Compression, restoration, resampling, ‘compressive sensing’: fast transforms in digital imaging

Abstract: Transform image processing methods are methods that work in domains of image transforms, such as Discrete Fourier, Discrete Cosine, Wavelet and alike. They are the basic tool in image compression, in image restoration, in image resampling and geometrical transformations and can be traced back to early 1970-ths. The paper presents a review of these methods with emphasis on their comparison and relationships, from the very first steps of transform image compression methods to adaptive and local adaptive transfor… Show more

“…We basically utilized three frequency transforms: DCT, DFT, and DWT. We especially want to highlight the energy compaction property of DCT, where most of the signal information tends to be concentrated in a few low-frequency components (Please refer to Figure 2 in [1] and Figure 1 in [49]). This characteristic aligns well with the motivation of FreD, and Figure 8b demonstrates that DCT is the best choice among the possible options.…”

Modeling the Flux of Volatile Fatty Acid in Membrane Distillation with the Effect of Ph

“…We basically utilized three frequency transforms: DCT, DFT, and DWT. We especially want to highlight the energy compaction property of DCT, where most of the signal information tends to be concentrated in a few low-frequency components (Please refer to Figure 2 in [1] and Figure 1 in [49]). This characteristic aligns well with the motivation of FreD, and Figure 8b demonstrates that DCT is the best choice among the possible options.…”

Modeling the Flux of Volatile Fatty Acid in Membrane Distillation with the Effect of Ph

“…Let us prove that the linearity, shift, correlation, and Parseval theorems are valid for DFT-P. We introduce the symbolic notation for DFT-P and DDPF-P, defined respectively by relations (4) and 7, as well as for ) (n x  relation (8):…”

“…The methods of vector 1 and spectral 2 digital signal processing (DSP) play a crucial role in information technologies, which are currently widely used in telecommunications [1][2][3][4][5][6]. The relevance of the digitalization of telecommunications is mainly due to two reasons.…”

Digital signal processing in telecommunications based on parametric discrete Fourier transform

“…The classical method of spatial-frequency processing of two-dimensional discrete signals is the 1-D and 2-D discrete Fourier transform (DFT), which allows to obtain a 1-D and 2-D frequency spectrum [1][2][3][4][5][6][7][8][9][10][11][12][13]. At the same time, there are a number of applications [9][10][11][12] where it is necessary to find the values of the frequency spectrum not at all 1-D and 2-D frequencies, but at a subset of them.…”

Sliding signal processing in telecommunication networks based on two-dimensional discrete Fourier transform