International Journal of Sensors and Sensor Networks

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Curvature as Obstacle to a Photo-Resistor Sensor of Illumining and Their Minimal Sensing Region Part II: Their Transitory Analysis and the Non-Dimensional λ

Received: 23 October 2018    Accepted: 08 November 2018    Published: 26 February 2019
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Abstract

In this study are analyzed from point of view of laboratory and test-rehearsals the functioning of an illuminating sensor considering the fact that the measures and sensing must be realized to start of the response signal to the luminous efficiency described for their mean foreseen behavior given for the corresponding integral equation to their efficiency. Here are considered the efficiency function and the response signal of the sensor. The integral equation represents the functioning of the sensor submitted to a luminous efficiency λ, which will be relevant to the detection and measure of the illuminating curvature energy. Also are obtained images of spectra bandwidth of the mean curvature spectra and the dimensionless value λ. In this last point are established two important results, one theorem and one lemma in signal and systems analysis applied to the efficacies and efficiency of the illuminating sensor considering the energy spectra of the curvature, the luminous energy, and the illuminating energy density. Likewise, is determined the curvature energy as the first order derivative of illuminating energy density divided for the electric charge used in the photo-resistive component of the sensor. Also are obtained 2-dimensional geometrical models or behavior surfaces of curvature energy, efficiency and their efficacies accord with the laboratory results.

DOI 10.11648/j.ijssn.20180604.11
Published in International Journal of Sensors and Sensor Networks (Volume 6, Issue 4, December 2018)
Page(s) 43-52
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Curvature Energy, Illuminating Sensor, Luminous Efficiency, Luminous Intensity, Sensing Obstacle Problem

References
[1] F. Bulnes, I. Martínez, R. Cayetano, I. Valencia, B. Martínez, J. Beltrán, “Curvature as Obstacle to a Photo-Resistor Sensor of Illumining and their Minimal Sensing Region,” Sensors &Transducers Journal, IFSA, Europe, Vol. 224, No. 2018.
[2] R. A. Adams; Sobolev spaces, Academic Press, New York - San Francisco - London, 1975.
[3] Bulnes, F. Martínez, I, Mendoza, A. Landa, M., “Design and Development of an Electronic Sensor to Detect and Measure Curvature of Spaces Using Curvature Energy,” Journal of Sensor Technology, 2012, 2, pp116-126. http://dx.doi.org/10.4236/jst.2012.23017.
[4] Murphy, T. W. (2012). "Maximum spectral luminous efficacy of white light". Journal of Applied Physics. 111 (10): 104909.
[5] Kolmogorov, A. N. and Fomin, S. V. (1975). Elementos de´la Teoría de Funciones y del Análisis Funcional, Mir Moscú.
[6] W. Rudin, Functional Analysis, McGraw-Hill, Inc., USA, 1973.
[7] A. T. Alastalo, V. Kaajakari, “Intermodulation in Capacitively Coupled Microelectromechanical Filters,” IEEE Electron Device Letters, Vol. 26, 2005, pp189-191.
[8] Bulnes, F. (1998). Treatise of Superior Mathematics: Signal and Systems Analysis, Science Faculty, UNAM-ETC, Mexico.
[9] Bulnes, F. Martínez, I, Mendoza, A. Landa, M., “Design and Development of an Electronic Sensor to Detect and Measure Curvature of Spaces Using Curvature Energy,” Journal of Sensor Technology, 2012, 2, pp116-126. http://dx.doi.org/10.4236/jst.2012.23017.
[10] Heath, S. (2003). Embedded systems design. EDN series for design engineers (2ed.)., Elsevier Science, Oxford, UK.
[11] B. Nashelky, “Electronics: Circuit Theory and Electronic Devices,” Pearson Prentice Hall, Upper Saddle River, 2003.
[12] Diffenderfes, Robert (2005). Electronic Devices: System and Applications. New Delhi: Delimar.
[13] M. A. Parker, Physics of Optoelectronics, Taylor and Francis, 2004.
[14] M. Bass (ed.), Handbook of Optics Volume I - Devices, Measurements and Properties, 2nd Ed., McGraw-Hill 1995.
[15] M. Bass (ed.), Handbook of Optics Volume II - Devices, Measurements and Properties, 2nd Ed., McGraw-Hill 1995.
Author Information
  • IINAMEI, International Advanced Research in Mathematics and Engineering, Chalco, Mexico

  • IINAMEI, International Advanced Research in Mathematics and Engineering, Chalco, Mexico

  • IINAMEI, International Advanced Research in Mathematics and Engineering, Chalco, Mexico

  • Electronic Engineering Division GI-Tescha, Chalco, Mexico

  • Technological Institute of Querétaro, Electronics Engineering, Querétaro, Mexico

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    Francisco Bulnes, Isaías Martínez, Rocío Cayetano, Andy Rodríguez, Isaí M. Martínez. (2019). Curvature as Obstacle to a Photo-Resistor Sensor of Illumining and Their Minimal Sensing Region Part II: Their Transitory Analysis and the Non-Dimensional λ. International Journal of Sensors and Sensor Networks, 6(4), 43-52. https://doi.org/10.11648/j.ijssn.20180604.11

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    ACS Style

    Francisco Bulnes; Isaías Martínez; Rocío Cayetano; Andy Rodríguez; Isaí M. Martínez. Curvature as Obstacle to a Photo-Resistor Sensor of Illumining and Their Minimal Sensing Region Part II: Their Transitory Analysis and the Non-Dimensional λ. Int. J. Sens. Sens. Netw. 2019, 6(4), 43-52. doi: 10.11648/j.ijssn.20180604.11

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    AMA Style

    Francisco Bulnes, Isaías Martínez, Rocío Cayetano, Andy Rodríguez, Isaí M. Martínez. Curvature as Obstacle to a Photo-Resistor Sensor of Illumining and Their Minimal Sensing Region Part II: Their Transitory Analysis and the Non-Dimensional λ. Int J Sens Sens Netw. 2019;6(4):43-52. doi: 10.11648/j.ijssn.20180604.11

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  • @article{10.11648/j.ijssn.20180604.11,
      author = {Francisco Bulnes and Isaías Martínez and Rocío Cayetano and Andy Rodríguez and Isaí M. Martínez},
      title = {Curvature as Obstacle to a Photo-Resistor Sensor of Illumining and Their Minimal Sensing Region Part II: Their Transitory Analysis and the Non-Dimensional λ},
      journal = {International Journal of Sensors and Sensor Networks},
      volume = {6},
      number = {4},
      pages = {43-52},
      doi = {10.11648/j.ijssn.20180604.11},
      url = {https://doi.org/10.11648/j.ijssn.20180604.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijssn.20180604.11},
      abstract = {In this study are analyzed from point of view of laboratory and test-rehearsals the functioning of an illuminating sensor considering the fact that the measures and sensing must be realized to start of the response signal to the luminous efficiency described for their mean foreseen behavior given for the corresponding integral equation to their efficiency. Here are considered the efficiency function and the response signal of the sensor. The integral equation represents the functioning of the sensor submitted to a luminous efficiency λ, which will be relevant to the detection and measure of the illuminating curvature energy. Also are obtained images of spectra bandwidth of the mean curvature spectra and the dimensionless value λ. In this last point are established two important results, one theorem and one lemma in signal and systems analysis applied to the efficacies and efficiency of the illuminating sensor considering the energy spectra of the curvature, the luminous energy, and the illuminating energy density. Likewise, is determined the curvature energy as the first order derivative of illuminating energy density divided for the electric charge used in the photo-resistive component of the sensor. Also are obtained 2-dimensional geometrical models or behavior surfaces of curvature energy, efficiency and their efficacies accord with the laboratory results.},
     year = {2019}
    }
    

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    T1  - Curvature as Obstacle to a Photo-Resistor Sensor of Illumining and Their Minimal Sensing Region Part II: Their Transitory Analysis and the Non-Dimensional λ
    AU  - Francisco Bulnes
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    JF  - International Journal of Sensors and Sensor Networks
    JO  - International Journal of Sensors and Sensor Networks
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    PB  - Science Publishing Group
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    UR  - https://doi.org/10.11648/j.ijssn.20180604.11
    AB  - In this study are analyzed from point of view of laboratory and test-rehearsals the functioning of an illuminating sensor considering the fact that the measures and sensing must be realized to start of the response signal to the luminous efficiency described for their mean foreseen behavior given for the corresponding integral equation to their efficiency. Here are considered the efficiency function and the response signal of the sensor. The integral equation represents the functioning of the sensor submitted to a luminous efficiency λ, which will be relevant to the detection and measure of the illuminating curvature energy. Also are obtained images of spectra bandwidth of the mean curvature spectra and the dimensionless value λ. In this last point are established two important results, one theorem and one lemma in signal and systems analysis applied to the efficacies and efficiency of the illuminating sensor considering the energy spectra of the curvature, the luminous energy, and the illuminating energy density. Likewise, is determined the curvature energy as the first order derivative of illuminating energy density divided for the electric charge used in the photo-resistive component of the sensor. Also are obtained 2-dimensional geometrical models or behavior surfaces of curvature energy, efficiency and their efficacies accord with the laboratory results.
    VL  - 6
    IS  - 4
    ER  - 

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