinjari, C.R. Bhat, R.M. Pendyala, and K.W. Axhausen An analysis of weekly out-of-home discretionary activity participation and time-use behavior Journal Transportation 36 5 2009 483 510
A. Statnikov, L. Wang, and C.F. Aliferis A comprehensive comparison of random forests and support vector machines for microarray-based cancer classification BMC Bioinformatics 9 2008 319
C. Wilson Activity pattern analysis by means of sequence-alignment methods Environment and Planning A 30 6 1998 1017 1038
C. Wilson Activity patterns in space and time: Calculating representative Hagerstrand trajectories Journal Transportation 35 4 2008 485 499
I.H. Witten, E. Frank, and M.A. Hall Data mining: Practical machine learning tools and techniques 2011 Elsevier Inc. Burlington 2011
S. Yagi, and A. Mohammadian An activity-based microsimulation model of travel demand in the Jakarta metropolitan area Journal of Choice Modeling 3 1 2010
A. Zanda, S. Eibe, and E. Menasalvas SOMAR: A social mobile activity recommender Expert Systems with Applications 39 9 2012 8423 8429
Y. Zheng, Y.K. Chen, X. Xie, and W.Y. Ma Understanding transportation modes based on GPS data for web applications ACM Transaction on the Web, Association for Computing Machinery 4 1 2010 1 36
Zhu, Y.; Zhong, E.; Lu, Z. Q.; & Yang, Q. (2012). Feature engineering for place category classification. In Mobile data challenge (by Nokia) workshop, June 18-19. Newcastle, UK.
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