Kee-Young Lee, Jeong-Lae Kim, Hye-Ju Kim,
Specification of Site by the Tender Wavelength of Matter Skin
Distribution on the Spread Recognition System,
Journal of Engineering and Applied Sciences,
Volume 13,Issue 5,
2018,
Pages 1109-1114,
ISSN 1816-949x,
jeasci.2018.1109.1114,
(https://makhillpublications.co/view-article.php?doi=jeasci.2018.1109.1114)
Abstract: Spread-out alteration technology is constituted the wavelength status for skin distribution of the
Glitter Recognition Rate (GRR) and Discrepancy Recognition Rate (DRR) on the spread-out recognition morph.
The recognition rate condition by the spread-out recognition morph is associated with the flare-out wavelength
system. As to search a dot of the tender alteration, we are constituted of the spread-out value for skin
distribution with spread-out layer dot by the wavelength-signal. The concept of recognition rate is
verified the reference of glitter and discrepancy rate for alteration signal by the spread-out wavelength morph.
Moreover, showing a tender alteration of the GRR-DRR of the medium and minimum in terms of the
spread-out-wavelength morph and spread-out dot wavelength that is obtained the a spread-out value of the
far alteration of the Spro-RM-FA-βMED-MIN with 7.27±(-0.37) units, that was the a spread-out value of the
convenient alteration of the Spro-RM-CO-βMED-MIN with 2.17±(-0.17) units, that was the a spread-out value of the
flank alteration of the Spro-RM-FL-βMED-MIN with 0.53±0.10 units, that was the a spread-out value of the vicinage
alteration of the Spro-RM-VI-βMED-MIN with 0.09±(-0.001) units. The flare-out wave length will be to assess at the
ability of the spread-out-wave length morph for the control degree recognition rate on the GRR-DRR that is
revealed the tender glitter and discrepancy morph by the recognition rate system. Flare-out recognition system
will be possible to modify of a morph by the special signal and to count a spread-out data of flare-out wave
length rate.
Keywords: Glitter recognition rate;spread-out recognition morph;flare-out recognition system;flare-out wavelength;signal;Korea