research-article

Mapping Temporal Horizons: Analysis of Collective Future and Past related Attention in Twitter

Authors:

Émilien Antoine,

Toyokazu AkiyamaAuthors Info & Claims

WWW '15: Proceedings of the 24th International Conference on World Wide Web

Pages 484 - 494

https://doi.org/10.1145/2736277.2741632

Published: 18 May 2015 Publication History

Abstract

Microblogging platforms such as Twitter have recently received much attention as great sources for live web sensing, real-time event detection and opinion analysis. Previous works usually assumed that tweets mainly describe "what's happening now". However, a large portion of tweets contains time expressions that refer to time frames within the past or the future. Such messages often reflect expectations or memories of social media users. In this work we investigate how microblogging users collectively refer to time. In particular, we analyze half a year long portion of Japanese and four months long collection of US tweets and we quantify collective temporal attention of users as well as other related temporal characteristics. This kind of knowledge is helpful in the context of growing interest for detection and prediction of important events within social media. The exploratory analysis we perform is possible thanks to the development of visual analytics framework for robust overview and easy detection of various regularities in the past and future-oriented thinking of Twitter users. We believe that the visualizations we provide and the findings we outline can be also valuable for sociologists and computer scientists to test and refine their models about time in natural language.

References

[1]

Fabian Abel, Claudia Hauff, Geert-Jan Houben, Richard Stronkman, and Ke Tao. "Twitcident: Fighting Fire with Information from Social Web Streams". In: WWW Companion. 2012.

Digital Library

[2]

Omar Alonso, Ricardo Baeza-yates, Jannik Strötgen, and Michael Gertz. "Temporal Information Retrieval: Challenges and Opportunities". In: TempWeb. 2011.

[3]

Sebastien Ardon, Amitabha Bagchi, Anirban Mahanti, Amit Ruhela, Aaditeshwar Seth, Rudra Mohan Tripathy, and Sipat Triukose. "Spatio-temporal and Events Based Analysis of Topic Popularity in Twitter". In: CIKM. 2013.

Digital Library

[4]

Sitaram Asur and Bernardo A. Huberman. "Predicting the Future with Social Media". In: WI-IAT. Vol. 1. Aug. 2010.

Digital Library

[5]

Klaus Berberich, Srikanta Bedathur, Omar Alonso, and Gerhard Weikum. "A Language Modeling Approach for Temporal Information Needs". In: ECIR. 2010.

Digital Library

[6]

Ricardo Campos, Gaël Dias, Alípio M. Jorge, and Adam Jatowt. "Survey of Temporal Information Retrieval and Related Applications". In: ACM Comput. Surv. 47.2 (2014), 15:1--15:41.

Digital Library

[7]

Yan Chen, Hadi Amiri, Zhoujun Li, and Tat-Seng Chua. "Emerging Topic Detection for Organizations from Microblogs". In: SIGIR. 2013.

Digital Library

[8]

Au Yeung Ching-man and Adam Jatowt. "Studying How the Past is Remembered: Towards Computational History Through Large Scale Text Mining". In: CIKM. 2011.

Digital Library

[9]

Hermann Ebbinghaus. "Uber das Gedchtnis. Untersuchungen zur experimentellen Psychologie." In: (1885)

[10]

Hermann Ebbinghaus. Memory: A Contribution to Experimental Psychology. Columbia University. Teachers College. Educational reprints. no. 3. 1913.

[11]

Maurice Halbwachs. La mémoire collective. Les Presses universitaires de France. 1950.

[12]

Christoph Hoerl and Teresa McCormack. Time and memory : issues in philosophy and psychology. No.1. 2001.

[13]

R. Jacoby. Social Amnesia: A Critique of Contemporary Psychology. 1997.

[14]

Adam Jatowt and Ching-man Au Yeung. "Extracting collective expectations about the future from large text collections". In: CIKM. 2011.

Digital Library

[15]

Adam Jatowt, Hideki Kawai, Kensuke Kanazawa, Katsumi Tanaka, Kazuo Kunieda, and Keiji Yamada. "Analyzing Collective View of Future, Time-referenced Events on the Web". In: WWW. 2010.

Digital Library

[16]

Nattiya Kanhabua, Klaus Berberich, and Kjetil Nørvåg. "Learning to Select a Time-aware Retrieval Model". In: SIGIR. 2012.

Digital Library

[17]

Nattiya Kanhabua and Wolfgang Nejdl. "Understanding the Diversity of Tweets in the Time of Outbreaks". In: WWW. 2013.

Digital Library

[18]

Nattiya Kanhabua, Tu Ngoc Nguyen, and Claudia Niederee. "What triggers human remembering of events? A large-scale analysis of catalysts for collective memory in Wikipedia". In: JCDL. Sept. 2014.

Digital Library

[19]

Nattiya Kanhabua and Kjetil Nørvåg. "Determining Time of Queries for Re-ranking Search Results". In: ECDL. 2010.

Digital Library

[20]

David Lazer, Alex (Sandy) Pentland, Lada Adamic, Sinan Aral, Albert Laszlo Barabasi, Devon Brewer, et al. "Life in the network: the coming age of computational social science". In: Science 323.5915 (Feb. 6, 2009), pp. 721--723.

[21]

Chenliang Li, Aixin Sun, and Anwitaman Datta. "Twevent: Segment-based Event Detection from Tweets". In: CIKM. 2012.

Digital Library

[22]

Christopher D. Manning, Mihai Surdeanu, John Bauer, Jenny Finkel, Steven J. Bethard, and David McClosky. "The Stanford CoreNLP Natural Language Processing Toolkit". In: ACL. 2014.

[23]

Adam Marcus, Michael S. Bernstein, Osama Badar, David R. Karger, Samuel Madden, and Robert C. Miller. "Twitinfo: Aggregating and Visualizing Microblogs for Event Exploration". In: CHI. 2011.

Digital Library

[24]

Andrew J. McMinn, Daniel Tsvetkov, Tsvetan Yordanov, Andrew Patterson, Rrobi Szk, Jesus A. Rodriguez Perez, and Joemon M. Jose. "An Interactive Interface for Visualizing Events on Twitter". In: SIGIR. 2014.

Digital Library

[25]

M. J. Metzger. "Making sense of credibility on the Web: Models for evaluating online information and recommendations for future research". In: JASIST 58.13 (2007), pp. 2078--2091.

Digital Library

[26]

Donald Metzler, Rosie Jones, Fuchun Peng, and Ruiqiang Zhang. "Improving Search Relevance for Implicitly Temporal Queries". In: SIGIR '09. 2009.

Digital Library

[27]

Terence R. Mitchell, Leigh Thompson, Erika Peterson, and Randy Cronk. "Temporal Adjustments in the Evaluation of Events: The "Rosy View"". In: Journal of Experimental Social Psychology 33.4 (1997), pp. 421--448.

[28]

Fred Morstatter, Shamanth Kumar, Huan Liu, and Ross Maciejewski. "Understanding Twitter Data with TweetXplorer". In: KDD. 2013.

Digital Library

[29]

Mashaal Musleh. "Spatio-temporal Visual Analysis for Event-specific Tweets". In: SIGMOD. 2014.

Digital Library

[30]

Sérgio Nunes, Cristina Ribeiro, and Gabriel David. "Use of Temporal Expressions in Web Search". In: ECIR. 2008.

Digital Library

[31]

Kira Radinsky, Sagie Davidovich, and Shaul Markovitch. "Learning Causality for News Events Prediction". In: WWW. 2012.

Digital Library

[32]

Kira Radinsky and Eric Horvitz. "Mining the Web to Predict Future Events". In: WSDM. 2013.

Digital Library

[33]

Alan Ritter, Sam Clark, Mausam, and Oren Etzioni. "Named Entity Recognition in Tweets: An Experimental Study". In: EMNLP. 2011.

Digital Library

[34]

Alan Ritter, Mausam, Oren Etzioni, and Sam Clark. "Open Domain Event Extraction from Twitter". In: KDD. 2012.

Digital Library

[35]

David Rosenhan and Samuel Messick. "Affect and expectation". In: Journal of Personality and Social Psychology 3.1 (1966), pp. 38--44.

[36]

Takeshi Sakaki, Makoto Okazaki, and Yutaka Matsuo. "Earthquake shakes Twitter users: real-time event detection by social sensors". In: WWW. 2010.

Digital Library

[37]

George Valkanas and Dimitrios Gunopulos. "How the Live Web Feels About Events". In: CIKM. 2013.

Digital Library

[38]

W. Weerkamp and M. de Rijke. "Activity Prediction: A Twitter-based Exploration". In: TAIA. 2012.

[39]

Jianshu Weng and Bu-Sung Lee. "Event Detection in Twitter." In: ICWSM. 2011.

[40]

Jaewon Yang and Jure Leskovec. "Patterns of Temporal Variation in Online Media". In: WSDM. 2011.

Digital Library

[41]

Portal to visualizations of the Japanese dataset. url: http://scope13.cse.kyoto-su.ac.jp/JP4/chartlist.html.

[42]

Portal to visualizations of the USA dataset. url: http://scope13.cse.kyoto-su.ac.jp/US4/chartlist.html.

[43]

Time difference for Japanese dataset. url: http://scope13.cse.kyoto-su.ac.jp/JP4/timediff.html.

[44]

Time difference for US dataset. url: http://scope13.cse.kyoto-su.ac.jp/US4/timediff.html.

[45]

Time transition matrix for Japanese dataset. url: http://scope13.cse.kyoto-su.ac.jp/JP4/timematrix.html.

[46]

Time transition matrix for US dataset. url: http://scope13.cse.kyoto-su.ac.jp/US4/timematrix.html.

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https://dl.acm.org/doi/10.1145/3616855.3635693
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Mapping Temporal Horizons: Analysis of Collective Future and Past related Attention in Twitter

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Published In

cover image ACM Other conferences

WWW '15: Proceedings of the 24th International Conference on World Wide Web

May 2015

1460 pages

ISBN:9781450334693

General Chairs:
Aldo Gangemi
National Research Council, Italy & Paris 13 University-CNRS, France
,
Stefano Leonardi
Sapienza University of Rome, Italy
,
Alessandro Panconesi
Sapienza University of Rome, Italy

Copyright © 2015 Copyright is held by the International World Wide Web Conference Committee (IW3C2).

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IW3C2: International World Wide Web Conference Committee

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SIGWEB: ACM Special Interest Group on Hypertext, Hypermedia, and Web

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International World Wide Web Conferences Steering Committee

Republic and Canton of Geneva, Switzerland

Publication History

Published: 18 May 2015

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Information and Communications R&D Promotion Programme of the Ministry of Internal Affairs and Communications of Japan
JSPS KAKENHI
JST research promotion program Sakigake

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WWW '15

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IW3C2

WWW '15: 24th International World Wide Web Conference

May 18 - 22, 2015

Florence, Italy

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WWW '15 Paper Acceptance Rate 131 of 929 submissions, 14%;

Overall Acceptance Rate 1,899 of 8,196 submissions, 23%

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Cited By

Regev JJatowt AFärber MAngélica LLattanzi SMuñoz Medina AAkoglu LGionis AVassilvitskii S(2024)Future Timelines: Extraction and Visualization of Future-related Content From News ArticlesProceedings of the 17th ACM International Conference on Web Search and Data Mining10.1145/3616855.3635693(1082-1085)Online publication date: 4-Mar-2024
https://dl.acm.org/doi/10.1145/3616855.3635693
Hosokawa TJatowt ASugiyama K(2024)Temporal validity reassessment: commonsense reasoning about information obsoletenessDiscover Computing10.1007/s10791-024-09433-w27:1Online publication date: 6-May-2024
https://doi.org/10.1007/s10791-024-09433-w
Stanley Jothiraj FHong LMashhadi A(2024)Nostalgia on Twitter: Detection and Analysis of a Large‐Scale DatasetProceedings of the Association for Information Science and Technology10.1002/pra2.103361:1(349-360)Online publication date: 15-Oct-2024
https://doi.org/10.1002/pra2.1033
Yoshida KJatowt ASumikawa Y(2023)History-Related Content Recommendation in Social Networks Based on User's Interest Estimation2023 ACM/IEEE Joint Conference on Digital Libraries (JCDL)10.1109/JCDL57899.2023.00045(247-248)Online publication date: Jun-2023
https://doi.org/10.1109/JCDL57899.2023.00045
Hosokawa TJatowt ASugiyama K(2023)Temporal Natural Language Inference: Evidence-Based Evaluation of Temporal Text ValidityAdvances in Information Retrieval10.1007/978-3-031-28244-7_28(441-458)Online publication date: 17-Mar-2023
https://doi.org/10.1007/978-3-031-28244-7_28
Jatowt ADoucet ACampos R(2022)Diachronic Analysis of Time References in News ArticlesCompanion Proceedings of the Web Conference 202210.1145/3487553.3524671(918-923)Online publication date: 25-Apr-2022
https://dl.acm.org/doi/10.1145/3487553.3524671
West RLeskovec JPotts C(2021)Postmortem memory of public figures in news and social mediaProceedings of the National Academy of Sciences10.1073/pnas.2106152118118:38Online publication date: 15-Sep-2021
https://doi.org/10.1073/pnas.2106152118
Tsukada RZhan HIshiwatari SToyoda MUmemoto KShang HZettsu K(2020)Crowd Forecasting at Venues with Microblog Posts Referring to Future Events2020 IEEE International Conference on Big Data (Big Data)10.1109/BigData50022.2020.9377925(3147-3155)Online publication date: 10-Dec-2020
https://doi.org/10.1109/BigData50022.2020.9377925
Wang YSiriaraya PMittal MXie HKawai Y(2020)Understanding Multilingual Correlation of Geo-Tagged Tweets for POI RecommendationWeb and Wireless Geographical Information Systems10.1007/978-3-030-60952-8_14(135-144)Online publication date: 22-Oct-2020
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Pradhan RSharma D(2018)TemporalClassifierInternational Journal of Information Technology and Web Engineering10.4018/IJITWE.201510010310:4(44-66)Online publication date: 19-Dec-2018
https://dl.acm.org/doi/10.4018/IJITWE.2015100103
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