A technique to create High Dynamic Range (HDR) video frames is to capture Low Dynamic Range (LDR) images at varying shutter speeds. They are then merged into a single image covering the entire brightness range of the scene. While shutter speeds are often chosen to vary by a constant factor, we propose an adaptive approach. The scene's histogram together with functions judging the contribution of an LDR exposure to the HDR result are used to compute a sequence of shutter speeds. This sequence allows for the estimation of the scene's radiance map with a high degree of accuracy. We show that, in comparison to the traditional approach, our algorithm achieves a higher quality of the HDR image for the same number of captured LDR exposures. Our al...
Recently, a new type of camera, which allows the recording of almost the entire range of luminosity ...
Figure 1: Our algorithm takes as input a sequential set of bracketed exposures of a dynamic scene (n...
Standard cameras capture only a fraction of the information that is visible to the human visual syst...
A technique to create High Dynamic Range (HDR) video frames is to capture Low Dynamic Range (LDR) im...
video frames is to capture Low Dynamic Range (LDR) images at varying shutter speeds. They are then m...
A technique to create High Dynamic Range (HDR) video frames is to capture Low Dynamic Range (LDR) im...
A recurring problem in capturing video is the scene having a range of brightness values that exceeds...
When the dynamic range of radiance values in a scene exceeds the capabilities of a camera, a single ...
We introduce a novel algorithm for obtaining High Dynamic Range (HDR) videos from Standard Dynamic R...
Abstract—In this paper we present an optimized approach to capture high dynamic range (HDR) images. ...
Abstract—In this paper we present an optimized approach to capture high dynamic range (HDR) images. ...
dynamic range video (tonemapped). Typical video footage captured using an off-the-shelf camcorder su...
High dynamic range (HDR) image generation from a number of differently exposed low dynamic range (LD...
International audienceStandard cameras capture only a fraction of the information that is visible to...
In high dynamic range (HDR) imaging, multiple photographs with different exposure times are combined...
Recently, a new type of camera, which allows the recording of almost the entire range of luminosity ...
Figure 1: Our algorithm takes as input a sequential set of bracketed exposures of a dynamic scene (n...
Standard cameras capture only a fraction of the information that is visible to the human visual syst...
A technique to create High Dynamic Range (HDR) video frames is to capture Low Dynamic Range (LDR) im...
video frames is to capture Low Dynamic Range (LDR) images at varying shutter speeds. They are then m...
A technique to create High Dynamic Range (HDR) video frames is to capture Low Dynamic Range (LDR) im...
A recurring problem in capturing video is the scene having a range of brightness values that exceeds...
When the dynamic range of radiance values in a scene exceeds the capabilities of a camera, a single ...
We introduce a novel algorithm for obtaining High Dynamic Range (HDR) videos from Standard Dynamic R...
Abstract—In this paper we present an optimized approach to capture high dynamic range (HDR) images. ...
Abstract—In this paper we present an optimized approach to capture high dynamic range (HDR) images. ...
dynamic range video (tonemapped). Typical video footage captured using an off-the-shelf camcorder su...
High dynamic range (HDR) image generation from a number of differently exposed low dynamic range (LD...
International audienceStandard cameras capture only a fraction of the information that is visible to...
In high dynamic range (HDR) imaging, multiple photographs with different exposure times are combined...
Recently, a new type of camera, which allows the recording of almost the entire range of luminosity ...
Figure 1: Our algorithm takes as input a sequential set of bracketed exposures of a dynamic scene (n...
Standard cameras capture only a fraction of the information that is visible to the human visual syst...