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查看 Scopus 资料
潘 利源
计算机学院
h-index
501
引用
10
H-指数
根据储存在 Pure 的刊物以及来自 Scopus 的引用文献数量计算
2017
2025
每年的科研成果
概览
指纹图谱
合作网络
科研成果
(20)
指纹图谱
深入其中 Liyuan Pan 为活跃的研究主题。这些主题标签来自此人的成果。它们共同形成唯一的指纹。
分类
加权
按字母排序
Computer Science
3d Scenes
33%
Adverse Weather
33%
Algorithm Selection
33%
Captured Image
16%
Computational Cost
33%
Computer Vision
33%
Depth Estimation
50%
Depth Information
22%
Depth Measurement
50%
Direction Motion
33%
Edge Information
16%
Energy Minimisation
27%
Estimation Algorithm
33%
Feature Extraction Network
16%
Flow Information
33%
Fourier Transform
33%
Frequency Domain
33%
Graph Convolutional Network
33%
Image Restoration
66%
Image Segmentation
66%
Indoor Scenario
33%
Information Content
16%
Information Loss
33%
Interaction Region
16%
Learning Community
33%
Learning System
33%
local feature
22%
Machine Learning
33%
Machine Learning Algorithm
33%
Matching Algorithm
16%
Minimization Problem
16%
Motion Estimation
33%
Motion Pattern
33%
Object Detection
33%
Optimization Problem
33%
Regularization
66%
Relative Motion
33%
Research Direction
33%
Resolution Depth Map
33%
Robotics Application
16%
Scene Structure
55%
Similarity Measurement
33%
stereo camera
16%
Stereo Matching
16%
Synthetic Datasets
27%
Temporal Resolution
16%
Textureless Region
16%
Validation Set
33%
Weather Condition
33%
World Application
16%
Engineering
Blur Model
33%
Blurred Image
33%
Camera Motion
33%
Constrains
16%
Convex Optimization Problem
11%
Demonstrates
31%
Dynamic Object
33%
Effective Approach
11%
Experimental Result
27%
Feature Extraction Network
16%
Fourier Transform
33%
Frame Rate
50%
Frequency Domain
33%
Good Result
33%
Ground Biomass
11%
Image Intensity
16%
Image Motion
33%
Image Pair
33%
Image Region
33%
Image Restoration
33%
Information Content
16%
Interaction Region
16%
Lighting Condition
11%
Microsecond
27%
Motion Blur
11%
Motion Estimation
33%
Objective Function
16%
Optimisation Problem
50%
Optimization Method
11%
Output Image
11%
Rate Video
33%
Real Data
50%
Real Image
11%
Real World Application
33%
Regularization
66%
Relative Motion
33%
Scene Structure
8%
Simple Approach
11%
Single Image
100%
State-of-the-Art Method
66%
Temporal Resolution
16%
Video Reconstruction
33%