In this paper, we present a novel image mosaicking method that is based on Speeded-Up Robust Features (SURF) of line segments, aiming to achieve robustness to incident scaling, rotation, change in illumination, and significant affine distortion between images in a panoramic series. Our method involves 1) using a SURF detection operator to locate feature points; 2) rough matching using SURF features of directed line segments constructed via the feature points; and 3) eliminating incorrectly matched pairs using RANSAC (RANdom SAmple Consensus). Experimental results confirm that our method results in high-quality panoramic mosaics that are superior to state-of-the-art methods
Automatic image compositing of very large data sets is necessary for the creation of extensive mosai...
This paper concerns automatic panoramic image mosaicing. Images can be taken in any direction and in...
This paper presents an automatic and fast method for creating seamless mosaics from images captured ...
<div><p>In this paper, we present a novel image mosaicking method that is based on Speeded-Up Robust...
For real-time and robust web camera image mosaicing, a method based on an optimized SURF (Speeded Up...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
This paper proposes a novel image mosaic method based on SIFT (Scale Invariant Feature Transform) fe...
We present a new method for automatically matching feature points over two images: after extracting ...
Since the last few decades, image mosaicing in real time applications has been a challenging field f...
[Abstract] In the last decade, building mosaic images become an active field in several computer vis...
This paper proposes a regional seam line detection algorithm based on the disparity image of the ort...
In many algorithms the registration of image pairs is done by feature point matching. After the feat...
none2Image mosaicing is stirring up a lot of interests in the research community for both its scient...
Abstract: Image stitching or photo stitching is a process of combining two photography images with o...
This paper presents a novel method of seamline determination for remote sensing image mosaicking. A ...
Automatic image compositing of very large data sets is necessary for the creation of extensive mosai...
This paper concerns automatic panoramic image mosaicing. Images can be taken in any direction and in...
This paper presents an automatic and fast method for creating seamless mosaics from images captured ...
<div><p>In this paper, we present a novel image mosaicking method that is based on Speeded-Up Robust...
For real-time and robust web camera image mosaicing, a method based on an optimized SURF (Speeded Up...
which permits unrestricted use, distribution, and reproduction in any medium, provided the original ...
This paper proposes a novel image mosaic method based on SIFT (Scale Invariant Feature Transform) fe...
We present a new method for automatically matching feature points over two images: after extracting ...
Since the last few decades, image mosaicing in real time applications has been a challenging field f...
[Abstract] In the last decade, building mosaic images become an active field in several computer vis...
This paper proposes a regional seam line detection algorithm based on the disparity image of the ort...
In many algorithms the registration of image pairs is done by feature point matching. After the feat...
none2Image mosaicing is stirring up a lot of interests in the research community for both its scient...
Abstract: Image stitching or photo stitching is a process of combining two photography images with o...
This paper presents a novel method of seamline determination for remote sensing image mosaicking. A ...
Automatic image compositing of very large data sets is necessary for the creation of extensive mosai...
This paper concerns automatic panoramic image mosaicing. Images can be taken in any direction and in...
This paper presents an automatic and fast method for creating seamless mosaics from images captured ...