@article{Kim_Kim_2022, title={Detection the Fulminant Position on Pulse Changing-State of Porous Material}, volume={10}, url={https://ijisae.org/index.php/IJISAE/article/view/2246}, abstractNote={<p>The boom changing-state technique is to be immixture the adjacent-angle fulminant-shock status of the glaring-classification awakening level (GCAL) on the boom awakening. Awakening imagery system for boom awakening condition is associated with the fulminant-shock condition, to inspection a background of glaring dot, that are found of the boom value with background dot by the fulminant form. Concept of awakening is associated to reference of glaring-classification level with changing-state by boom shock system on the porous material. Symbolizing-angle of adjacent changing-state of GCAL of the medium-minimum by fulminant-shock imagery, boom background dot was the boom value of the far changing-state of the Bo-AI-FA-φ<sub>MED-MIN </sub>with (5.80±1.20) units, boom value of changing-state of the Bo-AI-CO-φ<sub>MED-MIN </sub>with (4.06±(-0.04)) units, boom value of the changing-state of the Bo-AI-BO-φ<sub>MED-MIN </sub>with 0.91±0.07 units, boom value of changing-state of the Bo-AI-VI-φ<sub>MED-MIN </sub>with 0.18±(-0.03) units. Fulminant shock is look into adjacent-angle with the fulminant-shock imagery by background the boom awakening level on the GCAL. We are supply the glaring-classification imagery with the awakening level system. So, We can possible to imagery from classification and using boom data of fulminant shock awakening system.</p>}, number={1s}, journal={International Journal of Intelligent Systems and Applications in Engineering}, author={Kim, Jeong-lae and Kim, Kyu-dong}, year={2022}, month={Oct.}, pages={125 –} }