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통계 분석을 통한 산사태 토석류 전이규준 모델
윤석 ( Seok Yoon )
이승래 ( Seung Rae Lee )
강신항 ( Sin Hang Kang )
박도원 ( Do Won Park )
2015년
활용도 Analysis
논문 Analysis
연구자 Analysis
활용도 Analysis
논문 Analysis
연구자 Analysis
활용도
공유도
영향력
논문상세정보
저자
윤석 ( Seok Yoon )
이승래 ( Seung Rae Lee )
강신항 ( Sin Hang Kang )
박도원 ( Do Won Park )
주제어
Debris-flow
landslide
Logistic regression analysis
Mobilization criterion
참고문헌( 40)
유사주제 논문( 135)
landslide 80건
logistic regression analysis 52건
debris-flow 3건
인용/피인용
통계 분석을 통한 산사태 토석류 전이규준 모델
' 통계 분석을 통한 산사태 토석류 전이규준 모델' 의 주제별 논문영향력
논문영향력 요약
주제
debris-flow
landslide
logistic regression analysis
mobilization criterion
동일주제 총논문수
논문피인용 총횟수
주제별 논문영향력의 평균
139
0
0.0%
자세히
주제별 논문영향력
논문영향력
주제
주제별 논문수
주제별 피인용횟수
주제별 논문영향력
주제어
debris-flow
4
0
0.0%
landslide
81
0
0.0%
logistic regression analysis
53
0
0.0%
mobilization criterion
1
0
0.0%
계
139
0
0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수
0
닫기
' 통계 분석을 통한 산사태 토석류 전이규준 모델'
의 참고문헌
항공사진을 이용한 산사태 탐지 및 인공신경망을 이용한 산사태 취약성 분석
오현주
대한원격탐사학회지 26 (1) : 47 ~ 57
[2010]
지형 요소를 고려한 백두산 지역의 위험도 분석
최은경
한국지구과학회지 34 (7) : 605 ~ 614
[2013]
이원이항계수치자료의 로지스틱회귀분석
안해일
산업경영시스템학회지 35 (3) : 118 ~ 128
[2012]
유역별 토석류 위험도 평가 모델
유한중
한국방재학회논문집 12 (4) : 67 ~ 76
[2012]
산사태 및 토석류 발생지점에서의 지형학적 특성 차이 분석
강신항
한국방재학회논문집 15 (2) : 1 ~ 10
[2015]
Towards a Real-time Susceptibility Assessment of Rainfall-induced Shallow Landslides on a Regional Scale
Montrasio, L.
Natural Hazards Earth Systesm 11 : 1927 ~ 1947
[2011]
The physics of debris flows
Iverson, R.M.
Review of Geophysics 35 (3) : 245 ~ 296
[1997]
The Rainfall Intensity-duration Control of Shallow Landslides and Debris Flows
Caine, N.
Geogr. Ann. A62 : 23 ~ 27
[1980]
The Influence of Hillslope Shape on Debris-Flow Initiation
Wieczorek, G. F.
First International Conference Water Resources Engineering Division, SanFrancisco : 21 ~ 31
[1997]
The 1987 Debris Flows in Switzerland: Documentation and Analysis
Rickenmann, D.
Geomorphology 8 (2~3) : 175 ~ 189
[1993]
Statistical Analysis by Self-study
Kim, H. C.
Hakjisa Publishing Corporation
[2013]
Soil Slips, Debris Flows, and Rainstorms in the Santa Monica Mountains and Vicinity, Southern California
Campbell, R. H.
[1975]
Slope Instability
Johnson, A. M.
Wiley : 257 ~ 361
[1984]
Simulation of landslides and debris flows at regional scale using coupled model
Park, Do Won
한국과학기술원
[2014]
Quantitative Assessment of Landslide Susceptibility on a Regional Scale using Geotechnical Databases Developed from GIS-based Maps
Park, D. W.
Disaster Advances 7 (5) : 25 ~ 38
[2014]
Probabilistic Analysis of Unsaturated Soil Properties for Korean Weathered Granite Soil
Jeon, K. H.
24th KKCNN Symposium on Civil Engineering
[2010]
Probabilistic Analysis of Soil-water Characteristic Curves
Phoon, K. K.
ASCE Journal of Geotechnical and Geoenvironmental Engineering 136 (3) : 445 ~ 455
[2010]
Multivariate Data Analysis
Hur, M.
Hannarae Publishing Corporation
[2013]
Morphometric Analysis of Debris Flows and Their Source Areas Using GIS
Chen, C. Y.
Geomorphology 129 : 387 ~ 397
[2011]
Mobility and Statistics and Automated Hazard Mapping for Debris Flows and Rock Avalanches : 7 ~ 5276
Griswold, J. P.
[2008]
Mechanical Characteristics of Debris Flow
Takahashi, T.
Journal of the Hydraulic Division 104 : 1153 ~ 1169
[1978]
Logistic Regression : Concept and Application
Cokluk, O.
Theory and Practice 10 (3) : 1397 ~ 1407
[2010]
Length-slope Factors for the Revised Universal Soil Loss Equation : Simplified Method of estimation
Moore, I. D.
Journal of soil and water conservation 47 : 423 ~ 428
[1992]
Landslides Analysis and Control, Special Report 176: Transportation Research Board
Varnes, D. J.
National Academy of Sciences : 11 ~ 33
[1978]
Field Observations of a Debris Flow Event in the Dolomites
Berti, M.
Geomorphology 29 : 265 ~ 274
[1999]
Factors Explaining the Spatial Distribution of Hillslope Debris Flows
Lorente, A.
Mountain Research and Development 22 (1) : 32 ~ 39
[2002]
Estimation of Saturated Hydraulic Conductivity of Korean Weathered Granite Soils Using a Regression Analysis
Yoon, S.
[2015]
Estimation of Potential Debris Flows and Their Hazardous Zones: Soft countermeasures for a disaster
Takahshi, T.
Journal of Natural Disaster Science 3 (1) : 57 ~ 89
[1981]
Easy Flow Regression Analysis
Lee, I. H.
Hannarae Publishing Corporation
[2014]
Development of landslide prediction technology and damage mitigation countermeasures : 124 ~ 132
Korea Institute of Geoscience and Mineral Resources
[2008]
Development of Landslide-risk Prediction Model Through Database Construction
Lee, S. W.
Journal of Korean Geotechnical Society 28 (4) : 23 ~ 33
[2012]
Debrisflow mobilization from landslides
Iverson, R.M.
Annual Review of Earth and Planetary Sciences 25 : 85 ~ 138
[1997]
Debris Flow Initiation and Sediment Recharge in Gullies
Brayshaw, D.
Geomorphology 109 : 122 ~ 131
[2009]
Debris Flow Control Structures for Forest Engineering
Van Dine, D.
[1996]
Chalk flows from the coastal cliffs of northwest Europe
Hutchinson, J. N.
Reviews in Engineering Geology 15 : 257 ~ 302
[2002]
Applied Logistic Regression
Hosmer, D. W.
John Wiley &Sons
[2005]
An Analysis of Variance Test for Normality (complete samples)
Shapiro, S. S.
Biometrika 52 : 591 ~ 611
[1965]
America's Climate Choices
Board on Atmospheric Sciences and Climate (BASC)
The National Academies Press
[2011]
A Modified Poisson Regression Approach to Prospective Studies with Binary Data
Zou, G.
American Journal of Epidemiology 159 (7) : 702 ~ 706
[2004]
A Model for Debris Flow
Johnson, A. M.
Pennsylvania State Univ.
[1965]
' 통계 분석을 통한 산사태 토석류 전이규준 모델'
의 유사주제(
) 논문