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SASO
2008
IEEE
2008
IEEE
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 ...
Real-time TrafficClosest Device | Discretization Error | Gradient Discretization Error | SASO 2008 | Self-Organizing Systems |
Related Content
| 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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