• KSCE Journal of Civil and Environmental Engineering Research
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• v.38 no.2
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• pp.227-235
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• 2018

In this study, we developed a relational formula for observing high - resolution rainfall using vehicle rain sensor. The vehicle rain sensor consists of eight channels. Each channel generates a sensor signal by detecting the amount of rainfall on the windshield of the vehicle when rainfall occurs. The higher the rainfall, the lower the sensor signal is. Using these characteristics of the sensor signal generated by the rain sensor, we developed a relational expression. In order to generate specific rainfall, an artificial rainfall generator was constructed and the change of the sensor signal according to the variation of the rainfall amount in the artificial rainfall generator was analyzed. Among them, the optimal sensor channel which reflects various rainfall amounts through the sensitivity analysis was selected. The sensor signal was generated in 5 minutes using the selected channel and the representative values of the generated 5 - minute sensor signals were set as the average, 25th, 50th, and 75th quartiles. The calculated rainfall values were applied to the actual rainfall data using the constructed relational equation and the calculated rainfall amount was compared with the rainfall values observed at the rainfall station. Although the reliability of the relational expression was somewhat lower than that of the data of the verification result data, it was judged that the experimental data of the residual range was insufficient. The rainfall value was calculated by applying the developed relation to the actual rainfall, and compared with the rainfall value generated by the ground rainfall observation instrument observed at the same time to verify the reliability. As a result, the rain sensor showed a fine rainfall of less than 0.5 mm And the average observation error was 0.36mm.

• Proceedings of the Korea Water Resources Association Conference
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• 2016.05a
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• pp.218-218
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• 2016

차량용 강우 센서는 강우측정이 어려운 지역의 강수량 측정이 가능하고, 실시간으로 강우정보를 생성해 내기 때문에 차세대 강우측정기로써 전망이 기대된다. 차량용 강우 센서는 일반적인 강우관측기와 달리 물 입자가 커질수록 빛의 산란이 크게 일어나는 현상을 이용한다. 산란이 크게 일어나면 강우 센서에 입력되는 값이 줄고 이는 강수가 높다는 것을 의미한다. 강우가 발생하면 자동차 전면 유리창에 부착된 강우 센서가 감지하는 우적량을 강우량으로 환산하는 방법을 통해 강우량을 산정한다. 강우가 쌓이고 나서 나중에 그 값을 측정하는 것이 아니라 즉시 그 값을 계산하여 강우량을 산출해야하기 때문에 단계가 복잡하다. 수식이 복잡할수록 오차가 발생할 확률도 크고 처리 속도도 느려지기 때문에 W-S-R 관계식을 이용하여 복잡한 수식을 간단하게 정리할 필요가 있다. AWS 기상관측소와의 비교 분석을 위해 차량에 우량계를 장착하였으며 W-S-R 관계식을 통하여 상관관계 분석하여 회귀식을 도출 한다. W-S-R 관계식이라 함은 와이퍼의 속도관계(W), 강우센서(S), 실제 강우(R)을 의미한다. 여기서 와이퍼의 속도관계는 와이퍼의 한 번 이동 했을 시 실제 강우는 실내강우발생 장비를 제작하여 10~80mm의 강우를 발생시키고 그 값은 우량계로 관측한다. 본 연구에서는 물 입자의 산란과 차량용 강우 센서 간의 관계식 도출과 W-S-R 관계식을 이용하여 실제 강우 정보와의 상관관계를 위한 분석을 통한 회귀식 개발을 목표로 한다.

• Journal of Korean Society of Forest Science
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• v.108 no.1
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• pp.59-66
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• 2019

This study was conducted to evaluate the effect of the synthetic forest road network by calculating the optimal road density and layout of the forest road network in order to construct the systematic road network in the forested area. For this, five comparative routes were additionally planed and compared through evaluation indicators. As a result, the optimum road density of the study site was estimated to be 18.4 m/ha, and the synthetic forest road network was the best in the four indicators such as average skidding distance, standard deviation of skidding distance, development index, and circuity factor. In addition, the synthetic forest road network was comparable to the main road network by about 4 %p in the timber volume available and potential area size for logging, but the construction cost of the road was about 20 %p lower. It showed a synthetic forest road network was better in terms of economy.