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Kan Li
School of Computer Science and Technology
h-index
1363
Citations
19
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
1999
2024
Research activity per year
Overview
Fingerprint
Network
Research output
(163)
Fingerprint
Dive into the research topics where Kan Li is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Weight
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Computer Science
Action Recognition
22%
Adaptive Algorithm
54%
Art Performance
49%
Biased Random-Walks
27%
Centrality Measure
20%
Clustering Algorithm
87%
Clustering Method
34%
Cognitive Skill
27%
Collective Activity
20%
Community Detection
60%
Community Member
27%
Complex Networks
40%
Concept Drift
27%
Data Mining
27%
Dialogue systems
21%
Diffusion Model
27%
Dimension Data
27%
Dirichlet Process
27%
Experimental Result
100%
fault-tolerance
26%
fuzzy c mean
22%
Fuzzy Clustering
40%
Generative Adversarial Networks
27%
Generative Model
27%
Geodesic Distance
22%
Greedy Algorithm
22%
Hierarchical Model
27%
Image Segmentation
27%
Information Diffusion
32%
Large Language Model
27%
Learning Framework
31%
Network Structures
47%
Non-Functional Requirement
27%
Online Clustering
27%
Online Social Networks
67%
Peer to Peer Networks
27%
Performance Model
30%
Pose Estimation
40%
Quality Requirement
23%
Random Walk
20%
Recommender Systems
40%
Regularization
20%
Research Direction
27%
Social Network
58%
Spectral Clustering
47%
Statistical Model
20%
Supervised Method
27%
Support Vector Machine
60%
Temporal Information
33%
Text Categorization
40%
Engineering
Aerial Image
13%
Capacity Factor
13%
Classification Method
13%
Cognitive Skill
27%
Comparability
13%
Constrains
15%
Corner Point
13%
Data Show
13%
Demonstrates
20%
Dimensionality
9%
Dirichlet
54%
EM Algorithm
13%
Engineering Discipline
13%
Expectation Maximization Algorithm
9%
Experimental Result
36%
Feedback Control System
13%
Filtration
13%
Frequency Response
13%
Hotels
13%
Implementation Process
13%
Interaction Matrix
13%
Learning Task
13%
Limitations
13%
Local Optimum
13%
Long Short-Term Memory
13%
Loss Function
13%
Macroscopic Model
13%
Max
13%
Maximization
38%
Maximum a Posteriori
24%
Metrics
13%
Model Window
13%
Multimode
13%
Nodes
40%
Noise Tolerance
13%
Open Domain
13%
Optimization Technique
13%
Overlay Network
9%
Parameter Estimate
18%
Posterior Probability
13%
Rate Loss
13%
Real Application
27%
Route Planning
13%
Single Feature
13%
Stability Margin
13%
Stabilization Problem
13%
Support Vector Machine
13%
Supports
27%
Tasks
28%
Transmissions
20%
