Constrained data acquisition for mobile citizen science applications

The popularity and ubiquity of personal mobile computing devices' coupled with their powerful sensing capabilities' allow their application in the structured collection of data for societal benefit and science applications. Citizen scientists are willing users and active contributors to scientific research and applications, but if they gather data in an unconstrained or ad hoc manner, their efforts may be of little scientific value. In this paper, we present a user interface for a mobile device which is properly constrained to permit the gathering of valid scientific data. This helps to achieve the goal that any individual with a basic familiarity of the device (but not of the science) should be able to obtain useful data with little learning required. As a use case for this concept, we present a mobile application that allows user to collect location-stamped images to supplement satellite data for climate change research.

[1]  Gaurav S. Sukhatme,et al.  Visibility Monitoring using Mobile Phones , 2009 .

[2]  Bernice E. Casey,et al.  Modelling and validating the man‐machine interface , 1982, Softw. Pract. Exp..

[3]  Anthony I. Wasserman,et al.  Extending State Transition Diagrams for the Specification of Human–Computer Interaction , 1985, IEEE Transactions on Software Engineering.

[4]  C. Tucker Red and photographic infrared linear combinations for monitoring vegetation , 1979 .

[5]  Harold W. Thimbleby,et al.  User interface design with matrix algebra , 2004, TCHI.

[6]  A. Huete,et al.  Overview of the radiometric and biophysical performance of the MODIS vegetation indices , 2002 .

[7]  A. Huete,et al.  Amazon rainforests green‐up with sunlight in dry season , 2006 .

[8]  Dan Tarpley,et al.  The Enhanced NOAA Global Land Dataset from the Advanced Very High Resolution Radiometer , 1995 .

[9]  J. Muller,et al.  Terrestrial remote sensing science and algorithms planned for EOS/MODIS , 1994 .

[10]  Alfredo R. Huete,et al.  MODIS EVIbased Variability in Amazon Phenology across the Rainforest-Cerrado Ecotone , 2006, 2006 IEEE International Symposium on Geoscience and Remote Sensing.

[11]  Alexandre M. Bayen,et al.  Evaluation of traffic data obtained via GPS-enabled mobile phones: The Mobile Century field experiment , 2009 .

[12]  David L. Parnas,et al.  On the use of transition diagrams in the design of a user interface for an interactive computer system , 1969, ACM '69.

[13]  David Harel,et al.  Statecharts: A Visual Formalism for Complex Systems , 1987, Sci. Comput. Program..

[14]  Michael A. Crimmins,et al.  Monitoring Plant Phenology Using Digital Repeat Photography , 2008, Environmental management.