High-resolution hyperspectral imaging via matrix factorization

“…They have also been reported to improve the performance in computer vision tasks, such as, tracking [23], segmentation [25], recognition [29] and document analysis [18]. However, contemporary hyperspectral imaging lacks severely in terms of spatial resolution [16], [13]. The problem stems from the fact that each spectral image acquired by a hyperspectral system corresponds to a very narrow spectral window.…”

“…More recently, matrix factorization has played an important role in enhancing the spatial resolution of the ground based and the remote sensing hyperspectral imaging systems ( [16], [13], [32], [34]). Kawakami et al [16] have proposed to fuse a high spatial resolution RGB image with a hyperspectral image by decomposing each of the two images into two factors and constructing the desired image from the complementary factors of the two decompositions.…”

“…Kawakami et al [16] have proposed to fuse a high spatial resolution RGB image with a hyperspectral image by decomposing each of the two images into two factors and constructing the desired image from the complementary factors of the two decompositions. A very similar technique has been used by Huang et al [13] for remote sensing data.…”

“…The spectral characteristics of the resulting representation have proven critical in numerous applications, ranging from remote sensing [6], [3] to medical imaging [16]. They have also been reported to improve the performance in computer vision tasks, such as, tracking [23], segmentation [25], recognition [29] and document analysis [18].…”

Sparse Spatio-spectral Representation for Hyperspectral Image Super-resolution

“…They have also been reported to improve the performance in computer vision tasks, such as, tracking [23], segmentation [25], recognition [29] and document analysis [18]. However, contemporary hyperspectral imaging lacks severely in terms of spatial resolution [16], [13]. The problem stems from the fact that each spectral image acquired by a hyperspectral system corresponds to a very narrow spectral window.…”

“…More recently, matrix factorization has played an important role in enhancing the spatial resolution of the ground based and the remote sensing hyperspectral imaging systems ( [16], [13], [32], [34]). Kawakami et al [16] have proposed to fuse a high spatial resolution RGB image with a hyperspectral image by decomposing each of the two images into two factors and constructing the desired image from the complementary factors of the two decompositions.…”

“…Kawakami et al [16] have proposed to fuse a high spatial resolution RGB image with a hyperspectral image by decomposing each of the two images into two factors and constructing the desired image from the complementary factors of the two decompositions. A very similar technique has been used by Huang et al [13] for remote sensing data.…”

“…The spectral characteristics of the resulting representation have proven critical in numerous applications, ranging from remote sensing [6], [3] to medical imaging [16]. They have also been reported to improve the performance in computer vision tasks, such as, tracking [23], segmentation [25], recognition [29] and document analysis [18].…”

Sparse Spatio-spectral Representation for Hyperspectral Image Super-resolution

“…Among the recent advances in multispectral imaging Kawakami et al [25] combined a high spatial resolution RGB sensor with a low resolution MS camera to obtain high spatial resolution spectral images. The results are promising though the method produces some errors and is thus not mature enough to be used for the analysis of cultural heritage object.…”

Integration of 3D and multispectral data for cultural heritage applications: Survey and perspectives

Joint Camera Spectral Sensitivity Selection and Hyperspectral Image Recovery