跳至主導覽
跳至搜尋
跳過主要內容
國立陽明交通大學研發優勢分析平台 首頁
English
中文
首頁
人員
單位
研究成果
計畫
獎項
活動
貴重儀器
影響
按專業知識、姓名或所屬機構搜尋
查看斯高帕斯 (Scopus) 概要
羅 佳明
教授
土木工程學系
h-index
h10-index
h5-index
665
引文
14
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
420
引文
13
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
20
引文
3
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
2009
2024
每年研究成果
概覽
指紋
網路
計畫
(7)
研究成果
(40)
類似的個人檔案
(1)
指紋
查看啟用 Chia-Ming Lo 的研究主題。這些主題標籤來自此人的作品。共同形成了獨特的指紋。
排序方式
重量
按字母排序
Keyphrases
Alluvial Fan
34%
Area-based
14%
Cataclinal Slope
17%
Colluvium
20%
Debris
13%
Debris Flow
32%
Deep-seated Landslide
18%
Deformation Characteristics
36%
Deformation Failure
14%
Disaster Prevention
33%
Discrete Element Method
70%
Failure Characteristics
29%
Failure Mechanism
25%
Failure Process
18%
Foliation
42%
Friction Coefficient
13%
Gravitational Deformation
19%
Hazard Assessment
14%
Hazard Zoning
21%
Houyenshan
14%
Kinematic Model
14%
Kinematic Process
16%
Landscape Evolution
21%
Landslide
100%
Landslide Evolution
13%
Landslide Hazard
22%
Landslide Movement
15%
Large-scale Landslide
16%
Numerical Model
17%
Numerical Simulation
39%
Physical Model
21%
Physical Model Test
26%
Physical Modeling
15%
Potential Landslide
15%
Progressive Development
14%
Project Planning
17%
Rainfall
20%
Rainfall Effects
13%
Rainfall-induced Failure
14%
Rainfall-induced Landslide
14%
Remote Sensing Image
15%
Rock Slope
18%
Rockfall
20%
Simulation Performance
14%
Slate Slope
45%
Source Area
15%
Surface Water
16%
Taiwan
83%
Talus Deposit
14%
Typhoon Megi
17%
Engineering
Applicability
7%
Area Source
14%
Coefficient of Friction
21%
Creep
14%
Deformation Characteristic
30%
Deformation Mechanism
7%
Deformation Model
7%
Deformation Zone
17%
Deposition Behavior
7%
Digital Elevation Model
14%
Dimensional Discrete
7%
Dip Angle
10%
Disaster Prevention
9%
Discrete Element
75%
Echo Method
7%
Element Method
41%
Failure Initiation
7%
Failure Mechanism
38%
Failure Process
17%
Finite Difference Method
7%
Groundwater Level
14%
High Resolution
10%
Impact Force
7%
Induced Failure
14%
Influencing Factor
7%
Joints (Structural Components)
10%
Kinematic Model
14%
Landslide Activity
7%
Materials Degradation
10%
Materials Mechanics
7%
Model Test
32%
Multiscale
7%
Numerical Model
23%
Particle Flow Code
9%
Physical Model
50%
Physical Modeling
15%
Potential Failure
14%
Rainfall Infiltration
7%
Road
10%
Rock Mass
7%
Rock Slope
14%
Rockbolts
7%
Shear Failure
17%
Shear Strength
7%
Side Slope
7%
Simulation Result
12%
Slope Angle
20%
Slope Failure
23%
Slope Stability
17%
Surface Water
24%
Earth and Planetary Sciences
Aerial Photograph
5%
Alluvial Fan
34%
Coefficient of Friction
8%
Colluvial Deposit
32%
Cyclones
34%
Debris Avalanche
16%
Debris Flow
38%
Digital Elevation Model
16%
Disaster Prevention
30%
Discrete Element Method
34%
Engineering Geology
7%
Failure Mechanism
33%
Field Study
7%
Field Survey
9%
Finite Difference Method
7%
Geological Hazard
5%
Geological Structure
7%
Geological Survey
10%
Geomorphological Response
9%
Gully Erosion
18%
Hazard Area
7%
Headwater
10%
Image Interpretation
7%
Lagrangian Analysis
7%
Landscape Evolution
21%
Model Test
14%
Morphology
5%
Mountainous Area
5%
Natural Hazard
7%
Numerical Model
12%
Numerical Modeling
10%
Particle Image Velocimetry
7%
Photogrammetry
7%
Project Planning
16%
Regional Geography
27%
Regolith
6%
Relief Map
5%
Remote Sensing
25%
Runoff
7%
Site Investigation
10%
Slope Failure
12%
Slope Stability
9%
Surface Water
20%
Taiwan
98%
Terrain Analysis
14%
Toppling
7%
Water Flow
7%
Wave Velocity
7%
Wind Wave
5%
Zonation
14%
