2016
DOI: 10.1186/s13634-016-0331-5
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Robust and adaptive diffusion-based classification in distributed networks

Abstract: Distributed adaptive signal processing and communication networking are rapidly advancing research areas which enable new and powerful signal processing tasks, e.g., distributed speech enhancement in adverse environments. An emerging new paradigm is that of multiple devices cooperating in multiple tasks (MDMT). This is different from the classical wireless sensor network (WSN) setup, in which multiple devices perform one single joint task. A crucial first step in order to achieve a benefit, e.g., a better node… Show more

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Cited by 7 publications
(4 citation statements)
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“…In real-world applications, the observed data is often subject to heavy tailed noise and outliers [3], [26]- [30] which obscure the true underlying structure of the data. Consequently, cluster enumeration becomes even more challenging when either the data is contaminated by a fraction of outliers or there exist deviations from the distributional assumptions.…”
Section: Introductionmentioning
confidence: 99%
“…In real-world applications, the observed data is often subject to heavy tailed noise and outliers [3], [26]- [30] which obscure the true underlying structure of the data. Consequently, cluster enumeration becomes even more challenging when either the data is contaminated by a fraction of outliers or there exist deviations from the distributional assumptions.…”
Section: Introductionmentioning
confidence: 99%
“…Recently, several distributed algorithms have been proposed, which frame the labelling problem in terms of cluster analysis after extracting source-specific features [6]- [8], [13], [14]. Various methods have been proposed for distributed data clustering, e.g., [14]- [27]. However, a significant drawback of common clustering algorithms is that the number of clusters has to be known a priori.…”
Section: Introductionmentioning
confidence: 99%
“…The aim of this research is to adaptively estimate the timevarying number of clusters based on a set of streaming-in feature vectors. The proposed method is designed to be 1) adaptive -to a changing number of objects/sources, 2) robust -against outliers in the feature vectors, or in general against unknown non-spherical and possibly heavy tailed distributions of the estimated features, 3) distributed -so as to operate in a decentralized WSN, e.g., based on the diffusion-principle [14], [54], 4) sequential -so that the estimate of the number of clusters is continuously updated for streaming-in data without the need to re-run the entire algorithm, 5) computationally simple -in order to be applicable in a real WSN. Original Contributions: A robust gravitational clustering algorithm is proposed which works for single-node and cooperative in-network clustering.…”
Section: Introductionmentioning
confidence: 99%
“…holds the key to the successful cooperation of neighboring nodes in a distributed network. Recently, some generic clustering and classification algorithms have been proposed for distributed sensor networks [4]- [6]. The research question addressed in this paper is to develop a distributed and adaptive multi-object labeling algorithm for a multi-camera network without assuming any form of camera calibration or utilizing a centralized computing unit that fuses all information collected from different cameras.…”
Section: Introductionmentioning
confidence: 99%