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SASO
2008
IEEE

Empirical Characterization of Discretization Error in Gradient-Based Algorithms

14 years 6 months ago
Empirical Characterization of Discretization Error in Gradient-Based Algorithms
Many self-organizing and self-adaptive systems use the biologically inspired “gradient” primitive, in which each device in a network estimates its distance to the closest device designated as a source of the gradient. Distance through the network is often used as a proxy for geometric distance, but the accuracy of this approximation has not previously been quantified well enough to allow predictions of the behavior of gradient-based algorithms. We address this need with an empirical characterization of the discretization error of gradient on random unit disc graphs. This characterization has uncovered two troublesome phenomena: an unsurprising dependence of error on source shape and an unexpected transient that becomes a major source of error at high device densities. Despite these obstacles, we are able to produce a quantitative model of discretization error for planar sources at moderate densities, which we validate by using it to predict error of gradientbased algorithms for ...
Jonathan Bachrach, Jacob Beal, Joshua Horowitz, Da
Added 01 Jun 2010
Updated 01 Jun 2010
Type Conference
Year 2008
Where SASO
Authors Jonathan Bachrach, Jacob Beal, Joshua Horowitz, Dany Qumsiyeh
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