Showing papers in "International Journal of Circuit Theory and Applications in 2019"
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TL;DR: A novel type of high‐speed TRNG based on chaos and ANN implemented in a Xilinx field‐programmable gate array (FPGA) chip that can provide not only high throughput but also high quality random bit sequences for a wide variety of embedded cryptographic applications.
47 citations
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41 citations
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34 citations
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32 citations
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TL;DR: It has been found that the proposed adaptive slope prediction threshold increases the QRS complex detection performance and the proposed fractional operator‐based digital ECG detector for modern pacemaker systems is proposed in this work.
31 citations
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31 citations
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28 citations
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26 citations
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TL;DR: The framework for integration of ML techniques for drift compensation of ISFET chemical sensor to improve its performance is established and the experimental results demonstrate that the random forest technique achieves the best performance with very high correlation and low error rate.
26 citations
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25 citations
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TL;DR: The results indicate that the proposed hyperchaotic system can play an important role in some key areas such as communication security and complex systems.
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TL;DR: A simplified version of the Hodgkin‐Huxley neuron model was proposed by substituting its complex nonlinear dynamics with linear ones and a digital circuit was designed, which can be implemented on a low‐cost hardware platform, such as field‐programmable gate array (FPGA).
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TL;DR: Fin field‐effect transistor (FinFET) technology for the design of low‐power VLSI circuits is described and 2‐, 4‐, 8‐, and 16‐input domino OR gates are designed and simulated using existing and proposed techniques in CMOS and FinFET technology.
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TL;DR: The proposed LGFRNN is more accurate compared with the conventional neural‐based models and also significantly reduces the training time of the conventional models and is faster than the existing models in simulation tools.
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TL;DR: Measurements show that in the surveyed urban and semi‐urban environments, an average input power above −22 and −29 dBm, respectively, is available in the [700, 1,000] MHz band.