Uninterruptable power supply a design approach.

1978
Gündüz, Mustafa Asım

Suggestions

Unbalanced split-plot designs
Oral, Ece; Güven, Bilgehan; Department of Statistics (2000)
Unstructured grid generation
Coşkun, Mehmet; Üçer, Ahmet Ş.; Çelenligil, Cevdet; Department of Mechanical Engineering (1994)
Unsupervised machine learning in 5G networks for low latency communications
Balevi, Eren; Gitlin, Richard D. (2018-02-02)
© 2017 IEEE.This paper incorporates fog networking into heterogeneous cellular networks that are composed of a high power node (HPN) and many low power nodes (LPNs). The locations of the fog nodes that are upgraded from LPNs are specified by modifying the unsupervised soft-clustering machine learning algorithm with the ultimate aim of reducing latency. The clusters are constructed accordingly so that the leader of each cluster becomes a fog node. The proposed approach significantly reduces the latency with ...
Unsupervised Electromagnetic Target Classification by Self-organizing Map Type Clustering
Katilmis, T. T.; Ekmekci, E.; Sayan, Gönül (2010-07-08)
In this study, design of a completely unsupervised electromagnetic target classifier will be described based on the use of Self-Organizing Map (SOM) type artificial neural network training and Wigner distribution (WD) based target feature extraction technique. The suggested classification method will be demonstrated for a target library of four dielectric spheres which have exactly the same size but slightly different permittivity values.
Unparticle physics in single top signals
ALAN, AHMET TURAN; Pak, N. K.; ŞENOL, ABDULKADİR (IOP Publishing, 2008-01-01)
We study the single production of top quarks in e(+)e(-), ep and pp collisions in the context of unparticle physics through the Flavor Violating (FV) unparticle vertices and compute the total cross-sections for single top production as functions of scale dimension d(u). We find that among all, LHC is the most promising facility to probe the unparticle physics via single top quark production processes. Copyright (C) EPLA, 2008.
Citation Formats
M. A. Gündüz, “Uninterruptable power supply a design approach.,” Middle East Technical University, 1978.