Browsing by Subject "Multiple components"
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Item Open Access Çok-bileşenli sinyallerin analizi için destek bölge uyarlamalı hermite-gauss açılımı(IEEE, 2011-04) Alp, Yaşar Kemal; Arıkan, Orhan; Özertem, U.Zaman-frekans destek bölgesi orijin etrafında dairesel bir alana uyan bir sinyal bileşeni için, Hermite-Gauss açılımı en az sayıda taban fonsiyonu kullanarak en iyi temsili oluşturur. Ancak, orijinden uzakta ve dairesel olmayan zaman-frekans destek noklarına sahip sinyal bileşenleri için Hermite-Gauss açılımının direk uygulanması, çok fazla sayıda Hermite-Gauss fonksiyonunun kullanımını gerektirir. Bu da, eğer ölçüm sinyali gürültü altında kaydedilmişse ya da birçok sinyal bileşeni içeriyorsa, başarısız bileşen kestirimlerine neden olur. Bu problemi çözmek için sinyal bileşenlerinin destek bölgelerini bulup, zaman-frekans düzleminde orijin civarında, dairesel bir bölgeye oturtan ve bu sayede en az sayıda Hermite-Gauss fonksiyonu kullanarak sinyal bileşenlerini başarılı bir şekilde kestiren, tamamen otomatikleştirilmiş bir önişleme yöntemi önermekteyiz. Önişlemenin ardından, kestirilen bileşenlere ters dönüşümler uygulanarak destek bölgeleri eski yerlerine taşınırItem Open Access Convexity in source separation: Models, geometry, and algorithms(Institute of Electrical and Electronics Engineers Inc., 2014) McCoy, M. B.; Cevher, V.; Dinh, Q. T.; Asaei, A.; Baldassarre, L.Source separation, or demixing, is the process of extracting multiple components entangled within a signal. Contemporary signal processing presents a host of difficult source separation problems, from interference cancellation to background subtraction, blind deconvolution, and even dictionary learning. Despite the recent progress in each of these applications, advances in high-throughput sensor technology place demixing algorithms under pressure to accommodate extremely high-dimensional signals, separate an ever larger number of sources, and cope with more sophisticated signal and mixing models. These difficulties are exacerbated by the need for real-time action in automated decision-making systems. © 1991-2012 IEEE.Item Open Access Rule based segmentation and subject identification using fiducial features and subspace projection methods(Academy Publisher, 2007) Ince, E. A.; Ali, S. A.This paper describes a framework for carrying out face recognition on a subset of standard color FERET database using two different subspace projection methods, namely PCA and Fisherfaces. At first, a rule based skin region segmentation algorithm is discussed and then details about eye localization and geometric normalization are given. The work achieves scale and rotation invariance by fixing the inter ocular distance to a selected value and by setting the direction of the eye-to-eye axis. Furthermore, the work also tries to avoid the small sample space (S3) problem by increasing the number of shots per subject through the use of one duplicate set per subject. Finally, performance analysis for the normalized global faces, the individual extracted features and for a multiple component combination are provided using a nearest neighbour classifier with Euclidean and/or Cosine distance metrics.Item Open Access Technical note-optimal structural results for assemble-to-order generalized M-Systems(INFORMS Inst.for Operations Res.and the Management Sciences, 2014) Nadar, E.; Akan, M.; Scheller-Wolf, A.We consider an assemble-to-order generalized M-system with multiple components and multiple products, batch ordering of components, random lead times, and lost sales. We model the system as an infinite-horizon Markov decision process and seek an optimal policy that specifies when a batch of components should be produced (i.e., inventory replenishment) and whether an arriving demand for each product should be satisfied (i.e., inventory allocation). We characterize optimal inventory replenishment and allocation policies under a mild condition on component batch sizes via a new type of policy: lattice-dependent base stock and lattice-dependent rationing. © 2014 INFORMS.