Artificial DNA hybridization to pulse-width modulation

Juan C. Herrera-Lozada; Rodrigo Cadena-Martinez; Jesus A. Alvarezcedillo; Mauricio Olguin-Carbajal; Miguel Hernandez-Bolaños; Israel Rivera-Zarate; Jacobo Sandoval-Gutierrez

Artificial DNA hybridization to pulse-width modulation

Juan C. Herrera-Lozada, Rodrigo Cadena-Martinez, Jesus A. Alvarezcedillo, Mauricio Olguin-Carbajal, Miguel Hernandez-Bolaños, Israel Rivera-Zarate, Jacobo Sandoval-Gutierrez

Centro de Innovación y Desarrollo Tecnológico en Cómputo (CIDETEC)

Research output: Contribution to journal › Article › peer-review

Abstract

The analysis and design of a Pulse-width modulation (PWM) embedded unit as an alternative to convert digital signals to analog signals is presented herein, extrapolating the biological principle of DNA hybridization. The biological hybridization process is a binding event between two complementary DNA single strands that leads to the formation of a double-stranded helix. The proposed technique to detect the hybridization is based on direct comparison of data, allowing a high degree of parallelism in the Bioinspired Architecture, it was specially designed to regulate the light intensity of LED lamps as a home automation application.

Original language	English
Pages (from-to)	289-293
Number of pages	5
Journal	Journal of Theoretical and Applied Information Technology
Volume	72
Issue number	2
State	Published - 2015

Keywords

Artificial DNA hybridization
Bio-inspired architecture
Digital-analogic converter
Five pulse-widht modulation
LED lamp

Cite this

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AU - Herrera-Lozada, Juan C.

AU - Cadena-Martinez, Rodrigo

AU - Alvarezcedillo, Jesus A.

AU - Olguin-Carbajal, Mauricio

AU - Hernandez-Bolaños, Miguel

AU - Rivera-Zarate, Israel

AU - Sandoval-Gutierrez, Jacobo

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AB - The analysis and design of a Pulse-width modulation (PWM) embedded unit as an alternative to convert digital signals to analog signals is presented herein, extrapolating the biological principle of DNA hybridization. The biological hybridization process is a binding event between two complementary DNA single strands that leads to the formation of a double-stranded helix. The proposed technique to detect the hybridization is based on direct comparison of data, allowing a high degree of parallelism in the Bioinspired Architecture, it was specially designed to regulate the light intensity of LED lamps as a home automation application.

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KW - Bio-inspired architecture

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KW - Five pulse-widht modulation

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JO - Journal of Theoretical and Applied Information Technology

JF - Journal of Theoretical and Applied Information Technology

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ER -

Artificial DNA hybridization to pulse-width modulation

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