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Automatic Lung Cancer Diagnosis from CT Scans (Week 1)

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Presentation on theme: "Automatic Lung Cancer Diagnosis from CT Scans (Week 1)"— Presentation transcript:

1 Automatic Lung Cancer Diagnosis from CT Scans (Week 1)
REU Student: Maria Jose Mosquera Chuquicusma Graduate Student: Sarfaraz Hussein Professor: Dr. Ulas Bagci

2 Background Lung cancer is the first cause of mortality among
all types of cancer. - CT (Computed Tomography) Scans CAD Systems (Computer Aided Diagnosis) 3D (sagittal, coronal, axial) Save time Avoid misdiagnosis, which could lead to unnecessary surgeries, death, etc. Validation and blind spots

3 Project Overview - Design a CAD system to automatically diagnose lung nodules without supervision - Techniques for extracting strong imaging features - Use neural network architectures Apply deep learning strategies Find features extracted from other architectures that could help with lung nodule classification

4 Problem Overview Extensive training of supervised models
Time consuming Limited labeled data Regression accuracy not 100% yet

5 Tasks Accomplished - Studied neural networks and machine learning techniques - Familiarization with topic Background reading of previous work: 1. TumorNET: Lung Nodule Characterization Using Multi-View Convolutional Neural Network with Gaussian Process 2. Risk Stratification of Lung Nodules Using 3D CNN-Based Multi-task Learning 3. Characterization of Lung Nodule Malignancy using Hybrid Shape and Appearance Features - Understanding terminology Techniques used to extract features and classify tumor nodules Understanding how deep 3D CNNs work along with MTL and Transfer Learning And much more... .

6 Background Reading 1: TumorNet
Architecture: Deep 3D CNN Input: 3D-tensor vector Training and testing: 10 fold cross validation Data Augmentation Dataset: LIDC- IDRI (1018 scans) Gaussian noise with random mean, Poisson, Salt & Pepper and Speckle noise GP to obtain malignancy score Joint distribution  Conditional distribution Latent function Add Gaussian noise to latent function prevent overfitting in outputs Covariance between testing and training sets .

7 Background Reading 1: TumorNet

8 Background Reading 2: 3D CNN-Based Multi-task Learning
- 3D CNN trained on Sports-1M dataset - Dataset: LIDC-IDRI, 10 fold cross validation - Transfer learning fine-tune 3D CNNs using labels for malignancy and six attributes. 1 CNN per attribute L1 norm - Multi-task learning Graph Regularized Sparse Representation Trace norm Correlation of different tasks: Coefficient Matrix W  Structure Matrix  Correlation Matrix  Binary Matrix Scoring function - Malignancy score

9 Background Reading 2: 3D CNN-Based Multi-task Learning

10 Background Reading 3: Hybrid Shape and Appearance Features
- Spherical Harmonics Computation and pre-trained DCNN - 10 fold cross validation - Two inputs: Radiologists’ binary nodule segmentations  mesh representation  SH functions  Vectors Local CT image  Combine three orthogonal local patches (applied PCA on binary segmentation data - Extracted representation from SH method provides benefits (rotate, scale, transform, easier to compute) - RF Classification Synthesize DCNN and SH features - Malignancy evaluation

11 Background Reading 3: Hybrid Shape and Appearance Features

12 Background Reading 3: Hybrid Shape and Appearance Features

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