Category:Created with GNU Octave
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You should include the script that was used to generate the plot and any input data that are needed, so that the graph can be reproduced by others. This will satisfy the spirit of the CC-BY-SA-3.0 licensing condition, since otherwise, the formal right to modify the plot is obstructed by the practical difficulty of not having the source code, as in the case of a binary computer program provided without its source code.
See also
editfor other plots that should run under Octave
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Subcategories
This category has the following 4 subcategories, out of 4 total.
Media in category "Created with GNU Octave"
The following 130 files are in this category, out of 130 total.
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8-point Hann windows.png 620 × 392; 41 KB
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8-point Hann windows.svg 700 × 525; 296 KB
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8-point windows.gif 574 × 390; 18 KB
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Aliasing between a positive and a negative frequency.png 694 × 452; 44 KB
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Amplitude & phase vs frequency for 3-term boxcar filter.svg 435 × 400; 20 KB
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Amplitude & phase vs frequency for a 3-term boxcar filter.gif 643 × 642; 17 KB
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Arcus sinus.svg 600 × 480; 14 KB
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Beta versus rapidity.svg 524 × 393; 16 KB
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Circular convolution example.png 488 × 516; 12 KB
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Circular convolution example.svg 462 × 486; 40 KB
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ClueBot NG new user revert probability.svg 600 × 480; 11 KB
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Comparison of symmetric and periodic Gaussian windows.svg 652 × 743; 108 KB
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Comparison of symmetric and periodic triangular window functions.svg 652 × 765; 94 KB
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Contour.png 640 × 457; 36 KB
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Corpo negro.svg 600 × 480; 29 KB
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Delta di Kroenecher.pdf 1,154 × 872; 4 KB
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DFT zero-padding technique example (100N) - DFT.pdf 1,162 × 870; 9 KB
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DFT zero-padding technique example (2N) - DFT.pdf 1,162 × 870; 5 KB
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DFT zero-padding technique example (2N) - Sequence.pdf 1,160 × 875; 5 KB
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DFT zero-padding technique example (4N) - DFT.pdf 1,162 × 870; 6 KB
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DFT zero-padding technique example (4N) - Sequence.pdf 1,160 × 875; 6 KB
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DFT zero-padding technique example (N) - DFT.pdf 1,160 × 870; 5 KB
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DFT zero-padding technique example (N) - Sequence.pdf 1,160 × 875; 5 KB
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DFT-even Hann window & spectral leakage.png 560 × 842; 34 KB
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Discrete-time low-pass filter frequency response comparison.pdf 1,162 × 870; 17 KB
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Discrete-time low-pass filter impulse response (r=0.2).pdf 1,164 × 877; 4 KB
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Discrete-time low-pass filter impulse response (r=0.5).pdf 1,164 × 877; 4 KB
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Discrete-time low-pass filter impulse response (r=0.8).pdf 1,164 × 877; 4 KB
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Dystrybuanta rozkładu normalnego.svg 600 × 480; 8 KB
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Example of kriging interpolation in 1D.png 885 × 524; 11 KB
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FFT size vs filter length for Overlap-add convolution.svg 700 × 525; 427 KB
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Fourier transform, Fourier series, DTFT, DFT.gif 1,128 × 672; 59 KB
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Fourier transform, Fourier series, DTFT, DFT.svg 1,128 × 672; 100 KB
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Frequency response of 3-term boxcar filter.gif 640 × 643; 17 KB
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Frequency response of 3-term boxcar filter.svg 416 × 400; 20 KB
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Funkcja expotencjalna rozwiązanie RRZ.svg 600 × 480; 14 KB
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Funkcja hiperboliczna rozwiązanie RRZ.svg 600 × 480; 13 KB
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Funkcja trygonometryczna rozwiązanie RRZ.svg 600 × 480; 23 KB
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Gate sequence (frequency).pdf 1,160 × 870; 9 KB
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Gate sequence (time).pdf 1,162 × 875; 4 KB
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Gate sequence discrete-time low-pass filter frequency output comparison.pdf 1,162 × 870; 17 KB
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Gate sequence discrete-time low-pass filter output (r=0.2).pdf 1,164 × 870; 5 KB
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Gate sequence discrete-time low-pass filter output (r=0.5).pdf 1,164 × 870; 5 KB
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Gate sequence discrete-time low-pass filter output (r=0.8).pdf 1,164 × 870; 5 KB
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GNU Octave example for wikibooks.svg 770 × 577; 11 KB
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GNUOctave430.png 1,920 × 944; 148 KB
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Hyperbel-konstruktion.svg 512 × 507; 26 KB
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Illustration of causal and non-causal filters.png 734 × 662; 78 KB
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Illustration of causal and non-causal filters.svg 688 × 621; 65 KB
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In-phase and quadrature components of angle modulation.gif 912 × 431; 29 KB
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Interpolacja.svg 600 × 480; 10 KB
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Kaiser-Window-Spectra.svg 700 × 525; 111 KB
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KaiserWindow.svg 700 × 525; 78 KB
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Kbd-window.svg 700 × 525; 82 KB
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Konvexe optimierung beispiel 2.png 480 × 319; 13 KB
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Lemniscate Bernoulli parametric with focal points.svg 524 × 393; 13 KB
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Mehrfachspalt-Numerisch.png 3,600 × 2,700; 278 KB
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Mesh.png 640 × 457; 321 KB
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Metoda Kolejnych Nadrelaksacji.jpg 583 × 583; 19 KB
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Multirate upsampling (interpolation) filter.svg 900 × 630; 43 KB
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Multivariate Gaussian.png 1,280 × 800; 37 KB
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Octave GUI 3 8.jpg 1,199 × 882; 284 KB
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Octave screenshot.png 1,019 × 713; 70 KB
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Octave session.png 1,268 × 711; 71 KB
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Octave Sombrero.svg 300 × 170; 84 KB
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Octave surfave mesh.png 640 × 480; 16 KB
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Octave welcome.png 1,366 × 768; 61 KB
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Octave workshop screenshot.png 1,152 × 831; 40 KB
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Octave-4.0.0-rc1-Qt5.4-Linux.png 996 × 713; 162 KB
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Octave-v3.8.2-gui-de.png 1,218 × 827; 83 KB
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Octave-v3.8.2-gui-en.png 1,218 × 827; 82 KB
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Octave-v3.8.2-gui-es.png 1,218 × 827; 83 KB
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Octave-v3.8.2-gui-fr.png 1,218 × 827; 83 KB
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Octave-v4.0.0-gui-german.png 1,919 × 1,017; 174 KB
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Octave.activities.png 1,368 × 768; 105 KB
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Octave.welcome.png 1,368 × 768; 66 KB
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OctaveDemo.png 1,920 × 1,080; 154 KB
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Odd-length, "DFT-even" Hann window & spectral leakage.png 560 × 844; 35 KB
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Okrag Rozwiazanie 2-wym RRZ.png 517 × 480; 4 KB
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Overlap-add algorithm.svg 855 × 619; 140 KB
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Overlap-save algorithm.png 912 × 548; 110 KB
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Overlap-save algorithm.svg 855 × 597; 125 KB
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Plot1.png 640 × 457; 4 KB
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Plot2.png 640 × 463; 7 KB
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Processing gain comparison (Hann vs Blackman).gif 647 × 518; 16 KB
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Processing losses for 3 window functions.gif 574 × 609; 21 KB
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Processing losses for 3 window functions.svg 531 × 540; 63 KB
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Quadratic interpolation.svg 752 × 564; 105 KB
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Rabinovich-Fabrikant LimitCicle.PNG 906 × 907; 38 KB
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Radar echo signal sequence.pdf 1,166 × 868; 69 KB
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Radar signal cross-correlation.pdf 1,166 × 868; 106 KB
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Radar signal sequence.pdf 1,166 × 868; 45 KB
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Ramp sequence.pdf 1,152 × 868; 5 KB
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Regresja.svg 600 × 480; 6 KB
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Rosenbrock function.svg 720 × 540; 2.28 MB
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Rrz odwrotny war pocz.png 522 × 480; 14 KB
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RRZ z warunkiem brzegowym, potok fazowy.png 640 × 480; 14 KB
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RRZ z warunkiem brzegowym, rozwiazanie.png 640 × 480; 5 KB
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Sampled signal DFT frequency aliasing.pdf 1,162 × 858; 28 KB
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Sampled signal DFT time aliasing.pdf 1,162 × 858; 14 KB
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Sampling the Discrete-time Fourier transform.svg 754 × 562; 46 KB
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Scalar fields theta.svg 600 × 480; 129 KB
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Scalar fields x.svg 600 × 480; 4 KB
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Scalar fields y.svg 600 × 480; 129 KB
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Sierpinski m100000.png 1,200 × 900; 18 KB
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Sinc sequence.pdf 1,154 × 870; 5 KB
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Skupaj ogv q10.ogv 7.9 s, 500 × 500; 1.55 MB
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Skupaj ogv q10ifps2fr6.ogv 1 min 35 s, 500 × 500; 1.78 MB
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Spectral leakage caused by "windowing".svg 1,080 × 664; 170 KB
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Spectral leakage from two 8-point Gaussian windows.png 696 × 397; 82 KB
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Spectral leakage from two 8-point Hamming windows.png 733 × 422; 49 KB
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Spectral leakage from two 8-point Poisson windows.png 742 × 424; 49 KB
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Spirale.png 640 × 480; 5 KB
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Triangle sequence.pdf 1,154 × 870; 5 KB
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Two 8-point Gaussian window functions.svg 652 × 372; 36 KB
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Unit step sequence.pdf 1,154 × 868; 4 KB
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Uwiklana funkcja.svg 600 × 480; 15 KB
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Uwiklany okrag.svg 600 × 480; 11 KB
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Uwiklany uklad rownan.svg 600 × 480; 15 KB
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Window function and frequency response - Rectangular.svg 512 × 256; 157 KB
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Y eq x pow2.png 640 × 435; 14 KB