Auto-detection of potholes using photogrammetric and deep learning approach (Softcopy is also available)

By:

Datir, Raunak (PG190733)

Contributor(s):

Material type: Text

TextPublication details: 2021Description: xiii,52pDDC classification:

MG TH-0228 DAT

Contents:

Contents Certificate of original authorship i Certificate of Dissertation Advisor’s consent iii Acknowledgments v Abstract vii List of figures ix List of tables xii 1 Introduction 1 1.1 Aim and Objective 1 1.2 Thesis motivation 1 1.3 Significance of the study 2 1.4 Limitation 2 1.5 Thesis outline 3 2 Literature Review 5 2.1 Road surface Distress 5 2.1.1 Crack 5 2.1.2 Raveling 5 2.1.3 Roughness 6 2.1.4 Rutting 6 2.1.5 Potholes 7 2.2 Road Distress Detection Techniques 7 2.2.1 Public Reporting 8 2.2.2 Vibration based techniques 8 2.2.3 2D and 3D vision based technique 8 2.2.4 Learning based technique 10 2.3 Inferences 12 3 Methodology 13 4 Data Collection and Processing 15 4.1 Camera Module 15 4.2 Testing 17 4.2.1 Testing without Ground Control Points (GCPs) 17 4.2.2 Testing with Ground Control Points (GCPs) 19 4.3 Study area and dataset 23 4.3.1 Open source dataset 25 5 Results and Conclusion 27 5.1 Photogrammetric approach 27 5.1.1 Steps for data processing 27 5.2 Deep learning approach 30 5.2.1 Mask RCNN 31 5.2.2 YOLO (You only look once) 35 5.3 Conclusion 38 5.4 Limitation and Drawbacks 39 5.5 Future Scope 39 References xli Appendix 1: Various test outputs to improve accuracy of camera module xlv Appendix 2: Python code xlvii Plagiarism Report copy li

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Item type	Current library	Collection	Call number	Status	Date due	Barcode	Item holds
Thesis	CEPT Library	Faculty of Technology	MG TH-0228 DAT	Not For Loan		023728

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Contents
Certificate of original authorship i
Certificate of Dissertation Advisor’s consent iii
Acknowledgments v
Abstract vii
List of figures ix
List of tables xii
1 Introduction 1
1.1 Aim and Objective 1
1.2 Thesis motivation 1
1.3 Significance of the study 2
1.4 Limitation 2
1.5 Thesis outline 3
2 Literature Review 5
2.1 Road surface Distress 5
2.1.1 Crack 5
2.1.2 Raveling 5
2.1.3 Roughness 6
2.1.4 Rutting 6
2.1.5 Potholes 7
2.2 Road Distress Detection Techniques 7
2.2.1 Public Reporting 8
2.2.2 Vibration based techniques 8
2.2.3 2D and 3D vision based technique 8
2.2.4 Learning based technique 10
2.3 Inferences 12
3 Methodology 13
4 Data Collection and Processing 15
4.1 Camera Module 15
4.2 Testing 17
4.2.1 Testing without Ground Control Points (GCPs) 17
4.2.2 Testing with Ground Control Points (GCPs) 19
4.3 Study area and dataset 23
4.3.1 Open source dataset 25
5 Results and Conclusion 27
5.1 Photogrammetric approach 27
5.1.1 Steps for data processing 27
5.2 Deep learning approach 30
5.2.1 Mask RCNN 31
5.2.2 YOLO (You only look once) 35
5.3 Conclusion 38
5.4 Limitation and Drawbacks 39
5.5 Future Scope 39
References xli
Appendix 1: Various test outputs to improve accuracy of camera module xlv
Appendix 2: Python code xlvii
Plagiarism Report copy li

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