Jiang, Tao: Stereo vision for facet type cameras. 2013
Inhalt
- Abstract
- Zusammenfassung
- Contents
- List of Figures
- Nomenclature
- 1 Introduction
- 2 Stereo Vision in the Artificial Compound Eye
- 2.1 Conventional Stereo Vision
- 2.1.1 3D Measurement from a Canonical Stereo Vision
- 2.1.2 Related Work in Stereo Vision
- 2.1.3 Analysis of Depth Resolution
- 2.2 Current Stereo Vision in an Artificial Compound Eye
- 2.3 Limitations of General Stereo Vision for eCley
- 3 Subpixel Stereo Vision Based on Variation of Intensities
- 3.1 Subpixel Resolution
- 3.2 Stereo Vision Structure of Multilens Camera (eCley)
- 3.2.1 Stereo Properties of Adjacent Channels
- 3.2.2 Variation of Intensities Following Disparities in Boundaries of Objects
- 3.3 Overview of Implemented Methods
- 4 Correction and Calibration
- 4.1 Brightness Correction
- 4.2 Offsets Between Adjacent Channels
- 4.2.1 Channel Center Determination by Circle Fitting
- 4.2.2 Centers Determination by Straight Lines Fitting
- 4.3 Calibration and Rectification
- 5 Determining Subpixel Baselines of Channel Pairs
- 5.1 Resolving the Ill-Posed Problem
- 5.2 Detection of Transitional Areas
- 5.3 Calibration of Subpixel Baselines
- 5.4 Experiments and Analysis
- 6 Real-Time Subpixel Distance Measurement for Objects
- 6.1 Overview of the Approach
- 6.2 Image Preprocessing
- 6.3 Detecting Coarse Edges of Objects
- 6.4 Distance Measurement at Subpixel Level
- 6.5 Experiments and Performance Analysis
- 7 Conclusions and Further Work
- References