In high dynamic range (HDR) imaging, multiple photographs with different exposure times are combined into a radiance map, which reflects the radiance in real-life scenes. This involves recovering the response function of the imaging process. The technique proposed by Debevec and Malik is a well-known HDR image synthesis algorithm, but the computational complexity is relatively high, which limits the possible image size and the reconstruction quality. In this paper we present an improved joint optimization technique for estimating the camera response function (CRF) and the radiance map and a new sequential two-step optimization technique, which first estimates the CRF and then reconstructs the radiance map, resulting in better visual results...
High dynamic range imaging aims at creating an image with a range of intensity variations larger tha...
Abstract—The needs of a realtime vision aid require that it functions immediately, not merely for pr...
In this paper we present a novel approach to the problem of exposure fusion of a stack of pictures f...
Figure 1: Our algorithm takes as input a sequential set of bracketed exposures of a dynamic scene (n...
Figure 1: Our algorithm takes as input a sequential set of bracketed exposures of a dynamic scene (n...
It is challenging to capture a high-dynamic range (HDR) scene using a low-dynamic range (LDR) camera...
A technique to create High Dynamic Range (HDR) video frames is to capture Low Dynamic Range (LDR) im...
When the dynamic range of radiance values in a scene exceeds the capabilities of a camera, a single ...
We present a method of recovering high dynamic range radiance maps from photographs taken with conve...
A high dynamic range (HDR) image uses a large bit depth up to 32-bit per pixel per color channel. Du...
In this paper, a robust calibration algorithm based on a polynomial model is presented. To improve t...
This thesis studies high dynamic range imaging (HDR) technologies. It covers techniques for creating...
High dynamic range (HDR) image generation from a number of differently exposed low dynamic range (LD...
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...
High dynamic range imaging aims at creating an image with a range of intensity variations larger tha...
Abstract—The needs of a realtime vision aid require that it functions immediately, not merely for pr...
In this paper we present a novel approach to the problem of exposure fusion of a stack of pictures f...
Figure 1: Our algorithm takes as input a sequential set of bracketed exposures of a dynamic scene (n...
Figure 1: Our algorithm takes as input a sequential set of bracketed exposures of a dynamic scene (n...
It is challenging to capture a high-dynamic range (HDR) scene using a low-dynamic range (LDR) camera...
A technique to create High Dynamic Range (HDR) video frames is to capture Low Dynamic Range (LDR) im...
When the dynamic range of radiance values in a scene exceeds the capabilities of a camera, a single ...
We present a method of recovering high dynamic range radiance maps from photographs taken with conve...
A high dynamic range (HDR) image uses a large bit depth up to 32-bit per pixel per color channel. Du...
In this paper, a robust calibration algorithm based on a polynomial model is presented. To improve t...
This thesis studies high dynamic range imaging (HDR) technologies. It covers techniques for creating...
High dynamic range (HDR) image generation from a number of differently exposed low dynamic range (LD...
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...
High dynamic range imaging aims at creating an image with a range of intensity variations larger tha...
Abstract—The needs of a realtime vision aid require that it functions immediately, not merely for pr...
In this paper we present a novel approach to the problem of exposure fusion of a stack of pictures f...