论文信息 - Mobile Information Retrieval

Mobile Information Retrieval

Mobile Information Retrieval (Mobile IR) is a relatively recent branch of Information Retrieval (IR) that is concerned with enabling users to carry out, using a mobile device, all the classical IR operations that they were used to carry out on a desktop. This includes finding content available on local repositories or on the web in response to a user query, interacting with the system in an explicit or implicit way, reformulate the query and/or visualise the content of the retrieved documents, as well as providing relevance judgments to improve the retrieval process. This book is structured as follows. Chapter 2 provides a very brief overview of IR and of Mobile IR, briefly outlining what in Mobile IR is different from IR. Chapter 3 provides the foundations of Mobile IR, looking at the characteristics of mobile devices and what they bring to IR, but also looking at how the concept of relevance changed from standard IR to Mobile IR. Chapter 4 presents an overview of the document collections that are searchable by a Mobile IR system, and that are somehow different from classical IR ones; available for experimentation, including collections of data that have become complementary to Mobile IR. Similarly, Chapter 5 reviews mobile information needs studies and users log analysis. Chapter 6 reviews studies aimed at adapting and improving the users interface to the needs of Mobile IR. Chapter 7, instead, reviews work on context awareness, which studies the many aspects of the user context that Mobile IR employs. Chapter 8 reviews some of evaluation work done in Mobile IR, highlighting the distinctions with classical IR from the perspectives of two main IR evaluation methodologies: users studies and test collections. Finally, Chapter 9 reports the conclusions of this review, highlighting briefly some trends in Mobile IR that we believe will drive research in the next few years.

[1] Dik Lun Lee. To Find or To be Found , That is the Question in Mobile Information Retrieval , 2008 .

[2] Sherry Koshman. iSchool agenda: mobile context research and teaching , 2011, iConference '11.

[3] K. Sparck Jones,et al. INFORMATION RETRIEVAL TEST COLLECTIONS , 1976 .

[4] Jon M. Kleinberg,et al. Spatial variation in search engine queries , 2008, WWW.

[5] Imed Zitouni,et al. Automatic Online Evaluation of Intelligent Assistants , 2015, WWW.

[6] Barry Smyth,et al. Who, what, where & when: a new approach to mobile search , 2008, IUI '08.

[7] Shumeet Baluja,et al. Deciphering Trends in Mobile Search , 2007, Computer.

[8] Nava Tintarev,et al. Off the beaten track: a mobile field study exploring the long tail of tourist recommendations , 2010, Mobile HCI.

[9] Michael Weber,et al. Find my stuff: a search engine for everyday objects , 2012, MUM.

[10] Lei Cen,et al. Personalized Mobile App Recommendation: Reconciling App Functionality and User Privacy Preference , 2015, WSDM.

[11] Fang Dong,et al. When and where next: individual mobility prediction , 2012, MobiGIS.

[12] David L Strayer,et al. The Smartphone and the Driver’s Cognitive Workload: A Comparison of Apple, Google, and Microsoft’s Intelligent Personal Assistants , 2015, Canadian journal of experimental psychology = Revue canadienne de psychologie experimentale.

[13] Mark D. Dunlop,et al. Mobile and Ubiquitous Information Access : Mobile HCI 2003 International Workshop, Udine, Italy, September 8, 2003, Revised and Invited Papers , 2004 .

[14] Farzin Maghoul,et al. Mobile search pattern evolution: the trend and the impact of voice queries , 2011, WWW.

[15] Peter Ingwersen,et al. The Turn - Integration of Information Seeking and Retrieval in Context , 2005, The Kluwer International Series on Information Retrieval.

[16] Jie Liu,et al. Location-aware click prediction in mobile local search , 2011, CIKM '11.

[17] Tobias Höllerer,et al. I’m feeling LoCo: A Location Based Context Aware Recommendation System , 2012 .

[18] Milad Shokouhi,et al. Mobile query reformulations , 2014, SIGIR.

[19] Imed Zitouni,et al. Understanding User Satisfaction with Intelligent Assistants , 2016, CHIIR.

[20] Rongrong Ji,et al. A mobile location search system with active query sensing , 2011, MM '11.

[21] Emine Yilmaz,et al. Characterizing Relevance on Mobile and Desktop , 2016, ECIR.

[22] Haohong Wang,et al. Leveraging User Reviews to Improve Accuracy for Mobile App Retrieval , 2015, SIGIR.

[23] Xuan Song,et al. DeepTransport: Prediction and Simulation of Human Mobility and Transportation Mode at a Citywide Level , 2016, IJCAI.

[24] Mohand Boughanem,et al. Evaluation of contextual information retrieval effectiveness: overview of issues and research , 2010, Knowledge and Information Systems.

[25] Florian Michahelles,et al. Towards location-aware mobile web browsers , 2009, MUM.

[26] Paolo Zandegiacomo Rizio,et al. MoBe : Context-Aware Mobile Applications on Mobile Devices for Mobile Users , 2005 .

[27] Barry Smyth,et al. Mobile content enrichment , 2007, IUI '07.

[28] Alia Amin,et al. Fancy a Drink in Canary Wharf?: A User Study on Location-Based Mobile Search , 2009, INTERACT.

[29] Xing Xie,et al. Mobile Query Recommendation via Tensor Function Learning , 2015, IJCAI.

[30] Junlan Feng,et al. Speech and Multimodal Interaction in Mobile Search , 2011, IEEE Signal Processing Magazine.

[31] Yang Song,et al. Exploring and exploiting user search behavior on mobile and tablet devices to improve search relevance , 2013, WWW '13.

[32] Vikas Kumar,et al. CrowdSearch: exploiting crowds for accurate real-time image search on mobile phones , 2010, MobiSys '10.

[33] Barry Smyth,et al. Understanding the intent behind mobile information needs , 2009, IUI.

[34] P. Cochat,et al. Et al , 2008, Archives de pediatrie : organe officiel de la Societe francaise de pediatrie.

[35] Ya Xu,et al. Computers and iphones and mobile phones, oh my!: a logs-based comparison of search users on different devices , 2009, WWW '09.

[36] Xing Xie,et al. GeoLife: Managing and Understanding Your Past Life over Maps , 2008, The Ninth International Conference on Mobile Data Management (mdm 2008).

[37] Susan T. Dumais,et al. Stuff I've Seen: A System for Personal Information Retrieval and Re-Use , 2003, SIGF.

[38] Prasant Mohapatra,et al. Early Detection of Spam Mobile Apps , 2015, WWW.

[39] Jaime Teevan,et al. Understanding the importance of location, time, and people in mobile local search behavior , 2011, Mobile HCI.

[41] Patrick Brézillon,et al. Understanding Context Before Using It , 2005, CONTEXT.

[42] Mark Sanderson,et al. Advantages of query biased summaries in information retrieval , 1998, SIGIR '98.

[43] Tetsuya Sakai. Towards zero-click mobile IR evaluation: knowing what and knowing when , 2012, SIGIR '12.

[44] Gaël Dias,et al. Using ephemeral clustering and query logs to organize web image search results on mobile devices , 2011, IMMPD '11.

[45] Klaus Berberich,et al. Improving local search ranking through external logs , 2011, SIGIR.

[46] Stefano Mizzaro,et al. Retrieval of context-aware applications on mobile devices: how to evaluate? , 2008, IIiX.

[47] Mark Levene,et al. Search Engines: Information Retrieval in Practice , 2011, Comput. J..

[48] Nuria Oliver,et al. I wanted to settle a bet!: understanding why and how people use mobile search in social settings , 2012, Mobile HCI.

[49] Madian Khabsa,et al. Is This Your Final Answer?: Evaluating the Effect of Answers on Good Abandonment in Mobile Search , 2016, SIGIR.

[50] Vanessa Murdock,et al. Modeling locations with social media , 2013, Information Retrieval.

[51] Jong Hyuk Park,et al. M-MUSICS: an intelligent mobile music retrieval system , 2010, Multimedia Systems.

[52] Mark D. Dunlop,et al. Pickup Usability Dominates: A Brief History of Mobile Text Entry Research and Adoption , 2009, Int. J. Mob. Hum. Comput. Interact..

[53] Jae-Gil Lee,et al. Glaucus: Exploiting the Wisdom of Crowds for Location-Based Queries in Mobile Environments , 2014, ICWSM.

[54] Stefano Mizzaro,et al. How many relevances in information retrieval? , 1998, Interact. Comput..

[55] David M. Mountain,et al. Spatial filters for mobile information retrieval , 2007, GIR '07.

[56] Yu Shi,et al. A system for spoken query information retrieval on mobile devices , 2002, IEEE Trans. Speech Audio Process..

[57] Donna K. Harman,et al. Ranking Algorithms , 1992, Information Retrieval: Data Structures & Algorithms.

[58] Giuseppe Sansonetti,et al. An approach to social recommendation for context-aware mobile services , 2013, TIST.

[59] Huan Liu,et al. Content-Aware Point of Interest Recommendation on Location-Based Social Networks , 2015, AAAI.

[60] Kevin Chen-Chuan Chang,et al. Mobility Profiling for User Verification with Anonymized Location Data , 2015, IJCAI.

[61] Yiannis Kompatsiaris,et al. AQUAM: automatic query formulation architecture for mobile applications , 2008, MUM '08.

[62] Cecilia Mascolo,et al. NextPlace: A Spatio-temporal Prediction Framework for Pervasive Systems , 2011, Pervasive.

[63] Fabio Crestani,et al. Personalized Keyword Boosting for Venue Suggestion Based on Multiple LBSNs , 2017, ECIR.

[64] Ryen W. White,et al. Analyzing and Predicting Task Reminders , 2016, UMAP.

[65] Fangli Ying,et al. Dynamic Visualization of Geospatial Data on Small Screen Mobile Devices , 2012 .

[66] Diogo R. Ferreira,et al. Mobile Context Provider for Social Networking , 2009, OTM Workshops.

[67] Jieping Ye,et al. A shared-subspace learning framework for multi-label classification , 2010, TKDD.

[68] James H. Martin,et al. Speech and Language Processing: An Introduction to Natural Language Processing, Computational Linguistics, and Speech Recognition , 2000 .

[69] Paolo Coppola,et al. The Concept of Relevance in Mobile and Ubiquitous Information Access , 2003, Mobile HCI Workshop on Mobile and Ubiquitous Information Access.

[70] James Allan,et al. Frontiers, challenges, and opportunities for information retrieval: Report from SWIRL 2012 the second strategic workshop on information retrieval in Lorne , 2012, SIGF.

[71] Wen Li,et al. Probabilistic Local Expert Retrieval , 2016, ECIR.

[72] Akebo Yamakami,et al. Contributions to the study of SMS spam filtering: new collection and results , 2011, DocEng '11.

[73] Stefano Mizzaro,et al. Tag Clouds and Retrieved Results: The CloudCredo Mobile Clustering Engine and its Evaluation , 2012, IIR.

[74] Young-In Song,et al. Overview of NTCIR-9 1CLICK , 2011, NTCIR.

[75] Paolo Zandegiacomo Rizio,et al. Information Filtering and Retrieving of Context-Aware Applications Within the MoBe Framework , 2005 .

[76] Alex Pentland,et al. Recognizing conversational context in group interaction using privacy-sensitive mobile sensors , 2010, MUM.

[77] David M. Blei,et al. Scalable Recommendation with Poisson Factorization , 2013, ArXiv.

[78] Martina Ziefle,et al. "Same Same but Different" How Service Contexts of Mobile Technologies Shape Usage Motives and Barriers , 2010, USAB.

[79] Charles L. A. Clarke,et al. Efficient construction of large test collections , 1998, SIGIR '98.

[80] David M. Mountain,et al. Geographic information retrieval in a mobile environment: evaluating the needs of mobile individuals , 2007, J. Inf. Sci..

[81] Bo Thiesson,et al. Designing phrase builder: a mobile real-time query expansion interface , 2009, Mobile HCI.

[82] Qiang Wu,et al. An exploration of ranking heuristics in mobile local search , 2012, SIGIR '12.

[83] Rosalind W. Picard. Mobile emotional intelligence , 2010, MobiSys '10.

[84] David Robins,et al. Interactive Information Retrieval: Context and Basic Notions , 2000, Informing Sci. Int. J. an Emerg. Transdiscipl..

[85] Hongxia Jin,et al. Towards Permission Request Prediction on Mobile Apps via Structure Feature Learning , 2015, SDM.

[86] Khai N. Truong,et al. An examination of daily information needs and sharing opportunities , 2008, CSCW.

[87] Torsten Suel,et al. Analysis of geographic queries in a search engine log , 2008, LocWeb.

[88] Sung-Hyon Myaeng,et al. Personal Information Access Using Proactive Search and Mobile Hypertext , 2010, IEEE Intelligent Systems.

[89] Lynda Tamine,et al. Contextual evaluation of mobile search , 2010 .

[90] Nitesh V. Chawla,et al. Inferring user demographics and social strategies in mobile social networks , 2014, KDD.

[91] Mark Sanderson,et al. Towards Understanding the Impact of Length in Web Search Result Summaries over a Speech-only Communication Channel , 2015, SIGIR.

[92] Monica Landoni,et al. Interactive Search Interfaces for Young Children - The PuppyIR Approach , 2010, 2010 10th IEEE International Conference on Advanced Learning Technologies.

[93] Paolo Zandegiacomo Rizio,et al. MoBe : A Framework for Context-Aware Mobile Applications , 1987 .

[94] David M. Nichols,et al. Contextual queries express mobile information needs , 2010, Mobile HCI.

[95] Amel Bouzeghoub,et al. Situation-Aware User's Interests Prediction for Query Enrichment , 2012, DEXA.

[96] Shumeet Baluja,et al. Query suggestions for mobile search: understanding usage patterns , 2008, CHI.

[97] Stefano Mizzaro,et al. A context-aware retrieval system for mobile applications , 2014, CARR '14.

[98] Mohand Boughanem,et al. Dynamically Personalizing Search Results for Mobile Users , 2009, FQAS.

[99] Ricardo Baeza-Yates,et al. A Study of Mobile Search Queries in Japan , 2007 .

[100] Ian Rowlands,et al. Information on the go: A case study of Europeana mobile users , 2013, J. Assoc. Inf. Sci. Technol..

[101] Peter Fröhlich,et al. Mobile Spatial Interaction , 2007, Personal and Ubiquitous Computing.

[102] Kiyoharu Aizawa,et al. Retrieving multimedia travel stories using location data and spatial queries , 2009, MM '09.

[103] Hongxia Jin,et al. Protecting Your Children from Inappropriate Content in Mobile Apps: An Automatic Maturity Rating Framework , 2015, CIKM.

[104] Albrecht Schmidt,et al. There is more to context than location , 1999, Comput. Graph..

[105] Jonathan Raper. Geographic relevance , 2007, J. Documentation.

[106] Tetsuya Sakai,et al. Overview of the NTCIR-10 1CLICK-2 Task , 2013, NTCIR.

[107] Mohand Boughanem,et al. Prioritized Aggregation of Multiple Context Dimensions in Mobile IR , 2011, AIRS.

[108] Stefano De Sabbata,et al. Geographic relevance: different notions of geographies and relevancies , 2011, SIGSPACIAL.

[109] Frank Bentley,et al. Ephemeral Photowork: Understanding the Mobile Social Photography Ecosystem , 2016, ICWSM.

[110] Taneli Mielikäinen,et al. Conditional Log-linear Models for Mobile Application Usage Prediction , 2014, ECML/PKDD.

[111] Artem Grotov,et al. User Behavior in Location Search on Mobile Devices , 2015, ECIR.

[112] Fabio Crestani,et al. Effective search results summary size and device screen size: Is there a relationship? , 2005, Inf. Process. Manag..

[113] Bradley J. Rhodes. Using Physical Context for Just-in-Time Information Retrieval , 2003, IEEE Trans. Computers.

[114] Nuria Oliver,et al. Understanding mobile web and mobile search use in today's dynamic mobile landscape , 2011, Mobile HCI.

[115] Nuria Oliver,et al. Understanding portal-based mobile search: a case study , 2011, LARGE '11.

[116] Fabio Crestani,et al. Vocal Access to a Newspaper Archive: Assessing the Limitations of Current Voice Information Access Technology , 2003, Journal of Intelligent Information Systems.

[117] Zhi-Hua Zhou,et al. Multilabel dimensionality reduction via dependence maximization , 2008, TKDD.

[118] Winston H. Hsu,et al. GPS, compass, or camera?: investigating effective mobile sensors for automatic search-based image annotation , 2010, ACM Multimedia.

[119] Xing Xie,et al. Introduction to Mobile Information Retrieval , 2010, IEEE Intelligent Systems.

[120] Feng Zhao,et al. Hapori: context-based local search for mobile phones using community behavioral modeling and similarity , 2010, UbiComp.

[121] Chunyan Miao,et al. Personalized point-of-interest recommendation by mining users' preference transition , 2013, CIKM.

[122] Hema Raghavan,et al. Discovering users' specific geo intention in web search , 2009, WWW '09.

[123] Gernot Kubin,et al. On Interfaces for Mobile Information Retrieval , 2002, Mobile HCI.

[124] Kiyoharu Aizawa,et al. Image collection summarization for search result overviewing on mobile devices , 2011, IMMPD '11.

[125] M. Vojnovic. On Mobile User Behaviour Patterns , 2008, 2008 IEEE International Zurich Seminar on Communications.

[126] Xing Xie,et al. Mining interesting locations and travel sequences from GPS trajectories , 2009, WWW '09.

[127] Imad Aad,et al. The Mobile Data Challenge: Big Data for Mobile Computing Research , 2012 .

[128] Hinrich Schütze,et al. Introduction to information retrieval , 2008 .

[129] Jie Liu,et al. Pocket cloudlets , 2011, ASPLOS XVI.

[130] Jaime Teevan,et al. Trajectory-aware mobile search , 2012, CHI.

[131] James Allan. Perspectives on Information Retrieval and Speech , 2001, SIGIR Workshop: Information Retrieval Techniques for Speech Applications.

[132] Jun Wang,et al. Portfolio theory of information retrieval , 2009, SIGIR.

[133] Lidia Grauer,et al. Evaluating mobile web search performance by taking good abandonment into account , 2014, SIGIR.

[134] Madian Khabsa,et al. Detecting Good Abandonment in Mobile Search , 2016, WWW.

[135] Enrico Gerding,et al. Mechanism Design for Mobile Geo-Location Advertising , 2014, AAAI.

[136] Patrick Baudisch,et al. Summary thumbnails: readable overviews for small screen web browsers , 2005, CHI.

[137] Jongmyung Choi,et al. MyGuide: A Mobile Context-Aware Exhibit Guide System , 2008, ICCSA.

[138] George Buchanan,et al. Sorting Out Searching on Small Screen Devices , 2002, Mobile HCI.

[139] Barry Smyth,et al. Mobile information access: A study of emerging search behavior on the mobile Internet , 2007, TWEB.

[140] Fabio Crestani,et al. “Is this document relevant?…probably”: a survey of probabilistic models in information retrieval , 1998, CSUR.

[141] Virpi Roto,et al. How people use the web on mobile devices , 2008, WWW.

[142] Mark D. Dunlop,et al. Theme issue on interactive mobile information access , 2005, Personal and Ubiquitous Computing.

[143] R. Silipo,et al. Prosodic stress and topic detection in spoken sentences , 2000, Proceedings Seventh International Symposium on String Processing and Information Retrieval. SPIRE 2000.

[144] Ido Guy,et al. Searching by Talking: Analysis of Voice Queries on Mobile Web Search , 2016, SIGIR.

[145] Farzin Maghoul,et al. Deciphering mobile search patterns: a study of Yahoo! mobile search queries , 2008, WWW.

[146] Lu Wang,et al. An Augmented Reality Interface for Mobile Information Retrieval , 2007, 2007 IEEE International Conference on Multimedia and Expo.

[147] Tao Mei,et al. When recommendation meets mobile: contextual and personalized recommendation on the go , 2011, UbiComp '11.

[148] Juliana Sutanto,et al. CAMB: context-aware mobile browser , 2010, MUM.

[149] Milad Shokouhi,et al. From Queries to Cards: Re-ranking Proactive Card Recommendations Based on Reactive Search History , 2015, SIGIR.

[150] Tetsuya Sakai,et al. Overview of the NTCIR-12 MobileClick-2 Task , 2016, NTCIR.

[151] Susanne Boll,et al. Beyond position - spatial context for mobile information retrieval systems , 2009, 2009 6th Workshop on Positioning, Navigation and Communication.

[152] Rui Zhang,et al. A comparison of speech and GUI input for navigation in complex visualizations on mobile devices , 2010, Mobile HCI.

[153] Ning Chen,et al. Mobile App Tagging , 2016, WSDM '16.

[154] Volker Tresp,et al. Multi-label informed latent semantic indexing , 2005, SIGIR '05.

[155] Pia Borlund,et al. The IIR evaluation model: a framework for evaluation of interactive information retrieval systems , 2003, Inf. Res..