FURTHER RESEARCH ON THE QUADRANGULAR PRISM OF SELF-INVISIBILITY (I)
Y. He. International Journal of Instrumentation and Control Systems, 07 (04):
01-06(October 2017)
DOI: 10.5121/ijics.2017.7401
Abstract
A quadrangular prism of self-invisibility has been further researched for its applications to vehicles. Its structure has been calculated and demonstrated strictly and quantitatively, according to the laws of reflection of light and geometric principles. Furthermore, the invisible effect with respect to the position of an observed point was investigated when the observed point shifted from the most-clear position. Finally, a unique extrapolation is given and discussed with the comparison of their invisibility rates. Based on detailed analyses, some significant conclusions for such an application on vehicles have been obtained.
%0 Journal Article
%1 noauthororeditor
%A He, Yizong
%D 2017
%J International Journal of Instrumentation and Control Systems
%K Industry automobile camouflage invisible stealth technology vehicle
%N 04
%P 01-06
%R 10.5121/ijics.2017.7401
%T FURTHER RESEARCH ON THE QUADRANGULAR PRISM OF SELF-INVISIBILITY (I)
%U http://aircconline.com/ijics/V7N4/7417ijics01.pdf
%V 07
%X A quadrangular prism of self-invisibility has been further researched for its applications to vehicles. Its structure has been calculated and demonstrated strictly and quantitatively, according to the laws of reflection of light and geometric principles. Furthermore, the invisible effect with respect to the position of an observed point was investigated when the observed point shifted from the most-clear position. Finally, a unique extrapolation is given and discussed with the comparison of their invisibility rates. Based on detailed analyses, some significant conclusions for such an application on vehicles have been obtained.
@article{noauthororeditor,
abstract = {A quadrangular prism of self-invisibility has been further researched for its applications to vehicles. Its structure has been calculated and demonstrated strictly and quantitatively, according to the laws of reflection of light and geometric principles. Furthermore, the invisible effect with respect to the position of an observed point was investigated when the observed point shifted from the most-clear position. Finally, a unique extrapolation is given and discussed with the comparison of their invisibility rates. Based on detailed analyses, some significant conclusions for such an application on vehicles have been obtained. },
added-at = {2018-03-06T06:55:10.000+0100},
author = {He, Yizong},
biburl = {https://www.bibsonomy.org/bibtex/248a1857e35b5234308aad50e7bf4f1ef/rockfort},
doi = {10.5121/ijics.2017.7401},
interhash = {5ff99e0603a8693ec924316dacb698c9},
intrahash = {48a1857e35b5234308aad50e7bf4f1ef},
issn = {2249 - 1147 [Online]; 2319 – 412X [Print].},
journal = {International Journal of Instrumentation and Control Systems },
keywords = {Industry automobile camouflage invisible stealth technology vehicle},
language = {English},
month = oct,
number = 04,
pages = {01-06},
timestamp = {2018-03-06T06:55:10.000+0100},
title = {FURTHER RESEARCH ON THE QUADRANGULAR PRISM OF SELF-INVISIBILITY (I)},
url = {http://aircconline.com/ijics/V7N4/7417ijics01.pdf},
volume = 07,
year = 2017
}