survey

Processing Social Media Messages in Mass Emergency: A Survey

Authors:
Muhammad Imran

Qatar Computing Research Institute, Doha, Qatar

Qatar Computing Research Institute, Doha, Qatar
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,
Carlos Castillo

Qatar Computing Research Institute, Doha, Qatar

Qatar Computing Research Institute, Doha, Qatar
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,
Fernando Diaz

Microsoft Research, New York NY

Microsoft Research, New York NY
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,
Sarah Vieweg

Qatar Computing Research Institute, Doha, Qatar

Qatar Computing Research Institute, Doha, Qatar
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Authors Info & Claims

ACM Computing Surveys Volume 47 Issue 4Article No.: 67pp 1–38https://doi.org/10.1145/2771588

Published:26 June 2015Publication History

ACM Computing Surveys

Abstract

Social media platforms provide active communication channels during mass convergence and emergency events such as disasters caused by natural hazards. As a result, first responders, decision makers, and the public can use this information to gain insight into the situation as it unfolds. In particular, many social media messages communicated during emergencies convey timely, actionable information. Processing social media messages to obtain such information, however, involves solving multiple challenges including: parsing brief and informal messages, handling information overload, and prioritizing different types of information found in messages. These challenges can be mapped to classical information processing operations such as filtering, classifying, ranking, aggregating, extracting, and summarizing. We survey the state of the art regarding computational methods to process social media messages and highlight both their contributions and shortcomings. In addition, we examine their particularities, and methodically examine a series of key subproblems ranging from the detection of events to the creation of actionable and useful summaries. Research thus far has, to a large extent, produced methods to extract situational awareness information from social media. In this survey, we cover these various approaches, and highlight their benefits and shortcomings. We conclude with research challenges that go beyond situational awareness, and begin to look at supporting decision making and coordinating emergency-response actions.

References

Fabian Abel, Ilknur Celik, Geert-Jan Houben, and Patrick Siehndel. 2011. Leveraging the semantics of tweets for adaptive faceted search on twitter. In The Semantic Web. Springer, 1--17. Google ScholarDigital Library
Fabian Abel, Claudia Hauff, Geert-Jan Houben, Richard Stronkman, and Ke Tao. 2012. Semantics + filtering + search = Twitcident. Exploring information in social web streams. In Proc. of Hypertext. 285--294. Google ScholarDigital Library
Adam Acar and Yuya Muraki. 2011. Twitter for crisis communication: Lessons learned from Japan’s tsunami disaster. International Journal of Web Based Communities 7, 3, 392--402. Google ScholarDigital Library
James Allan. 2002. Topic detection and tracking: event-based information organization. Springer. Google ScholarDigital Library
James Allan, Rahul Gupta, and Vikas Khandelwal. 2001. Temporal summaries of new topics. In Proc. of SIGIR. ACM, 10--18. Google ScholarDigital Library
Albert Angel, Nick Koudas, Nikos Sarkas, and Divesh Srivastava. 2009. What’s on the grapevine?. In Proc. of SIGMOD. ACM, 1047--1050. Google ScholarDigital Library
Ji Ao, Peng Zhang, and Yanan Cao. 2014. Estimating the locations of emergency events from Twitter streams. Procedia Computer Science 31, 731--739.Google ScholarCross Ref
Eiji Aramaki, Sachiko Maskawa, and Mizuki Morita. 2011. Twitter catches the flu: Detecting influenza epidemics using Twitter. In Proc. of EMNLP. Association for Computational Linguistics, 1568--1576. Google ScholarDigital Library
Zahra Ashktorab, Christopher Brown, Manojit Nandi, and Aron Culotta. 2014. Tweedr: Mining Twitter to inform disaster response. In Proc. of ISCRAM.Google Scholar
Javed A. Aslam, Fernando Diaz, Matthew Ekstrand-Abueg, Virgil Pavlu, and Tetsuya Sakai. 2013. TREC 2013 temporal summarization. In Proc. of TREC.Google Scholar
Marco Avvenuti, Stefano Cresci, Andrea Marchetti, Carlo Meletti, and Maurizio Tesconi. 2014. EARS (Earthquake Alert and Report System): a real time decision support system for earthquake crisis management. In Proc. of KDD. ACM, 1749--1758. Google ScholarDigital Library
Grigori Babitski, Simon Bergweiler, Olaf Grebner, Daniel Oberle, Heiko Paulheim, and Florian Probst. 2011. SoKNOS--using semantic technologies in disaster management software. In The Semantic Web: Research and Applications. Springer, 183--197. Google ScholarDigital Library
Ricardo Baeza-Yates and Berthier Ribeiro-Neto. 2011. Modern Information Retrieval: The Concepts and Technology behind Search (2nd ed.). Addison-Wesley Professional. Google ScholarDigital Library
N. S. Baron. 2003. Language of the internet. In The Stanford handbook for language engineers, A. Farghali (Ed.). CSLI publications, Stanford, CA, 59--127.Google Scholar
Hila Becker, Mor Naaman, and Luis Gravano. 2011. Beyond trending topics: Real-world event identification on Twitter. Proc. of ICWSM. 438--441.Google Scholar
Frédérick Bénaben, Chihab Hanachi, Matthieu Lauras, Pierre Couget, and Vincent Chapurlat. 2008. A metamodel and its ontology to guide crisis characterization and its collaborative management. In Proc. of ISCRAM.Google Scholar
Fabrcio Benevenuto, Gabriel Magno, Tiago Rodrigues, and Virglio Almeida. 2010. Detecting spammers on Twitter. In Proc. of CEAS, Vol. 6, 12.Google Scholar
Michele Berlingerio, Calabrese Francesco, Lorenzo Giusy, Di, Dong Xiaowen, Gkoufas Yiannis, and Dimitrios Mavroeidis. 2013. SaferCity: A system for detecting and analyzing incidents from social media. In Proc. of ICDMW. 1077--1080. Google ScholarDigital Library
Deanne Bird, Megan Ling, and Katharine Haynes. 2012. Flooding Facebook—the use of social media during the Queensland and Victorian floods. The Australian Journal of Emergency Management 27, 1.Google Scholar
Justine I. Blanford, Jase Bernhardt, Alexander Savelyev, Gabrielle Wong-Parodi, Andrew M. Carleton, David W. Titley, and Alan M. MacEachren. 2014. Tweeting and tornadoes. In Proc. of ISCRAM.Google Scholar
Vincent D. Blondel, Jean-Loup Guillaume, Renaud Lambiotte, and Etienne Lefebvre. 2008. Fast unfolding of communities in large networks. Journal of Statistical Mechanics: Theory and Experiment 10.Google ScholarCross Ref
Kalina Bontcheva and Dominic Rout. 2012. Making sense of social media streams through semantics: a survey. Semantic Web.Google Scholar
Thorsten Brants, Francine Chen, and Ayman Farahat. 2003. A system for new event detection. In Proc. of SIGIR. ACM, 330--337. Google ScholarDigital Library
Sean Brennan, Adam Sadilek, and Henry Kautz. 2013. Towards understanding global spread of disease from everyday interpersonal interactions. In Proc. of IJCAI. AAAI Press, 2783--2789. Google ScholarDigital Library
Axel Bruns. 2014. Crisis communication. The Media and Communications in Australia, 351--355.Google Scholar
Scott H. Burton, Kesler W. Tanner, Christophe G. Giraud-Carrier, Joshua H. West, and Michael D. Barnes. 2012. “Right Time, Right Place” health communication on Twitter: Value and accuracy of location information. Journal of Medical Internet Research 14, 6, e156.Google ScholarCross Ref
Kevin Robert Canini, Bongwon Suh, and Peter L. Pirolli. 2011. Finding credible information sources in social networks based on content and social structure. In Proc. of PASSAT. IEEE, 1--8.Google Scholar
Cornelia Caragea, Nathan McNeese, Anuj Jaiswal, Greg Traylor, H. Kim, Prasenjit Mitra, Dinghao Wu, A. Tapia, Lee Giles, Bernard J. Jansen, and others. 2011. Classifying text messages for the Haiti earthquake. In Proc. of ISCRAM.Google Scholar
Andy Carvin. 2013. Distant Witness. CUNY Journalism Press.Google Scholar
Carlos Castillo, Marcelo Mendoza, and Barbara Poblete. 2013. Predicting information credibility in time-sensitive social media. Internet Research 23, 5, 560--588.Google ScholarCross Ref
Irene Celino, Daniele Dell’Aglio, Emanuele Della Valle, Yi Huang, Tony Kyung-il Lee, Stanley Park, and Volker Tresp. 2011. Making sense of location-based micro-posts using stream reasoning. In Proc. of MSM. 13--18.Google Scholar
Ling Chen and Abhishek Roy. 2009. Event detection from Flickr data through wavelet-based spatial analysis. In Proc. of CIKM. ACM, 523--532. Google ScholarDigital Library
Wei Chen, Laks V. S. Lakshmanan, and Carlos Castillo. 2013. Information and influence propagation in social networks. Synthesis Lectures on Data Management 5, 4, 1--177.Google ScholarCross Ref
Zhiyuan Cheng, James Caverlee, and Kyumin Lee. 2010. You are where you tweet: A content-based approach to geo-locating Twitter users. In Proc. of CIKM. ACM, 759--768. DOI:http://dx.doi.org/10.1145/1871437.1871535 Google ScholarDigital Library
Chen-Huei Chou, Fatemeh Zahedi, and Huimin Zhao. 2011. Ontology for developing Web sites for natural disaster management: Methodology and implementation. IEEE Transactions on Systems, Man and Cybernetics, Part A: Systems and Humans 41, 1, 50--62. Google ScholarDigital Library
Soudip Roy Chowdhury, Muhammad Imran, Muhammad Rizwan Asghar, Sihem Amer-Yahia, and Carlos Castillo. 2013. Tweet4act: Using incident-specific profiles for classifying crisis-related messages. In Proc. of ISCRAM.Google Scholar
Camille Cobb, Ted McCarthy, Annuska Perkins, Ankitha Bharadwaj, Jared Comis, Brian Do, and Kate Starbird. 2014. Designing for the deluge: Understanding and supporting the distributed, collaborative work of crisis volunteers. In Proc. of CSCW. Google ScholarDigital Library
Courtney D. Corley, Chase Dowling, Stuart J. Rose, and Taylor McKenzie. 2013. SociAL sensor analytics: Measuring phenomenology at scale. In Proc. of ISI. IEEE, 61--66.Google ScholarCross Ref
Riley Crane and Didier Sornette. 2008. Robust dynamic classes revealed by measuring the response function of a social system. PNAS 105, 41, 15649--15653.Google ScholarCross Ref
H. T. Dang and K. Owczarzak. 2008. Overview of the TAC 2008 update summarization task. In Proc. of TAC.Google Scholar
Munmun De Choudhury, Nicholas Diakopoulos, and Mor Naaman. 2012. Unfolding the event landscape on Twitter: Classification and exploration of user categories. In Proc. of CSCW. Google ScholarDigital Library
Marc de la Asunción, Luis Castillo, Juan Fdez-Olivares, Óscar García-Pérez, Antonio González, and Francisco Palao. 2005. SIADEX: An interactive knowledge-based planner for decision support in forest fire fighting. AI Communications 18, 4, 257--268. Google ScholarDigital Library
Bertrand De Longueville, Robin S. Smith, and Gianluca Luraschi. 2009. OMG, from here, I can see the flames!: A use case of mining location based social networks to acquire spatio-temporal data on forest fires. In Proc. of LBSN. ACM, 73--80. Google ScholarDigital Library
Nicholas Diakopoulos, Munmun De Choudhury, and Mor Naaman. 2012. Finding and assessing social media information sources in the context of journalism. In Proc. of CHI. Google ScholarDigital Library
Wenwen Dou, Xiaoyu Wang, Drew Skau, William Ribarsky, and Michelle X. Zhou. 2012. Leadline: Interactive visual analysis of text data through event identification and exploration. In Proc. of VAST. IEEE, 93--102. Google ScholarDigital Library
Russell R. Dynes. 1970. Organized Behavior in Disaster. Heath LexingtonBooks.Google Scholar
Russell R. Dynes. 1994. Community emergency planning: False assumptions and inappropriate analogies. International Journal of Mass Emergencies and Disasters 12, 2, 141--158.Google Scholar
Paul S. Earle, Daniel C. Bowden, and Michelle Guy. 2012. Twitter earthquake detection: Earthquake monitoring in a social world. Annals of Geophysics 54, 6.Google Scholar
Mica R. Endsley. 1995. Toward a theory of situation awareness in dynamic systems. Human Factors: The Journal of the Human Factors and Ergonomics Society 37, 1, 32--64.Google ScholarCross Ref
Ao Feng and James Allan. 2009. Incident threading for news passages. In Proc. of CIKM. ACM, 1307--1316. Google ScholarDigital Library
Julia D. Fraustino, Brooke Liu, and Yan Jin. 2012. Social Media Use during Disasters: A Review of the Knowledge Base and Gaps (Final Report, START). Technical Report. Human Factors/Behavioral Sciences Division, Science and Technology Directorate, U.S. Department of Homeland Security.Google Scholar
Therese Friberg, Stephan Prödel, and Rainer Koch. 2011. Information quality criteria and their importance for experts in crisis situations. In Proc. of ISCRAM. 145--149.Google Scholar
Liang Gao, Chaoming Song, Ziyou Gao, Albert-Laszlo Barabasi, James P. Bagrow, and Dashun Wang. 2014. Quantifying information flow during emergencies. Scientific Reports, 4.Google Scholar
Judith Gelernter and Nikolai Mushegian. 2011. Geo-parsing messages from microtext. Transactions in GIS 15, 6, 753--773.Google ScholarCross Ref
Daniel Gilman and Leith Baker. 2011. Humanitarianism in the Age of Cyber-warfare: Towards the Principled and Secure Use of Information in Humanitarian Emergencies. Technical Report. United Nations Office for the Coordination of Humanitarian Affairs.Google Scholar
GlobalWebIndex. 2013. Stream Social Survey 2013 Q2. Retrieved May 11, 2015 from https://www.globalwebindex.net/blog/stream-social-q2-2013.Google Scholar
Mark Graham, Scott A. Hale, and Devin Gaffney. 2014. Where in the world are you? Geolocation and language identification in Twitter. The Professional Geographer 66, 4, 568--578.Google ScholarCross Ref
Qi Guo, Fernando Diaz, and Elad Yom-Tov. 2013. Updating users about time critical events. In Advances in Information Retrieval. Springer, Berlin, 483--494. Google ScholarDigital Library
Aditi Gupta and Ponnurangam Kumaraguru. 2012. Credibility ranking of tweets during high impact events. In Proc. of PSOSM. ACM, 2. Google ScholarDigital Library
Aditi Gupta, Ponnurangam Kumaraguru, Carlos Castillo, and Patrick Meier. 2014. TweetCred: Real-time credibility assessment of content on Twitter. In Proc. of SocInfo. Springer, 228--243.Google Scholar
Aditi Gupta, Hemank Lamba, Ponnurangam Kumaraguru, and Anupam Joshi. 2013. Faking Sandy: Characterizing and identifying fake images on Twitter during Hurricane Sandy. In Proc. of WWW (Companion). IW3C2, 729--736. Google ScholarDigital Library
Isabelle Guyon and André Elisseeff. 2003. Special issue on variable and feature selection. Journal of Machine Learning Research, 3. Google ScholarDigital Library
Harvard Humanitarian Initiative. 2011. Disaster Relief 2.0 Report: The Future of Information Sharing in Humanitarian Emergencies. Washington, DC and Berkshire, UK.Google Scholar
Starr Roxanne Hiltz, Paloma Diaz, and Gloria Mark. 2011. Introduction: Social media and collaborative systems for crisis management. ACM Transactions on Computer--Human Interaction (TOCHI) 18, 4. Google ScholarDigital Library
Sounman Hong and Daniel Nadler. 2011. Does the early bird move the polls?: The use of the social media tool ‘Twitter’ by US politicians and its impact on public opinion. In Proc. of DGR. ACM, 182--186. Google ScholarDigital Library
Ting Hua, Feng Chen, Liang Zhao, Chang-Tien Lu, and Naren Ramakrishnan. 2013. STED: Semi-supervised targeted-interest event detection in Twitter. In Proc. of KDD. ACM, 1466--1469. Google ScholarDigital Library
Amanda L. Hughes. 2012. Supporting the Social Media Needs of Emergency Public Information Officers with Human-Centered Design and Development. Ph.D. Dissertation. University of Colorado at Boulder. Google ScholarDigital Library
Amanda L. Hughes. 2014. Participatory design for the social media needs of emergency public information officers. In Proc. of ISCRAM.Google Scholar
Amanda L. Hughes and Leysia Palen. 2009. Twitter adoption and use in mass convergence and emergency events. International Journal of Emergency Management 6, 3, 248--260.Google ScholarCross Ref
Amanda L. Hughes and Leysia Palen. 2012. The evolving role of the public information officer: An examination of social media in emergency management. Journal of Homeland Security and Emergency Management, 1--20.Google ScholarCross Ref
Amanda L. Hughes, Steve Peterson, and Leysia Palen. 2014a. Social media in emergency management. In Issues in Disaster Science and Management: A Critical Dialogue Between Scientists and Emergency Managers. FEMA in Higher Education Program.Google Scholar
Amanda L. Hughes, Lise A. St. Denis, Leysia Palen, and Kenneth Anderson. 2014b. Online public communications by police & fire services during the 2012 Hurricane Sandy. In Proc. of CHI. Google ScholarDigital Library
ICRC. 2013. Professional Standards for Protection Work Carried out by Humanitarian and Human Rights Actors in Armed Conflict and Other Situations of Violence. Technical Report. International Committee of the Red Cross.Google Scholar
Yohei Ikawa, Miki Enoki, and Michiaki Tatsubori. 2012. Location inference using microblog messages. In Proc. of WWW. ACM, 687--690. Google ScholarDigital Library
Yohei Ikawa, Maja Vukovic, Jakob Rogstadius, and Akiko Murakami. 2013. Location-based insights from the social web. In Proc. of SWDM. IW3C2. Google ScholarDigital Library
Muhammad Imran, Carlos Castillo, Ji Lucas, Patrick Meier, and Sarah Vieweg. 2014a. AIDR: Artificial intelligence for disaster response. In Proc. of WWW (Companion). IW3C2, 159--162. Google ScholarDigital Library
Muhammad Imran, Carlos Castillo, Ji Lucas, M. Patrick, and Jakob Rogstadius. 2014b. Coordinating human and machine intelligence to classify microblog communications in crises. Proc. of ISCRAM.Google Scholar
Muhammad Imran, Shady Elbassuoni, Carlos Castillo, Fernando Diaz, and Patrick Meier. 2013a. Practical extraction of disaster-relevant information from social media. In Proc. of WWW (Companion). 1021--1024. Google ScholarDigital Library
Muhammad Imran, Shady Mamoon Elbassuoni, Carlos Castillo, Fernando Diaz, and Patrick Meier. 2013b. Extracting information nuggets from disaster-related messages in social media. In Proc. of ISCRAM.Google Scholar
Muhammad Imran, Ioanna Lykourentzou, and Carlos Castillo. 2013c. Engineering crowdsourced stream processing systems. CoRR abs/1310.5463.Google Scholar
Akshaya Iyengar, Tim Finin, and Anupam Joshi. 2011. Content-based prediction of temporal boundaries for events in Twitter. In Proc. of PASSAT. IEEE, 186--191.Google ScholarCross Ref
Ashutosh Jadhav, Hemant Purohit, Pavan Kapanipathi, Pramod Ananthram, Ajith Ranabahu, Vinh Nguyen, Pablo N. Mendes, Alan Gary Smith, and Amit Sheth. 2010. A.: Twitris 2.0: Semantically empowered system for understanding perceptions from social data. In Proc. of SWC.Google Scholar
Murray E. Jennex. 2012. Social media--truly viable for crisis response. Proc. of ISCRAM, 1--5.Google Scholar
Anand Karandikar. 2010. Clustering short status messages: A topic model based approach. Master’s thesis. University of Maryland.Google Scholar
Arpit Khurdiya, Lipika Dey, Diwakar Mahajan, and Ishan Verma. 2012. Extraction and compilation of events and sub-events from Twitter. In Proc. of WI-IAT. IEEE Computer Society, 504--508. Google ScholarDigital Library
Lewis M. Killian. 2002. Methods for disaster research: Unique or not? In Methods of Disaster Research, Robert A. Stallings (Ed.). Xlibris, Philadelphia, PA, 49--93.Google Scholar
Kirill Kireyev, Leysia Palen, and K. Anderson. 2009. Applications of topics models to analysis of disaster-related Twitter data. In NIPS Workshop on Applications for Topic Models: Text and Beyond, Vol. 1.Google Scholar
Shamanth Kumar, Fred Morstatter, Reza Zafarani, and Huan Liu. 2013. Whom should I follow?: Identifying relevant users during crises. In Proc. of Hypertext. Google ScholarDigital Library
Girdhar Kumaran, James Allan, and Andrew McCallum. 2004. Classification models for new event detection. Technical Report. University of Massachusetts Amherst.Google Scholar
John Lafferty, Andrew McCallum, and Fernando C. N. Pereira. 2001. Conditional random fields: Probabilistic models for segmenting and labeling sequence data.Google Scholar
Alex Leavitt and Joshua A. Clark. 2014. Upvoting Hurricane Sandy: Event-based news production processes on a social news site. In Proc. of CHI. ACM, 1495--1504. Google ScholarDigital Library
Pei Lee, Laks V. S. Lakshmanan, and Evangelos E. Milios. 2013. Event evolution tracking from streaming social posts. arXiv preprint arXiv:1311.5978.Google Scholar
Kalev Leetaru and Philip A. Schrodt. 2013. GDELT: Global database of events, language, and tone. In Proc. of ISA. http://gdelt.utdallas.edu/.Google Scholar
Chenliang Li, Aixin Sun, and Anwitaman Datta. 2012b. Twevent: Segment-based event detection from tweets. In Proc. of CIKM. ACM, 155--164. Google ScholarDigital Library
Rui Li, Kin Hou Lei, Ravi Khadiwala, and KC-C Chang. 2012a. Tedas: A Twitter-based event detection and analysis system. In Proc. of ICDE. IEEE, 1273--1276. Google ScholarDigital Library
Bruce R. Lindsay. 2011. Social Media and Disasters: Current Uses, Future Options, and Policy Considerations. Technical Report. US Congressional Research Service.Google Scholar
John Lingad, Sarvnaz Karimi, and Jie Yin. 2013. Location extraction from disaster-related microblogs. In Proc. of WWW (Companion). IW3C2, 1017--1020. Google ScholarDigital Library
Bing Liu. 2012. Sentiment Analysis and Opinion Mining. Morgan & Claypool.Google Scholar
Xiaohua Liu, Shaodian Zhang, Furu Wei, and Ming Zhou. 2011. Recognizing named entities in tweets. In Proc. of ACL. Association for Computational Linguistics, 359--367. Google ScholarDigital Library
Ying Liu, Dengsheng Zhang, Guojun Lu, and Wei-Ying Ma. 2007. A survey of content-based image retrieval with high-level semantics. Pattern Recognition 40, 1, 262--282. Google ScholarDigital Library
Bernhard Lorenz, Hans Jürgen Ohlbach, and Laibing Yang. 2005. Ontology of transportation networks.Google Scholar
Thomas Ludwig, Tim Siebigteroth, and Volkmar Pipek. 2015. CrowdMonitor: Monitoring physical and digital activities of citizens during emergencies. In Proc. of CHI. 421--428. Google ScholarDigital Library
Alan M. MacEachren, Anuj Jaiswal, Anthony C. Robinson, Scott Pezanowski, Alexander Savelyev, Prasenjit Mitra, Xiao Zhang, and Justine Blanford. 2011. Senseplace2: Geotwitter analytics support for situational awareness. In Proc. of VAST. IEEE, 181--190.Google ScholarCross Ref
Adam Marcus, Michael S. Bernstein, Osama Badar, David R. Karger, Samuel Madden, and Robert C. Miller. 2011. Twitinfo: Aggregating and visualizing microblogs for event exploration. In Proc. of CHI. 227--236. Google ScholarDigital Library
Michael Mathioudakis and Nick Koudas. 2010. Twittermonitor: Trend detection over the Twitter stream. In Proc. of SIGMOD. ACM, 1155--1158. Google ScholarDigital Library
Andrew Kachites McCallum. 2002. Mallet: A machine learning for language toolkit.Google Scholar
Richard McCreadie, M.-Dyaa Albakour, Stuart Mackie, Nut Limosopathan, Craig Macdonald, Iadh Ounis, and B. Taner Dinçer. 2013. Experiments with terrier in contextual suggestion, temporal summarisation and web tracks. In Proc. of TREC.Google Scholar
Andrew J. McMinn, Yashar Moshfeghi, and Joemon M. Jose. 2013. Building a large-scale corpus for evaluating event detection on Twitter. In Proc. of CIKM. ACM, 409--418. Google ScholarDigital Library
Patrick Meier. 2015. Digital Humanitarians. CRC Press.Google Scholar
Prem Melville, Vijil Chenthamarakshan, Richard D. Lawrence, James Powell, Moses Mugisha, Sharad Sapra, Rajesh Anandan, and Solomon Assefa. 2013. Amplifying the voice of youth in Africa via text analytics. In Proc. of KDD. ACM, 1204--1212. DOI:http://dx.doi.org/10.1145/2487575.2488216 Google ScholarDigital Library
Panagiotis Metaxas and Eni Mustafaraj. 2013. The rise and the fall of a citizen reporter. In Proc. of WebSci. Google ScholarDigital Library
Stuart E. Middleton, Lee Middleton, and Stefano Modafferi. 2014. Real-time crisis mapping of natural disasters using social media. Intelligent Systems, IEEE, 9--17.Google Scholar
Dennis Mileti. 1999. Disasters by Design: A Reassessment of Natural Hazards in the United States. Joseph Henry Press.Google Scholar
Jeffrey T. Mitchell, Deborah S. K. Thomas, Arleen A. Hill, and Susan L. Cutter. 2000. Catastrophe in reel life versus real life: Perpetuating disaster myth through Hollywood films. International Journal of Mass Emergencies and Disasters 18, 3, 383--402.Google Scholar
Aibek Musaev, De Wang, and Calton Pu. 2014. LITMUS: Landslide detection by integrating multiple sources. Proc. of ISCRAM.Google Scholar
Ramesh Nallapati, Ao Feng, Fuchun Peng, and James Allan. 2004. Event threading within news topics. In Proc. of CIKM. ACM, 446--453. Google ScholarDigital Library
Ani Nenkova and Kathleen McKeown. 2011. Automatic Summarization. Vol. 5. 103--233 pages.Google Scholar
Natalya F. Noy. 2004. Semantic integration: A survey of ontology-based approaches. ACM Sigmod Record 33, 4, 65--70. Google ScholarDigital Library
Ory Okolloh. 2009. Ushahidi, or ‘testimony’: Web 2.0 tools for crowdsourcing crisis information. Participatory Learning and Action 59, 1, 65--70.Google Scholar
Alexandra Olteanu, Carlos Castillo, Fernando Diaz, and Sarah Vieweg. 2014. CrisisLex: A lexicon for collecting and filtering microblogged communications in crises. In Proc. of ICWSM.Google Scholar
Alexandra Olteanu, Sarah Vieweg, and Carlos Castillo. 2015. What to expect when the unexpected happens: Social media communications across crises. In Proceedings of the 18th ACM Conference on Computer Supported Cooperative Work and Social Computing (CSCW’15). ACM, New York, NY, 994--1009. DOI:http://dx.doi.org/10.1145/2675133.2675242 Google ScholarDigital Library
Olutobi Owoputi, Brendan O’Connor, Chris Dyer, Kevin Gimpel, Nathan Schneider, and Noah A. Smith. 2013. Improved part-of-speech tagging for online conversational text with word clusters. In Proc. of NAACL-HLT. 380--390.Google Scholar
Leysia Palen and Sophia B. Liu. 2007. Citizen communications in crisis: Anticipating a future of ICT-supported public participation. In Proc. of CHI. ACM, 727--736. Google ScholarDigital Library
Bo Pang and Lillian Lee. 2008. Opinion mining and sentiment analysis. Foundations and Trends in Information Retrieval 2, 1--2, 1--135. Google ScholarDigital Library
Alexandre Passant and Philippe Laublet. 2008. Meaning of a tag: A collaborative approach to bridge the gap between tagging and linked data. In Proc. of LDOW.Google Scholar
William J. Petak. 1985. Emergency management: A challenge for public administration. Public Administration Review, 3--7.Google Scholar
Saša Petrović, Miles Osborne, and Victor Lavrenko. 2010. Streaming first story detection with application to Twitter. In Proc. of ACL. Association for Computational Linguistics, 181--189. Google ScholarDigital Library
Swit Phuvipadawat and Tsuyoshi Murata. 2010. Breaking news detection and tracking in Twitter. In Proc. of WI-IAT, Vol. 3. IEEE, 120--123. Google ScholarDigital Library
Volkmar Pipek, Sophia Liu, and Andruid Kerne (Eds.). 2014. Special Issue: Crisis Informatics and Collaboration. Computer Supported Cooperative Work, Vol. 23. Google ScholarDigital Library
Daniela Pohl, Abdelhamid Bouchachia, and Hermann Hellwagner. 2012. Automatic identification of crisis-related sub-events using clustering. In Proc. of ICMLA, Vol. 2. IEEE, 333--338. Google ScholarDigital Library
Hilary W. Poole, Laura Lambert, Chris Woodford, and Christos J. P. Moschovitis. 2005. The Internet: a historical encyclopedia. Abc-Clio Inc.Google Scholar
Abdulfatai Popoola, Dmytro Krasnoshtan, Attila-Peter Toth, Victor Naroditskiy, Carlos Castillo, Patrick Meier, and Iyad Rahwan. 2013. Information verification during natural disasters. In Proc. of WWW (Companion). IW3C2, 1029--1032. Google ScholarDigital Library
Robert Power, Bella Robinson, John Colton, and Mark Cameron. 2014. Emergency situation awareness: Twitter case studies. In Proc. of ISCRAM Med. 218--231.Google ScholarCross Ref
Hemant Purohit, Carlos Castillo, Fernando Diaz, Amit Sheth, and Patrick Meier. 2013. Emergency-relief coordination on social media: Automatically matching resource requests and offers. First Monday (2013).Google Scholar
Hemant Purohit and Amit Sheth. 2013. Twitris v3: From citizen sensing to analysis, coordination and action. In Proc. of ICWSM.Google Scholar
Yan Qu, Chen Huang, Pengyi Zhang, and Jun Zhang. 2011. Microblogging after a major disaster in China: A case study of the 2010 Yushu earthquake. In Proc. of CSCW. Google ScholarDigital Library
Enrico L. Quarantelli. 2002. The Disaster Research Center (DRC) field studies of organized behavior in disasters. In Methods of Disaster Research, Robert A. Stallings (Ed.). Xlibris, Philadelphia, USA, 94--116.Google Scholar
Naren Ramakrishnan, Patrick Butler, Sathappan Muthiah, Nathan Self, Rupinder Khandpur, Parang Saraf, Wei Wang, Jose Cadena, Anil Vullikanti, Gizem Korkmaz, Chris Kuhlman, Achla Marathe, Liang Zhao, Ting Hua, Feng Chen, Chang-Tien Lu, Bert Huang, Aravind Srinivasan, Khoa Trinh, Lise Getoor, Graham Katz, Andy Doyle, Chris Ackermann, Ilya Zavorin, Jim Ford, Kristen Summers, Youssef Fayed, Jaime Arredondo, Dipak Gupta, and David Mares. 2014. ‘Beating the News’ with EMBERS: Forecasting civil unrest using open source indicators. In Proc. of KDD. ACM, 1799--1808. Google ScholarDigital Library
Christian Reuter and Simon Scholl. 2014. Technical limitations for designing applications for social media. In Mensch & Computer 2014--Workshopband. Walter de Gruyter GmbH & Co KG, 131.Google Scholar
Alan Ritter, Sam Clark, Oren Etzioni, and others. 2011. Named entity recognition in tweets: An experimental study. In Proc. of EMNLP. Association for Computational Linguistics, 1524--1534. Google ScholarDigital Library
Alan Ritter, Oren Etzioni, Sam Clark, and others. 2012. Open domain event extraction from Twitter. In Proc. of KDD. ACM, 1104--1112. Google ScholarDigital Library
A. Robinson, Alexander Savelyev, Scott Pezanowski, and Alan M. MacEachren. 2013b. Understanding the utility of geospatial information in social media. In Proc. ISCRAM. 918--922.Google Scholar
Bella Robinson, Robert Power, and Mark Cameron. 2013a. A sensitive Twitter earthquake detector. In Proc. of WWW (Companion). IW3C2, 999--1002. Google ScholarDigital Library
Jakob Rogstadius, Maja Vukovic, Claudio Teixeira, Vassilis Kostakos, Evangelos Karapanos, and Jim Alain Laredo. 2013. CrisisTracker: Crowdsourced social media curation for disaster awareness. IBM Journal of Research and Development 57, 5, 4--1. Google ScholarDigital Library
Takeshi Sakaki, Makoto Okazaki, and Yutaka Matsuo. 2010. Earthquake shakes Twitter users: Real-time event detection by social sensors. In Proc. of WWW. ACM, 851--860. Google ScholarDigital Library
Aleksandra Sarcevic, Leysia Palen, Joanne White, Kate Starbird, Mossaab Bagdouri, and Kenneth Anderson. 2012. Beacons of hope in decentralized coordination: Learning from on-the-ground medical twitterers during the 2010 Haiti earthquake. In Proc. of CSCW. ACM, 47--56. Google ScholarDigital Library
Hassan Sayyadi, Matthew Hurst, and Alexey Maykov. 2009. Event detection and tracking in social streams. In Proc. of ICWSM.Google Scholar
Wanita Sherchan, Surya Nepal, and Cecile Paris. 2013. A survey of trust in social networks. ACM Comput. Surv. 45, 4, Article 47, 33 pages. DOI:http://dx.doi.org/10.1145/2501654.2501661 Google ScholarDigital Library
Amit Sheth, Hermant Purohit, Ashutosh Jadhav, Pavan Kapanipathi, and Lu Chen. 2010. Understanding events through analysis of social media. In Proc. of WWW.Google Scholar
Irina Shklovski, Moira Burke, Sara Kiesler, and Robert Kraut. 2010. Technology adoption and use in the aftermath of Hurricane Katrina in New Orleans. American Behavioral Scientist, 1228--1246.Google Scholar
Lidan Shou, Zhenhua Wang, Ke Chen, and Gang Chen. 2013. Sumblr: Continuous summarization of evolving tweet streams. In Proc. of SIGIR. ACM, 533--542. Google ScholarDigital Library
Paul R. Smart, Alistair Russell, Nigel R. Shadbolt, Leslie A. Carr, and others. 2007. Aktivesa: A technical demonstrator system for enhanced situation awareness. Comput. J. 50, 6, 703--716. Google ScholarDigital Library
Ashok Srivastava and Mehran Sahami. 2009. Text Mining: Classification, Clustering, and Applications (1st ed.). Chapman & Hall/CRC. Google ScholarDigital Library
Robert A. Stallings. 2002. Methods for disaster research: Unique or not? In Methods of Disaster Research, Robert A. Stallings (Ed.). Xlibris, Philadelphia, PA, 21--44.Google Scholar
Kate Starbird. 2013. Delivering patients to Sacré Coeur: Collective intelligence in digital volunteer communities. In Proc. of CHI. ACM, 801--810. Google ScholarDigital Library
Kate Starbird, Grace Muzny, and Leysia Palen. 2012. Learning from the crowd: Collaborative filtering techniques for identifying on-the-ground Twitterers during mass disruptions. Proc. of ISCRAM.Google Scholar
Kate Starbird, Leysia Palen, Amanda L. Hughes, and Sarah Vieweg. 2010. Chatter on the red: What hazards threat reveals about the social life of microblogged information. In Proc. of CSCW. ACM, 241--250. Google ScholarDigital Library
Evan A. Sultanik and Clayton Fink. 2012. Rapid geotagging and disambiguation of social media text via an indexed gazetteer. In Proc. of ISCRAM, 190, 1--10.Google Scholar
Hristo Tanev, Maud Ehrmann, Jakub Piskorski, and Vanni Zavarella. 2012. Enhancing event descriptions through Twitter mining. In Proc. of ICWSM.Google Scholar
Jie Tang, Juanzi Li, Bangyong Liang, Xiaotong Huang, Yi Li, and Kehong Wang. 2006. Using Bayesian decision for ontology mapping. Web Semantics: Science, Services and Agents on the World Wide Web 4, 4, 243--262. Google ScholarDigital Library
Robert Thomson, Naoya Ito, Hinako Suda, Fangyu Lin, Yafei Liu, Ryo Hayasaka, Ryuzo Isochi, and Zian Wang. 2012. Trusting tweets: The Fukushima disaster and information source credibility on Twitter. In Proc. of ISCRAM. 10.Google Scholar
Stefania Traverso, Valentina Cerutti, Kristin Stock, and Mike Jackson. 2014. EDIT: A methodology for the treatment of non-authoritative data in the reconstruction of disaster scenarios. In Proc. of ISCRAM Med. 32--45. DOI:http://dx.doi.org/10.1007/978-3-319-11818-5_4Google ScholarCross Ref
S. Tucker, V. Lanfranchi, N. Ireson, A. Sosa, G. Burel, and F. Ciravegna. 2012. “Straight to the information I need”: Assessing collational interfaces for emergency response. In Proceedings of the 9th International ISCRAM Conference, Vancouver.Google Scholar
Muhammad Moeen Uddin, Muhammad Imran, and Hassan Sajjad. 2014. Understanding types of users on Twitter. In Proc. of SocialCom.Google Scholar
UN OCHA. 2014. Hashtag Standards For Emergencies. Technical Report. United Nations Office for the Coordination of Humanitarian Affairs.Google Scholar
Jose van Dijck. 2013. The Culture of Connectivity: A Critical History of Social Media. Oxford University Press.Google Scholar
István Varga, Motoki Sano, Kentaro Torisawa, Chikara Hashimoto, Kiyonori Ohtake, Takao Kawai, Jong-Hoon Oh, and Stijn De Saeger. 2013. Aid is out there: Looking for help from tweets during a large scale disaster. In Proc. of ACL. 1619--1629.Google Scholar
Shari R. Veil, Tara Buehner, and Michael J. Palenchar. 2011. A work-in-process literature review: Incorporating social media in risk and crisis communication. Journal of Contingencies and Crisis Management 19, 2, 110--122.Google ScholarCross Ref
Sudha Verma, Sarah Vieweg, William J. Corvey, Leysia Palen, James H. Martin, Martha Palmer, Aaron Schram, and Kenneth Mark Anderson. 2011. Natural language processing to the rescue? Extracting “Situational Awareness” tweets during mass emergency. In Proc. of ICWSM.Google Scholar
Sarah Vieweg. 2012. Situational Awareness in Mass Emergency: A Behavioral and Linguistic Analysis of Microblogged Communications. Ph.D. Dissertation. University of Colorado at Boulder.Google Scholar
Sarah Vieweg, Carlos Castillo, and Muhammad Imran. 2014. Integrating social media communications into the rapid assessment of sudden onset disasters. In Proc. of SocInfo. 444--461.Google ScholarCross Ref
Sarah Vieweg and Adam Hodges. 2014. Rethinking context: Leveraging human and machine computation in disaster response. Computer 47, 4, 22--27. DOI:http://dx.doi.org/10.1109/mc.2014.97 Google ScholarDigital Library
Sarah Vieweg, Amanda L. Hughes, Kate Starbird, and Leysia Palen. 2010. Microblogging during two natural hazards events: What Twitter may contribute to situational awareness. In Proc. of CHI. Google ScholarDigital Library
Ellen M. Voorhees and Donna K. Harman (Eds.). 2005. TREC: Experiment and Evaluation in Information Retrieval. MIT Press. Google ScholarDigital Library
Dingding Wang and Tao Li. 2010. Document update summarization using incremental hierarchical clustering. In Proc. of CIKM. ACM, 279--288. Google ScholarDigital Library
Ingmar Weber and Yelena Mejova. 2013. Twitter and the Real World. CIKM’13 tutorial. Retrieved May 11, 2015 from https://sites.google.com/site/twitterandtherealworld/home.Google Scholar
Jianshu Weng and Bu-Sung Lee. 2011. Event detection in Twitter. In Proc. of ICWSM.Google Scholar
Tan Xu, Paul McNamee, and Douglas W. Oard. 2013. HLTCOE temporal summarization. In Proc. of TREC.Google Scholar
Christopher C. Yang, Xiaodong Shi, and Chih-Ping Wei. 2009. Discovering event evolution graphs from news corpora. IEEE Transactions on Systems, Man and Cybernetics, 850--863. Google ScholarDigital Library
Yiming Yang, Tom Pierce, and Jaime Carbonell. 1998. A study of retrospective and on-line event detection. In Proc. of SIGIR. ACM, 28--36. Google ScholarDigital Library
Jie Yin, Andrew Lampert, Mark Cameron, Bella Robinson, and Robert Power. 2012. Using social media to enhance emergency situation awareness. IEEE Intelligent Systems 27, 6, 52--59. Google ScholarDigital Library
Mohammed J. Zaki and Wagner Meira. 2014. Data Mining and Analysis: Fundamental Concepts and Algorithms. Cambridge University Press. Google ScholarDigital Library
Qiankun Zhao, Prasenjit Mitra, and Bi Chen. 2007. Temporal and information flow based event detection from social text streams. In Proc. of AAAI, 7, 1501--1506. Google ScholarDigital Library
Yiping Zhou, Lan Nie, Omid Rouhani-Kalleh, Flavian Vasile, and Scott Gaffney. 2010. Resolving surface forms to Wikipedia topics. In Proc. of COLING. Association for Computational Linguistics, 1335--1343. Google ScholarDigital Library

Index Terms

Processing Social Media Messages in Mass Emergency: A Survey
1. Information systems
  1. Information systems applications

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Published in
ACM Computing Surveys Volume 47, Issue 4
July 2015
573 pages
ISSN:0360-0300
EISSN:1557-7341
DOI:10.1145/2775083
Editor:
Sartaj Sahni
Department of Computer and Information Science and Engineering/University of Florida/Gainesville, FL
Issue’s Table of Contents
Copyright © 2015 ACM
Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than the author(s) must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected].
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Publication History
- Published: 26 June 2015
- Revised: 1 April 2015
- Accepted: 1 April 2015
- Received: 1 July 2014
Published in csur Volume 47, Issue 4

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Processing Social Media Messages in Mass Emergency: A Survey

ACM Computing Surveys

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Processing Social Media Messages in Mass Emergency: Survey Summary

Exploitation of Social Media for Emergency Relief and Preparedness: Recent Research and Trends

Social Roles and Consequences in Using Social Media in Disasters: a Structurational Perspective