Many to Many Mobile Maps

The rapid development of mobile computing devices along with a variety of Web 2.0 social networking tools has led to a dramatic change in the way maps and other spatial displays are utilized. The evolution from stand-alone desktop GIS to the interactive, mobile devices, in which information from one or more sources and is sent to one or more sinks, is discussed. The result is access to real-time information, which is generated from both traditional sources, social networks, and other specialized geowikis. Both the benefits of many to many mobile maps and the emergence of new problems, such as understanding the needs of the user and providing appropriate context, are discussed.

[1]  Drew Dara-Abrams,et al.  Cognitive Surveying: A Framework for Mobile Data Collection, Analysis, and Visualization of Spatial Knowledge and Navigation Practices , 2008, Spatial Cognition.

[2]  Martin R. Gibbs,et al.  Mediating intimacy: designing technologies to support strong-tie relationships , 2005, CHI.

[3]  Daniel R. Montello,et al.  Spatial Information Theory A Theoretical Basis for GIS , 1995, Lecture Notes in Computer Science.

[4]  Andrew U. Frank,et al.  Different Types of „Times“ in GIS , 2007 .

[5]  S. Gorman,et al.  Volunteered Geographic Information and Crowdsourcing Disaster Relief: A Case Study of the Haitian Earthquake , 2010 .

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

[7]  Timothy L. Nyerges,et al.  The SAGE Handbook of GIS and Society , 2011 .

[8]  Michael Rohs,et al.  WikEar: Automatically Generated Location-Based Audio Stories between Public City Maps , 2007 .

[9]  Fredrik Espinoza,et al.  GeoNotes: Social and Navigational Aspects of Location-Based Information Systems , 2001, UbiComp.

[10]  Richard Lowe,et al.  Seeing with the Hands and with the Eyes: The Contributions of Haptic Cues to Anatomical Shape Recognition in Surgery , 2010, AAAI Spring Symposium: Cognitive Shape Processing.

[11]  Donna J. Peuquet,et al.  Representations of space and time , 2002 .

[12]  A. Siegel,et al.  The development of spatial representations of large-scale environments. , 1975, Advances in child development and behavior.

[13]  Reid Priedhorsky Yet Successful : A Position Paper for CHI 2011 Workshop on Crowdsourcing and Human Computation , 2011 .

[14]  Martin Raubal,et al.  Navigating and Learning with Location Based Services : A User-Centric Design , 2010 .

[15]  Clare Davies,et al.  Strategies for Orientation: The Role of 3D Landmark Salience and Map Alignment , 2007 .

[16]  Martin Raubal,et al.  Cogito Ergo Mobilis Sum: The Impact of Location-Based Services on Our Mobile Lives , 2011 .

[17]  Stephen C. Hirtle,et al.  The Nature of Landmarks for Real and Electronic Spaces , 1999, COSIT.

[18]  Rui Li,et al.  Survey on social tagging techniques , 2010, SKDD.

[19]  Paul A. Longley,et al.  A Test Environment for Location‐Based Services Applications , 2006, Trans. GIS.

[20]  H. Simon,et al.  A Behavioral Model of Rational Choice , 1955 .

[21]  Alasdair Turner The Role of Angularity in Route Choice , 2009, COSIT.

[22]  Maximilian Schwalm,et al.  Computer-assisted navigation and the acquisition of route and survey knowledge , 2006 .

[23]  Bill Hillier,et al.  Space is the machine: A configurational theory of architecture , 1996 .

[24]  Wilmot Li,et al.  Design principles for visual communication , 2011, Commun. ACM.

[25]  Danah Boyd,et al.  Social network sites: definition, history, and scholarship , 2007, IEEE Engineering Management Review.

[26]  Andrew U. Frank,et al.  Spatial Information Theory A Theoretical Basis for GIS , 1993, Lecture Notes in Computer Science.

[27]  Heinrich H. Bülthoff,et al.  Working Memory in Wayfinding - A Dual Task Experiment in a Virtual City , 2008, Cogn. Sci..

[28]  Christoph Schlieder,et al.  Photographing a City: An Analysis of Place Concepts Based on Spatial Choices , 2009, Spatial Cogn. Comput..

[29]  D. R. Montello,et al.  The Role of Spatial Cognition in Medicine: Applications for Selecting and Training Professionals. , 2007 .

[30]  Emiliano Miluzzo,et al.  A survey of mobile phone sensing , 2010, IEEE Communications Magazine.

[31]  Andrew U. Frank,et al.  A Formalization of Metaphors and Image-Schemas in User Interfaces , 1991 .

[32]  David M. Mark,et al.  Cognitive and Linguistic Aspects of Geographic Space: New Perspectives on Geographic Information Research , 1991 .

[33]  Gregory D. Abowd,et al.  Towards a Better Understanding of Context and Context-Awareness , 1999, HUC.

[34]  Benjamin Kuipers,et al.  Navigation and Mapping in Large Scale Space , 1988, AI Mag..

[35]  Andreas Butz,et al.  A hybrid indoor navigation system , 2001, IUI '01.

[36]  Stephen C. Hirtle,et al.  Designing a Multi-modal Tool for Locating Buildings on a College Campus , 1998 .

[37]  Martin Raubal,et al.  Location-based decision support for user groups , 2009, J. Locat. Based Serv..

[38]  Martin Raubal,et al.  A Formal Model for Mobile Map Adaptation , 2009 .

[39]  Ramachandran Ramjee,et al.  Nericell: rich monitoring of road and traffic conditions using mobile smartphones , 2008, SenSys '08.

[40]  Daniel R. Montello,et al.  Scale and Multiple Psychologies of Space , 1993, COSIT.

[41]  Georg Gartner,et al.  A critical evaluation of location based services and their potential , 2007, J. Locat. Based Serv..

[42]  M. Gluck Making Sense of Human Wayfinding: Review of Cognitive and Linguistic Knowledge for Personal Navigation with a New Research Direction , 1991 .

[43]  Suman Nath,et al.  SensorMap for Wide-Area Sensor Webs , 2007, Computer.

[44]  Thomas Gruber,et al.  Ontology of Folksonomy: A Mash-Up of Apples and Oranges , 2007, Int. J. Semantic Web Inf. Syst..

[45]  Johannes Schöning,et al.  Map navigation with mobile devices: virtual versus physical movement with and without visual context , 2007, ICMI '07.

[46]  Wolfgang Wahlster,et al.  Readings in Intelligent User Interfaces , 1998 .

[47]  M. Goodchild Citizens as sensors: the world of volunteered geography , 2007 .

[48]  Kai-Florian Richter,et al.  This is the tricky part: When directions become difficult , 2010, J. Spatial Inf. Sci..

[49]  Jacques Tisseau,et al.  The assessment of non visual maritime cognitive maps of a blind sailor: a case study , 2010 .

[50]  Gary L. Allen,et al.  Applied Spatial Cognition: From Research to Cognitive Technology , 2007 .

[51]  Loren G. Terveen,et al.  How a personalized geowiki can help bicyclists share information more effectively , 2007, WikiSym '07.

[52]  Daniel R. Montello,et al.  How spatial abilities enhance, and are enhanced by, dental education , 2009 .

[53]  Mark Bilandzic,et al.  CityFlocks: designing social navigation for urban mobile information systems , 2008, DIS '08.

[54]  Mark Blades,et al.  Wayfinding Theory and Research: The Need for a New Approach , 1991 .

[55]  Stephen C. Hirtle,et al.  Geographical Design: Spatial Cognition and Geographical Information Science , 2011, Geographical Design.

[56]  Eija Kaasinen,et al.  User acceptance of location-aware mobile guides based on seven field studies , 2005, Behav. Inf. Technol..

[57]  Avi Parush,et al.  Degradation in Spatial Knowledge Acquisition When Using Automatic Navigation Systems , 2007, COSIT.

[58]  Padhraic Smyth,et al.  Probabilistic Analysis of a Large-Scale Urban Traffic Sensor Data Set , 2008, KDD Workshop on Knowledge Discovery from Sensor Data.

[59]  R. Golledge,et al.  Spatial Behavior: A Geographic Perspective , 1996 .

[60]  Atsuyuki Okabe,et al.  Wayfinding with a GPS-based mobile navigation system: A comparison with maps and direct experience , 2008 .

[61]  Marc Smith,et al.  Where were we: communities for sharing space-time trails , 2007, GIS.

[62]  Marti A. Hearst UIs for Faceted Navigation Recent Advances and Remaining Open Problems , 2008 .