Kuk-Il Han scite author profile

Treatments for detection by infrared (IR) signals are higher than for other signals such as radar or sonar because an object detected by the IR sensor cannot easily recognize its detection status. Recently, research for actively reducing IR signal has been conducted to control the IR signal by adjusting the surface temperature of the object. In this paper, we propose an active IR stealth algorithm to synchronize IR signals from the object and the background around the object. The proposed method includes the repulsive particle swarm optimization statistical optimization algorithm to estimate the IR stealth surface temperature, which will result in a synchronization between the IR signals from the object and the surrounding background by setting the inverse distance weighted contrast radiant intensity (CRI) equal to zero. We tested the IR stealth performance in mid wavelength infrared (MWIR) and long wavelength infrared (LWIR) bands for a test plate located at three different positions on a forest scene to verify the proposed method. Our results show that the inverse distance weighted active IR stealth technique proposed in this study is proved to be an effective method for reducing the contrast radiant intensity between the object and background up to 32% as compared to the previous method using the CRI determined as the simple signal difference between the object and the background.

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Study on thermal behavior of a cuboid on reflecting platforms under transient weather conditions

Kil

Han

Kim

2014

J Mech Sci Technol

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Fire Tests for Representative Combustibles in Residential Facilities for the Development of Field Commander Training Content

Moon¹,

Yang²,

Han³

et al. 2020

Fire Sci. Eng.

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In this study, the fire patterns, heat emissions, and smoke generated by means of fire tests developed for representative combustibles in residential facilities were analyzed from among seven fire types. These combustibles were selected in a previous study to simulate real-world situations and professionalism required while dealing with these types of fires and develop the field commander training content. Consequently, the maximum heat dissipation was recorded as 728.6 kW, followed by the dissipation measured from the combination of a mattress and electric blanket, desk and chair, and TV and mattress. The total heat emission of sofas (226.2 MJ) and the combination of mattress and electric blanket (2,259.5 m<sup>2</sup>) was recorded. In this study, the scope of the tests was limited to the fire characteristics and characteristics of the combustibles, and it is expected that a simulation using various data acquisition methods and FDS would be performed and evaluated at a later stage.

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Development of a Generalized Software for IR Image Generation and Analysis

Han¹,

Kim²,

Choi³

et al. 2017

KIISE Transactions on Computing Practices

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Kuk-Il Han

Experimental verification of active IR stealth technology by controlling the surface temperature using a thermoelectric element

Development of an inverse distance weighted active infrared stealth scheme using the repulsive particle swarm optimization algorithm

Study on thermal behavior of a cuboid on reflecting platforms under transient weather conditions

Fire Tests for Representative Combustibles in Residential Facilities for the Development of Field Commander Training Content

Development of a Generalized Software for IR Image Generation and Analysis

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