Now showing items 44-63 of 180

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      Fatemi, M. R. H., Ateş, H. F. & Salleh, R. B. (2010). Fast algorithm analysis and bit-serial architecture design for sub-pixel motion estimation in H.264. Journal of Circuits, Systems, and Computers, 19(8), 1665-1687. doi:10.1142/S0218126610006980 [1]
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      Fatemi, M. R. H., Ateş, H. F. & Salleh, R. B. (2013). Analysis and design of low-cost bit-serial architectures for motion estimation in H.264/AVC. Journal of Signal Processing Systems, 71(2), 111-121. doi:10.1007/s11265-012-0686-2 [1]
      Faydasıçok, O. & Arık, S. (2013). An analysis of stability of uncertain neural networks with multiple time delays. Journal of the Franklin Institute-Engineering and Applied Mathematics, 350(7), 1808-1826. doi:10.1016/j.jfranklin.2013.05.006 [1]
      Faydasıçok, Ö. & Arık, S. (2012). Equilibrium and stability analysis of delayed neural networks under parameter uncertainties. Applied Mathematics and Computation, 218(12), 6716-6726. doi:10.1016/j.amc.2011.12.036 [1]
      Faydasıçok, Ö. & Arık, S. (2012). Further analysis of global robust stability of neural networks with multiple time delays. Journal of The Franklin Institute-Engineering and Applied Mathematics, 349(3), 813-825. doi:10.1016/j.jfranklin.2011.11.007 [1]
      Faydasıçok, Ö. & Arık, S. (2012). Robust stability analysis of a class of neural networks with discrete time delays. Neural Networks, 29-30, 52-59. doi:10.1016/j.neunet.2012.02.001 [1]
      Faydasıçok, Ö. & Arık, S. (2013). A new robust stability criterion for dynamical neural networks with multiple time delays. Neurocomputing, 99, 290-297. doi:10.1016/j.neucom.2012.07.004 [1]
      Faydasıçok, Ö. & Arık, S. (2013). A new upper bound for the norm of interval matrices with application to robust stability analysis of delayed neural networks. Neural Networks, 44, 64-71. doi:10.1016/j.neunet.2013.03.014 [1]
      Gezer, M., Gargari, S. N., Güz, Ü. & Gürkan, H. (2019). Compression of the biomedical images using quadtree-based partitioned universally classified energy and pattern blocks. Signal, Image and Video Processing, 13(6), 1123-1130. doi:10.1007/s11760-019-01454-z [1]
      Göknar, İ. C. (2018). Comment on “Storage and dissipation limits in resonant switched-capacitor converters”. Mathematical Problems in Engineering, 2018, 1-2. doi:10.1155/2018/1567645 [1]
      Göknar, İ. C., Yıldız, M. & Minaei, S. (2016). Metamutator applications: A quadrature MOS only oscillator and transconductance/transimpedance amplifiers. Analog Integrated Circuits and Signal Processing, 89(3), 801-808. doi:10.1007/s10470-016-0782-5 [1]
      Grebennikov, A., Kumar, N. & Binboğa Yarman, B. S. B. (2016). Broadband RF and Micriwave Amplifiers Preface, Broadband RF And Microwave Amplifiers. XI-XIV. [1]
      Grebennikov, A., Kumar, N. & Yarman, B. S. B. (2016). Broadband and Multiband Doherty Amplifiers, Broadband Rf And Microwave Amplifiers. 545-594. [1]
      Grebennikov, A., Kumar, N. & Yarman, B. S. B. (2016). Broadband RF and Micriwave Amplifiers Introduction, Broadband Rf And Microwave Amplifiers. XVII-XXII. [1]
      Grebennikov, A., Kumar, N. & Yarman, B. S. B. (2016). Design of Wideband RF and Microwave Amplifiers Employing Real Frequency Techniques, Broadband Rf And Microwave Amplifiers. 219-488. [1]
      Grebennikov, A., Kumar, N. & Yarman, B. S. B. (2016). High-Efficiency Broadband Class-E Power Amplifiers, Broadband Rf And Microwave Amplifiers. 489-544. [1]
      Grebennikov, A., Kumar, N. & Yarman, B. S. B. (2016). Lossless Matched Broadband Power Amplifiers, Broadband Rf And Microwave Amplifiers. 109-179. [1]
      Grebennikov, A., Kumar, N. & Yarman, B. S. B. (2016). Lossy Matched and Feedback Broadband Power Amplifiers, Broadband Rf And Microwave Amplifiers. 181-217. [1]
      Grebennikov, A., Kumar, N. & Yarman, B. S. B. (2016). Power Amplifier Design Principles, Broadband Rf And Microwave Amplifiers. 43-107. [1]