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骨創傷手術計劃雲端運算之醫學影像模擬與積層製造技術發展(3/3)
Lai, Jiing-Yih
(PI)
機械工程學系
概覽
指紋
研究成果
(3)
指紋
探索此專案觸及的研究主題。這些標籤是根據基礎獎勵/補助款而產生。共同形成了獨特的指紋。
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Keyphrases
Calcaneal Fracture
100%
Deep Learning
100%
Bone Fracture
62%
Sanders Classification
50%
Automated Detection
50%
Automated Classification
50%
Differential Data
50%
CT Images
50%
Speeded up Robust Features
50%
Computed Tomography Images
50%
Data Augmentation
50%
Learning Data
50%
Overlapping Meshes
50%
Comminuted
50%
Defect Removal
50%
3D Printed Parts
50%
Sanders
37%
Residual Network
37%
Calcaneus
37%
Computer Use
25%
Calcaneal
25%
Computer-aided Classification
25%
Network Classification
25%
Principal Coordinate Analysis (PCoA)
25%
Training Image
25%
Fracture Type
25%
Training Methods
25%
Contact Region
25%
Computer-aided System
12%
Artificial Images
12%
Rotation Distortion
12%
Differential Training
12%
Augmented Training
12%
Background Classification
12%
Performance Accuracy
12%
Visual Geometry Group Network
12%
Deep Learning Network
12%
Deep Learning Neural Network
12%
Bone Fracture Detection
12%
Tarsal Bones
12%
Anatomical Complexity
12%
Edge Contour
12%
Visual Geometry Group
12%
Binary Hashing
12%
Network Depth
12%
Deep CNN Models
12%
Fracture Location
12%
Neural Network Architecture
12%
Analysis Filter
12%
Lack of Consensus
12%
Sagittal
12%
Area Matching
12%
Difficult-to-treat
12%
Human-based
12%
Feature Algorithm
12%
Augmentor
12%
Bone Fracture Classification
12%
Deep Learning Architectures
12%
Classification Accuracy
12%
Network Performance
12%
Deep Convolutional Neural Network (deep CNN)
12%
Classification System
12%
Real Patients
12%
Contour Tracing
12%
Computer-assisted
12%
Surrounding Tissues
12%
Classification Performance
12%
Detection Algorithm
12%
Classification Results
12%
Histogram
12%
Convolutional Neural Network Architecture
12%
Feature-based
12%
Fracture Area
12%
Dataset Size
12%
Superior Performance
12%
Training Approaches
12%
Canny Edge Detection
12%
Computer-aided Detection (CADe)
12%
Computed Tomography
12%
Deep Learning Algorithm
12%
Mesh Error
12%
3D Bone Reconstruction
12%
Boolean Operation
12%
Contact Detecting
12%
Femur
12%
Disassembling
12%
Bone Fragment
12%
Fracture Model
12%
Clinical Fractures
12%
Result Comparison
12%
Bone Segmentation
12%
3D Model
12%
Bone Model
12%
Image Noise
12%
Self-intersection
12%
Fracture Surface
12%
3D Model Reconstruction
12%
Bone Reduction
12%
Comminuted Fracture
12%
Easy-to-assemble
12%
Gap Distance
12%
RMS Error
12%
Engineering
Deep Learning Method
100%
Neural Network Architecture
62%
Convolutional Neural Network
62%
Sanders
50%
Contact Region
50%
Surrounding Tissue
25%
Component Analysis
25%
Classification Network
25%
Classification Performance
25%
Detection Algorithm
25%
Boolean Operation
25%
Fracture Surface
25%
Image Noise
25%
Deep Neural Network
25%
Edge Detection
25%
Classification Accuracy
12%
Analysis Filter
12%
Data Sample
12%
Histogram
12%