30 research outputs found
Underdetermined source separation using a sparse STFT framework and weighted laplacian directional modelling
The instantaneous underdetermined audio source separation problem of
K-sensors, L-sources mixing scenario (where K < L) has been addressed by many
different approaches, provided the sources remain quite distinct in the virtual
positioning space spanned by the sensors. This problem can be tackled as a
directional clustering problem along the source position angles in the mixture.
The use of Generalised Directional Laplacian Densities (DLD) in the MDCT domain
for underdetermined source separation has been proposed before. Here, we derive
weighted mixtures of DLDs in a sparser representation of the data in the STFT
domain to perform separation. The proposed approach yields improved results
compared to our previous offering and compares favourably with the
state-of-the-art.Comment: EUSIPCO 2016, Budapest, Hungar
Fast wavelet-based pansharpening of multi-spectral images
Remote Sensing systems enhance the spatial quality of low-resolution Multi-Spectral (MS) images using information from Pan-chromatic (PAN) images under the pansharpening framework. Most decimated multi-resolution pansharpening approaches upsample the low-resolution MS image to match the resolution of the PAN image. Consequently, a multi-level wavelet decomposition is performed, where the edge information from the PAN image is injected in the MS image. In this paper, the authors propose a pansharpening framework that eliminates the need of upsampling of the MS image, using a B-Spline biorthogonal wavelet decomposition scheme. The proposed method features similar performance to the state-of-the-art pansharpening methods without the extra computational cost induced by upsampling
Fast wavelet-based pansharpening of multi-spectral images
Remote Sensing systems enhance the spatial quality of low-resolution Multi-Spectral (MS) images using information from Pan-chromatic (PAN) images under the pansharpening framework. Most decimated multi-resolution pansharpening approaches upsample the low-resolution MS image to match the resolution of the PAN image. Consequently, a multi-level wavelet decomposition is performed, where the edge information from the PAN image is injected in the MS image. In this paper, the authors propose a pansharpening framework that eliminates the need of upsampling of the MS image, using a B-Spline biorthogonal wavelet decomposition scheme. The proposed method features similar performance to the state-of-the-art pansharpening methods without the extra computational cost induced by upsampling
Towards Explainability in Monocular Depth Estimation
The estimation of depth in two-dimensional images has long been a challenging
and extensively studied subject in computer vision. Recently, significant
progress has been made with the emergence of Deep Learning-based approaches,
which have proven highly successful. This paper focuses on the explainability
in monocular depth estimation methods, in terms of how humans perceive depth.
This preliminary study emphasizes on one of the most significant visual cues,
the relative size, which is prominent in almost all viewed images. We designed
a specific experiment to mimic the experiments in humans and have tested
state-of-the-art methods to indirectly assess the explainability in the context
defined. In addition, we observed that measuring the accuracy required further
attention and a particular approach is proposed to this end. The results show
that a mean accuracy of around 77% across methods is achieved, with some of the
methods performing markedly better, thus, indirectly revealing their
corresponding potential to uncover monocular depth cues, like relative size
Audio source separation using independent component analysis
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