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A Self-Adaptive Approximate Interpolation Scheme for Dense Sensing
Ref: CISTER-TR-140512       Publication Date: 19, Jun, 2013

A Self-Adaptive Approximate Interpolation Scheme for Dense Sensing

Ref: CISTER-TR-140512       Publication Date: 19, Jun, 2013

Abstract:
Very dense networks offer a better resolution of the physical world and therefore a better capability of detecting the occurrence of an event; this is of paramount importance for a number of industrial applications. However, the scale of such systems poses huge challenges in terms of interconnectivity and timely data processing. In this paper we will look at efficient scalable data acquisition methods for such densely instrumented cyber-physical systems. Previous research works have proposed approaches for obtaining an interpolation of sensor readings from different sensor nodes. Those approaches are based on dominance protocols, presenting therefore excellent scalability properties for dense instrumented systems. In this paper we propose an important advance to the state-of-the-art. Our novel approach not only incorporates a physical model to enable more accurate approximate interpolations but it also detects and self-adapts to changes in the physical model.

Authors:
Maryam Vahabi
,
Eduardo Tovar
,
Michele Albano


IEEE International Symposium on Industrial Embedded Systems (SIES 2013), IEEE, WiP, pp 105-109.
Porto, Portugal.

DOI:10.1109/SIES.2013.6601481.



Record Date: 14, May, 2014