Tander, Baran

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Tander, Baran
B.,Tander
B. Tander
Baran, Tander
Tander, Baran
B.,Tander
B. Tander
Baran, Tander
Tander, B
Job Title
Dr. Öğr. Üyesi
Email Address
Tander@khas.edu.tr
Main Affiliation
Computer Engineering
Status
Former Staff
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Scholarly Output

12

Articles

3

Citation Count

0

Supervised Theses

1

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2002 - 20103
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Subject: Cellular Neural Networks

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Now showing 1 - 3 of 3
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    Citation - WoS: 1
    Design and Implementation of a Cellular Neural Network Based Oscillator Circuit
    (World Scientific and Engineering Acad and Soc, 2009) Tander, Baran; Tander, Baran; Özmen, Atilla; Özmen, Atilla; Özçelep, Yasin
    In this paper, a novel inductorless oscillator circuit with negative feedbacks, based on a simple version of a "Cellular Neural Network" (CNN) called "CNN with an Opposite Sign Template" (CNN-OST) is designed and implemented. The system is capable of generating quasi-sine oscillations with tuneable amplitude and frequency which can't be provided at the same time in the conventional oscillator circuits.
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    Simple and Accurate Cell Macromodels for the Simulations of Cellular Neural Networks
    (AVES YAYINCILIK, 2002) Tander, Baran; Tander, Baran; Ün, Mahmut
    In this paper, two simple and accurate cell macromodels for PSPICE simulations of Cellular Neural Networks (CNNs) are designed. Firstly, a brief information about CNNs and their benefits are introduced. Then the nonlinear differential equations that characterize the CNNs and the equivalent cell circuit given by Chua and Yang which realizes these equations are presented. With appropriate source transformations, another cell equivalent that employs voltage controlled-voltage sources instead of voltage controlled-current sources is developed. By substituting the dependent sources with their actual circuits for both equivalents, complete systems which are suitable for PSPICE macromodeling are derived. Responses of astable and stable CNNs are analyzed with the proposed macromodels and satisfactory results are observed after the simulations. The benefits and drawbacks of the macromodels are also discussed in the conclusion section.
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    Article
    Citation - Scopus: 4
    Design and Implementation of a Negative Feedback Oscillator Circuit Based on a Cellular Neural Network With an Opposite Sign Template
    (2010) Tander, Baran; Özmen, Atilla; Özmen, Atilla; Tander, Baran; Özçelep, Yasin
    In this paper explicit amplitude and frequency expressions for a Cellular Neural Network with an Opposite-Sign Template (CNN-OST) under oscillation condition are derived and a novel inductorless oscillator circuit with negative feedbacks based on this simple structure is designed and implemented. The system is capable of generating quasi-sine signals with tuneable amplitude and frequency which can't be provided at the same time in the classical oscillator circuits.