Sensors (Dec 2012)

Geosensor Data Representation Using Layered Slope Grids

  • Keun Ho Ryu,
  • Silvia Nittel,
  • Kate Beard,
  • Kwang Woo Nam,
  • Young Jin Jung,
  • Yongmi Lee

DOI
https://doi.org/10.3390/s121217074
Journal volume & issue
Vol. 12, no. 12
pp. 17074 – 17093

Abstract

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Environmental monitoring applications are designed for supplying derived and often integrated information by tracking and analyzing phenomena. To determine the condition of a target place, they employ a geosensor network to get the heterogeneous sensor data. To effectively handle a large volume of sensor data, applications need a data abstraction model, which supports the summarized data representation by encapsulating raw data. For faster data processing to answer a user’s queries with representative attributes of an abstracted model, we propose such a data abstraction model, the Layered Slopes in Grid for Sensor Data Abstraction (LSGSA), which is based on the SGSA. In a single grid-based layer for each sensor type, collected data is represented by slope directional vectors in two layered slopes, such as height and surface. To answer a user query in a central monitoring server, LSGSA is used to reduce the time needed to extract event features from raw sensor data as a preprocessing step for interpreting the observed data. The extracted features are used to understand the current data trends and the progress of a detected phenomenon without accessing raw sensor data.

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