跳至主導覽
跳至搜尋
跳過主要內容
國立中央大學 首頁
說明與常見問題
English
中文
首頁
人才檔案
研究單位
研究計畫
研究成果
資料集
榮譽/獲獎
學術活動
新聞/媒體
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
蘇 木春
教授, 資訊電機學院院長
資訊工程學系
電子郵件
muchun
csie.ncu.edu
tw
網站
http://cilab.csie.ncu.edu.tw/
h-index
3162
引文
28
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。
1991 …
2025
每年研究成果
概覽
指紋
網路
研究計畫
(24)
研究成果
(185)
類似的個人檔案
(6)
指紋
查看啟用 Mu-Chun Su 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
3D Arm Movements
9%
Accuracy Rate
10%
Cluster Analysis
13%
Cluster Validity Index
12%
Clustered Data
15%
Clustering Algorithm
23%
Composite Neural Network
58%
Construction Companies
9%
Continuous Speech
9%
Expert System
12%
Feature Map
15%
Fuzzy Neural Network
34%
Fuzzy Rules
14%
Fuzzy Systems
20%
Genetic Algorithm
9%
Hand Gesture
13%
Human-computer Interface
13%
HyPer
13%
If-then Rules
11%
K-means Algorithm
14%
Knowledge Acquisition
10%
Map-based
19%
Medical Diagnosis
18%
Monitoring System
10%
Neural Network
70%
Neural Network Applications
24%
Neuro-fuzzy Approach
15%
Non-metric Distance
10%
Novel Class
20%
Number of Clusters
10%
Optimization Algorithm
14%
Optimization Approach
13%
Particle Swarm Optimization
15%
People with Severe Disabilities
15%
Production Rules
10%
Projection Algorithm
12%
Reinforcement Learning Approach
9%
Rule Extraction
13%
Rule Extractor
9%
Secant pile Wall
9%
Self-organizing Feature Maps
50%
Synchronized Phasor Measurements
9%
Systems-based
11%
Taiwan
16%
Time Alignment
9%
Validation Metrics
10%
Vestibular Disorders
9%
Vestibular Rehabilitation
9%
Virtual Reality
14%
Virtual Reality Exposure Therapy
9%
Computer Science
Case Study
6%
Cluster Analysis
14%
Cluster Validity
9%
Clustered Data
10%
Clustering Algorithm
23%
Clustering Result
7%
Convolutional Neural Network
5%
Decision-Making
6%
Deep Learning Method
7%
Deep Neural Network
9%
Distance Measure
6%
Experimental Result
18%
facial image
6%
Genetic Algorithm
14%
hand gesture recognition
9%
handwritten digit recognition
9%
Human Computer Interfaces
9%
Jacobian matrix
6%
Keyboard
7%
Learning Algorithm
11%
Learning Companion
6%
Learning System
17%
Machine Learning
18%
Mean Algorithm
15%
Medical Diagnosis
9%
Modified Version
6%
Monitoring System
8%
Morphing Image
6%
Neural Network
100%
neuro-fuzzy
27%
neuro-fuzzy approach
9%
Optimization Algorithm
10%
Organizing Neural Network
6%
Particle Swarm Optimization
15%
Pattern Recognition
8%
Performance Evaluation
7%
Personal Computer
6%
Phasor Measurement
6%
Projection Data
9%
Recognition Algorithm
6%
Recognition Rate
7%
Recognition System
9%
Reinforcement Learning
6%
Rule Extraction
7%
self-organizing feature map
42%
Speech Recognition
10%
Tracking System
6%
Training System
6%
Vector Quantization
7%
Virtual Reality
13%
Engineering
Anchor Point
6%
Artificial Intelligence
5%
Backlight
6%
Classification Rule
5%
Clustering Algorithm
18%
Color Quantization
6%
Continuous Speech Recognition
6%
Convolutional Neural Network
6%
Experimental Result
21%
Feature Space
6%
Fuzzy Network
6%
Fuzzy Rules
16%
Fuzzy System
17%
Genetic Algorithm
11%
Healing Mechanism
6%
Human Expert
7%
Illustrates
36%
K-Means Classification Algorithm
10%
Learning Algorithm
7%
Learning Approach
9%
Main Parameter
7%
Matching Process
6%
Monitoring System
6%
Network Parameter
8%
Nodes
9%
Optimal Sequence
6%
Particle Swarm Optimization
12%
Pattern Recognition
10%
Phasor Measurement
6%
Pile Wall
9%
Power Engineering
10%
Powerful Method
6%
Production Rule
10%
Recognition Problem
7%
Recognition Rate
7%
Reinforcement Learning
9%
Resource Allocation Problem
6%
Self-Organizing Map
9%
Simple Approach
9%
Simulation Result
5%
Speech Data
6%
Transients
9%
Virtual Reality
7%
