• Journal of the Korean Institute of Intelligent Systems
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• v.11 no.2
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• pp.119-126
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• 2001

시간 페트리 네트는 실시간 값을 갖는 이산사건 시스템을 모델링하고 해석하기 위한 방법중 하나이다. 시간 페트리 네트는 각 트랜지션에 대하여 두 개의 시간 값, 최초 발화 시간 $\alpha$$_{i}$와 최종 발화 시간 $\beta$$_{i}$를 갖는다. 본 논문에서는 최적 발화 시간을 결정하기 위하여 퍼지 이론을 적용한 퍼지 트랜지션 시간 페트리 네트를 제안하였다. 퍼지 트랜지션 시간 페트리 네트의 트랜지션 점화 시간 ${\gamma}$$_{i}$는 고정 최초 발화 시간 $\alpha$$_{i}$와 고정 최종 발화 시간 $\beta$$_{i}$ 사이에서 어떠한 복잡한 계산 절차나 임의의 조건 없이 입력정보를 이용한 퍼지 이론으로부터 결정된다. 교차로에서 교통 신호제어기는 퍼지 트랜지션 시간 페트리 네트에 의하여 모델링되고 해석되었다. 퍼지 트랜지션 시간 페트리 네트의 중요한 특성은 교통 신호기의 모델링과 시뮬레이션에 의해서 보여진다. 의해서 보여진다.

• The Journal of the Acoustical Society of Korea
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• v.23 no.2
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• pp.162-172
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• 2004

This study investigates the following three things through a production experiment and acoustic analysis: 1) relationship between speech rate and the segment duration in Korean, 2) relationship between speech rate and spectral characteristics of vowels, i. e. undershoot, and 3) correlation between the vowel duration and undershoot. The results showed that the faster the speech rate nab, the shorter the duration of syllables and segments was. A few speakers were affected by speech rate in the durational ratios between closure and aspiration in a stop and between Towel and consonant in a syllable. Closure duration and vowel duration were more affected compared to aspiration and consonant duration, respectively. Speakers showed some differences in the extent to which speech rate affected vowel undershoot, implying that speakers used different production mechanisms for spectral characteristics of vowels: Some speakers speeded up movement of articulatory organs according to speech rate increase while some kept it constant regardless of speech rate change.

• Fire Science and Engineering
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• v.31 no.5
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• pp.1-6
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• 2017

The fire and explosion properties of combustible materials are necessary for the safe handling, storage, transportation and disposal. Typical combustion characteristics for process safety include auto ignition temperature(AIT). The AIT is an important index for the safe handling of combustible liquids. The AIT is the lowest temperature at which the material will spontaneously ignite. In this study, the AITs and ignition delay times of n-pentanol and p-xylene mixture were measured by using ASTM E659 apparatus. The AITs of n-pentanol and p-xylene which constituted binary system were $285^{\circ}C$ and $557^{\circ}C$, respectively. The experimental AITs and ignition delay times of n-pentanol and p-xylene mixture were a good agreement with the calculated AITs and ignition delay times by the proposed equations with a few A.A.D. (average absolute deviation). Therefore, it is possible to estimate the AITs and ignition delay times in other compositions of n-pentanol and p-xylene mixture by using the predictive equations which presented in this study.

• Proceedings of the Korean Information Science Society Conference
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• 2011.06c
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• pp.225-227
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• 2011

최근 스마트폰 및 게임, 로봇, 어플리케이션 등 다양한 분야에서 음성 기반 채팅 시스템이 활용되고 있다. 하지만 그 성능은 아직 만족스럽지 못하다. 본 논문은 다양한 시스템 발화를 위해 문장의 내용어, 카테고리, 발화시간, 화자 정보 등을 이용하여 직전 발화와 현재 발화를 비교한다. 동일한 발화일 경우 해당 카테고리 내 다른 문장을 발화하여 발화의 다양성을 확보하고, 적용 카테고리가 아닐 경우 댓구를 이용하여 대화를 다른 주제로 유도한다. 실험 결과 중복 발화에 대해 다양한 응답을 확인 할 수 있었다.

• Fire Science and Engineering
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• v.22 no.3
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• pp.234-238
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• 2008

Autoignition suppression of hydrogen/air premixed mixtures by $CF_3CHFCF_3(HFP)$ was investigated computationally. Numerical simulation was performed in isobaric and homogeneous system to evaluate the induction times. The detailed chemistry of 93 species and 817 reaction mechanism was introduced for hydrogen/air/HFP mixtures. The result of pure hydrogen/air mixture show that the resulting value of induction time depends relatively weakly on the definition used event though there are various criteria for defining the induction time such as the inflection of temperature, OH and $O_2$ concentrations generally. Also, the autoignition temperature of $H_2/air$ mixture is estimated to about 850K, which is corresponds to the literature value. In the case of HFP addition in $H_2/air$ mixture, the results shows that there are several inflection points of radical concentration, and hence it might be to use the temperature for defining ignition delay. When HFP is added to stoichiometric $H_2/air$ mixture, the effect of ignition delay is outstanding above 10% HFP concentration. As HFP concentration increases, both dilution and chemical effects contribute to delay the ignition. Also, the chemical effect on the ignition delay is more considerable with the higher HFP concentration.

• Journal of the Society of Disaster Information
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• v.19 no.2
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• pp.292-304
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• 2023

Purpose: This study was conducted to obtain experimental data for the establishment of preventive measures against fire, as large and small fire accidents occur at production and storage sites of superabsorbent polymers developed for the convenience of daily life. Method: The sample container was fixed at 0.2m in both length and width, and was shaped into a rectangular cuboid with heights of 3cm, 5cm, 7cm, and 14cm to access an infinite flat plane. The sample container was fixed in the center of a thermostatic bath that was heated to a predetermined temperature according to a preset temperature control program. If the central temperature of the sample rose more than 20℃ above the set temperature, it was determined to have 'ignited', and if it remained similar to the set temperature, it was determined to have 'unignited'. Result: The critical autoignition temperature was calculated to be 212.5℃ for a sample container with a height of 3cm, 202.5℃ for 5cm, 192.5℃ for 7cm, and 177.5℃ for 14cm. The ignition induction time to reach the highest temperature was approximately 42hours for 3cm, 91hours for 5cm, 151hours for 7cm, and 300hours for 14cm. Conclusion:① As the size of the sample container increased, the autoignition temperature decreased and the ignition induction time to reach the highest temperature increased. ② The apparent activation energy was calculated to be 39.30kcal/mol, with a correlation of 99.5%.

• Journal of the Society of Disaster Information
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• v.19 no.2
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• pp.280-291
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• 2023

Purpose: As fire accidents happen at the production and storage sites of superabsorbent polymers for convenience of daily life, an experimental study was conducted to secure basic data to establish practical preventive measures against them. Method: The sample container (20cm width × 20cm length) was made into a rectangular cuboid with the heights of 3cm, 5cm, 7cm, and 14cm, respectively, to allow access to the infinite flat plane. The front and back of the container were covered with a 300-mesh stainless steel mesh for one-dimensional heat transfer. The sample container was placed in the center of the thermostatic bath, which was heated to a predetermined temperature by setting the thermostat program in advance, and it was determined to be 'ignited' when the central temperature of the sample rose by more than 20℃ above the set temperature, and "unignited" when it was maintained at an approximate value of the set temperature. Result: The critical autoignition temperature was calculated to be 217.5℃ when the height of the sample container was 3 cm, 212.5℃ when it was 5 cm, 202.5℃ when it was 7cm, and 187.5℃ when it was 14cm. The ignition induction time to reach the maximum temperature was 34hours for 3cm, 76hours for 5cm, 143hours for 7cm, and 318hours for 14cm. Conclusion: ① As the size of the container increased, the autoignition temperature decreased and the induction time to reach the maximum temperature increased. ② An apparent activation energy was calculated to be 44.92kcal/mol, with a correlation of 96.93%.

• Fire Science and Engineering
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• v.33 no.1
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• pp.7-14
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• 2019

While wood pellets are often used as a fuel in thermoelectric power plants and firewood boilers, there is a risk of ignition temperature when strong wood pellets, which have a high calorific value, for prolonged periods of time. In this research study, the minimum auto ignition temperature and the ignition limitation temperature according to the change in flow rate depending on the size of the test vessel were calculated, and based on these temperatures, the apparent activation energy was calculated to predict the combustive properties of the material. The apparent activation energy was calculated to be 190.224 kJ/mol. The thicker the sample is storage in the vessel, the longer the ignition induction time was due to the increased difficulty in heat being transferred from the surface of the vessel to the middle section area of the vessel. For vessel of the same size, the higher the flow rate, the lower the auto ignition temperature was. It was also confirmed that increases in the size of the test vessel lowered the auto ignition temperature and increased the ignition induction time.

• Journal of the Korean Institute of Gas
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• v.17 no.2
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• pp.21-27
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• 2013

The lowest values of the AITs(Autoignition temperatures) in the literature were normally used fire and explosion protection. In this study, the AITs of n-Propanol+n-Octane system were measured from ignition delay time(time lag) by using ASTM E659 apparatus. The AITs of n-Propanol and n-Octane which constituted binary systems were $435^{\circ}C$ and $218^{\circ}C$, respectively. The experimental ignition delay time of n-Propanol+n-Octane system were a good agreement with the calculated ignition delay time by the proposed equations with a few A.A.D.(average absolute deviation).

• Proceedings of the Korean Society for Cognitive Science Conference
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• 2006.06a
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• pp.15-19
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• 2006

이 논문은 국어 간투사 '아'와 '어'의 운율 유형을 살펴보고, 그 운율 유형이 담화상의 기능과 어떤 연관을 갖는지 살펴보는 것을 목적으로 하였다. 간투사의 지속 시간은 후행 발화의 존재 여부에 따라 달라지면 '아'의 경우 '어'보다 뒤에 강세구가 더 많이 형성되는 양상을 보였다. '아'는 강세구 성조 LLa, LHa, 또는 경계 성조 L+L%, L+HL%로 나타났으며, '어'의 경우 경계 성조만 L+L%, L+HL%, HH%으로 나타났다. 두 간투사 모두 발화 상황이나 현재 상황에 대한 의외성이 클수록 발화 지속 시간이 짧고, 구 성조나 경계성조가 고조로 나타난다. 반대로 화자가 발화를 이해하는 정도가 깊고 이미 알고 있는 것을 다시 상기한다거나 오해를 해결했을 경우, 발화 지속 시간이 길어지고, 운율은 저조에서 수평조로 형성된다.