Emilio Zagheni
Ingmar Weber
ABSTRACT
Data about migration flows are largely inconsistent across countries, typically outdated, and often inexistent. Despite the importance of migration as a driver of demographic change, there is limited availability of migration statistics. Generally, researchers rely on census data to indirectly estimate flows. However, little can be inferred for specific years between censuses and for recent trends. The increasing availability of geolocated data from online sources has opened up new opportunities to track recent trends in migration patterns and to improve our understanding of the relationships between internal and international migration. In this paper, we use geolocated data for about 500,000 users of the social network website "Twitter". The data are for users in OECD countries during the period May 2011- April 2013. We evaluated, for the subsample of users who have posted geolocated tweets regularly, the geographic movements within and between countries for independent periods of four months, respectively. Since Twitter users are not representative of the OECD population, we cannot infer migration rates at a single point in time. However, we proposed a difference-in-differences approach to reduce selection bias when we infer trends in out-migration rates for single countries. Our results indicate that our approach is relevant to address two longstanding questions in the migration literature. First, our methods can be used to predict turning points in migration trends, which are particularly relevant for migration forecasting. Second, geolocated Twitter data can substantially improve our understanding of the relationships between internal and international migration. Our analysis relies uniquely on publicly available data that could be potentially available in real time and that could be used to monitor migration trends. The Web Science community is well-positioned to address, in future work, a number of methodological and substantive questions that we discuss in this article.
- G. J. Abel. Estimating global migration flow tables using place of birth data. Demographic Research, 28(18):505--546, 2013.Google Scholar
Cross Ref
- J. J. Azose and A. E. Raftery. Bayesian probabilistic projection of international migration rates. arXiv preprint arXiv:1310.7148, 2013.Google Scholar
- M. A. Bayir, M. Demirbas, and N. Eagle. Discovering spatiotemporal mobility profiles of cellphone users. In World of Wireless, Mobile and Multimedia Networks & Workshops, 2009. WoWMoM 2009. IEEE International Symposium on a, pages 1--9. IEEE, 2009.Google ScholarCross Ref
- J. E. Blumenstock. Using mobile phone data to measure the ties between nations. In Proceedings of the 2011 iConference, iConference '11, pages 195--202, New York, NY, USA, 2011. ACM. Google ScholarDigital Library
- J. E. Blumenstock. Inferring patterns of internal migration from mobile phone call records: Evidence from rwanda. Information Technology for Development, 18(2):107--125, 2012.Google ScholarCross Ref
- J. Candia, M. C. González, P. Wang, T. Schoenharl, G. Madey, and A.-L. Barabási. Uncovering individual and collective human dynamics from mobile phone records. Journal of Physics A: Mathematical and Theoretical, 41(22):224015, 2008.Google ScholarCross Ref
- J. E. Cohen, M. Roig, D. C. Reuman, and C. GoGwilt. International migration beyond gravity: A statistical model for use in population projections. Proceedings of the National Academy of Sciences, 105(40):15269--15274, 2008.Google ScholarCross Ref
- J. De Beer, J. Raymer, R. Van der Erf, and L. Van Wissen. Overcoming the problems of inconsistent international migration data: A new method applied to flows in europe. European Journal of Population, 26(4):459--481, 2010.Google ScholarCross Ref
- M. De Choudhury, M. Feldman, S. Amer-Yahia, N. Golbandi, R. Lempel, and C. Yu. Automatic construction of travel itineraries using social breadcrumbs. In Proceedings of the 21st ACM Conference on Hypertext and Hypermedia, pages 35--44. ACM, 2010. Google ScholarDigital Library
- R. v. d. Erf. Analysis of final results. In Paper prepared for the IMEM progress meeting on 22--24 February in Asker, Norway, 2012.Google Scholar
- L. Ferrari and M. Mamei. Discovering daily routines from google latitude with topic models. In Pervasive Computing and Communications Workshops (PERCOM Workshops), 2011 IEEE International Conference on, pages 432--437. IEEE, 2011.Google ScholarCross Ref
- L. Ferrari, A. Rosi, M. Mamei, and F. Zambonelli. Extracting urban patterns from location-based social networks. In Proceedings of the 3rd ACM SIGSPATIAL International Workshop on Location-Based Social Networks, pages 9--16. ACM, 2011. Google ScholarDigital Library
- M. C. Gonzalez, C. A. Hidalgo, and A.-L. Barabasi. Understanding individual human mobility patterns. Nature, 453(7196):779--782, 2008.Google ScholarCross Ref
- P. Hui, R. Mortier, M. Piorkowski, T. Henderson, and J. Crowcroft. Planet-scale human mobility measurement. In HotPlanet, page 1, 2010. Google ScholarDigital Library
- N. Lathia, D. Quercia, and J. Crowcroft. The hidden image of the city: sensing community well-being from urban mobility. In Pervasive Computing, pages 91--98. Springer, 2012. Google ScholarDigital Library
- R. Lee. The outlook for population growth. Science, 333(6042):569--573, 2011.Google ScholarCross Ref
- A. Noulas, S. Scellato, C. Mascolo, and M. Pontil. An empirical study of geographic user activity patterns in foursquare. ICWSM, 11:70--573, 2011.Google Scholar
- A. Pitsillidis, Y. Xie, F. Yu, M. Abadi, G. M. Voelker, and S. Savage. How to tell an airport from a home: Techniques and applications. In Proceedings of the 9th ACM SIGCOMM Workshop on Hot Topics in Networks, page 13. ACM, 2010. Google ScholarDigital Library
- E. Pultar and M. Raubal. A case for space: physical and virtual location requirements in the couchsurfing social network. In Proceedings of the 2009 International Workshop on Location Based Social Networks, pages 88--91. ACM, 2009. Google ScholarDigital Library
- A. E. Raftery, N. Li, H. Sevc'ıková, P. Gerland, and G. K. Heilig. Bayesian probabilistic population projections for all countries. Proceedings of the National Academy of Sciences, 109(35):13915--13921, 2012.Google ScholarCross Ref
- F. Simini, M. C. González, A. Maritan, and A.-L. Barabási. A universal model for mobility and migration patterns. Nature, 484(7392):96--100, 2012.Google ScholarCross Ref
- C. Smith, D. Quercia, and L. Capra. Finger on the pulse: identifying deprivation using transit flow analysis. In Proceedings of the 2013 conference on Computer supported cooperative work, pages 683--692. ACM, 2013. Google ScholarDigital Library
- B. State, I. Weber, and E. Zagheni. Studying inter-national mobility through ip geolocation. In WSDM, pages 265--274, 2013. Google ScholarDigital Library
- E. Zagheni and I. Weber. You are where you e-mail: using e-mail data to estimate international migration rates. In WebSci, pages 348--351, 2012. Google ScholarDigital Library
- F. A. Zamal, W. Liu, and D. Ruths. Homophily and latent attribute inference: Inferring latent attributes of twitter users from neighbors. In ICWSM, 2012.Google Scholar
- G. K. Zipf. The p1 P2/D hypothesis: On the intercity movement of persons. American Sociological Review, 11(6):677--686, 1946.Google ScholarCross Ref
Index Terms
- Inferring international and internal migration patterns from Twitter data
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