Abstract

Omnidirectional imaging technology has been widely used for scene archiving. It has been a crucial technology in many fields including computer vision, image analysis and virtual reality. It should be noted that the dynamic range of luminance values in a natural scene is quite large, and the scenes containing various objects and light sources consist of various spectral power distributions. Therefore, this paper proposes a system for acquiring high dynamic range (HDR) spectral images for capturing omnidirectional scenes. The system is constructed using two programmable high-speed video cameras with specific lenses and a programmable rotating table. Two different types of color filters are mounted on the two-color video cameras for six-band image acquisition. We present several algorithms for HDR image synthesis, lens distortion correction, image registration, and omnidirectional image synthesis. Spectral power distributions of illuminants (color signals) are recovered from the captured six-band images based on the Wiener estimation algorithm. In this paper, we present two types of applications based on our imaging system: time-lapse imaging and gigapixel imaging. The performance of the proposed system is discussed in detail in terms of the system configurations, acquisition time, artifacts, and spectral estimation accuracy. Experimental results in actual scenes demonstrate that the proposed system is feasible and powerful for acquiring HDR spectral scenes through time-lapse or gigapixel omnidirectional imaging approaches. Finally, we apply the captured omnidirectional images to time-lapse spectral Computer Graphics (CG) renderings and spectral-based relighting of an indoor gigapixel image.

Highlights

  • Omnidirectional imaging is a useful technology which has been widely used in daily life.For instance, omnidirectional images are useful for landscape archiving applications such as GoogleStreet View [1] and the “Aftermath of the 2011 Tohoku earthquake and tsunami” (A project by TheUniversity of Tokyo and Tohoku University) [2]

  • The technology of an omnidirectional spectral imaging system for such a high dynamic range (HDR) natural scene is crucial in recent computer vision, computer graphics, and color imaging

  • This paper has proposed an HDR spectral imaging system for omnidirectional natural scenes

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Summary

Introduction

Omnidirectional imaging is a useful technology which has been widely used in daily life. Tominaga et al developed an HDR spectral imaging system for capturing an omnidirectional natural scene [26] This system was constructed with an RGB digital camera, a fisheye lens, two-color filters and a rotating table. The system can be constructed using a stereo system [31,32] or multispectral filter array [33,34] These proposed multiband imaging systems are neither omnidirectional nor HDR. Compared with the previous manual system [26] for acquiring HDR omnidirectional spectral images, the time-lapse imaging by the proposed system realizes the short-time image acquisition without any color artifacts thanks to the automatic-controlled stereo-based omnidirectional imaging system.

Related Studies
Proposed System for HDR Omnidirectional Spectral Imaging
HDR Image Synthesis
Correction of Lens Distortion
Image Registration
Polar Coordinate Transformation
Omnidirectional Image Synthesis
Spectral Estimation
Performances of the Proposed Imaging System
Color and Spectral Accuracy
Spectral Image Characterization of a Time-Lapse Scene
Spatial Resolution Characterization of Gigapixel Imaging
Time-Lapse Spectral Computer Graphics Rendering
Gigapixel Image Relighting of Indoor Arichived Scene
Conclusions and Discussion

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