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- [[Category:Impulse Response]] Impulse Response: mathematically the impulse response can be modeled as a dirac delta function. The dirac delta represents an inf1 KB (196 words) - 17:45, 21 April 2013
- ...ocess defined as the output of a linear time-invariant system with impulse response <math class="inline">h\left(t\right)=\frac{1}{T}e^{-t/T}\cdot u\left(t\righ5 KB (735 words) - 01:17, 10 March 2015
- ..."inline">\mathbf{Y}(t)</math> be the output of linear system with impulse response <math class="inline">h\left(t\right)</math> and input <math class="inline"5 KB (726 words) - 10:35, 10 March 2015
- ...h>\mathbf{X}(t)</math> through a linear time-invariant system with impulse response <math>h(t)</math> whose Fourier transform <math>H(\omega)</math> has the id4 KB (547 words) - 16:40, 30 March 2015
- PSF is equivalent to computing the impulse response for the particular image. More information can be found on http://en.wikipe3 KB (555 words) - 08:09, 9 April 2013
- 1. Impulse response examples for each of the following systems : linear and non-linear, ca3 KB (511 words) - 10:18, 15 May 2013
- ...tion. Consider the convolution of the following constant input and causal impulse reponse: ...sponses started at time n=0 and n=1. But if we carry this back to earlier impulse responses, we see that we get the geometric series:6 KB (991 words) - 15:18, 1 May 2016
- <br> 1. Impulse response examples for each of the following systems : linear and non-linear, ca2 KB (299 words) - 09:10, 11 February 2013
- 1. Find out what the impulse response is called in the math literature and then find and state some theorems rela c) Plot Fourier Transform of filter’s impulse response in 3D.4 KB (573 words) - 10:15, 15 May 2013
- a) Calculate the 2-D impulse response, <math>h_1(m,n)</math>, of the first system. b) Calculate the 2-D impulse response, <math>h_2(m,n)</math>, of the second system.3 KB (471 words) - 10:25, 13 September 2013
- ...ith input <math> x(m,n) </math>, output <math> y(m,n) </math>, and impulse response <math> h(m,n) </math>, so that <br \> The impulse response is given by4 KB (739 words) - 10:07, 13 September 2013
- [[Category:Impulse Response]] ...hen presented with a impulse signal input δ(t). In a LTI systems, impulse response is also equivalent to green’s function used in physics.2 KB (322 words) - 23:38, 10 March 2013
- [[Category:Impulse Response]] ''1. Find out what the impulse response is called in the math literature and then find and state some theorems rela2 KB (348 words) - 10:50, 11 March 2013
- [[Category:Impulse Response]] '''1.Impulse response'''1 KB (174 words) - 11:34, 11 March 2013
- ...is analogous to its impulse response since the PSF describes the system's response to a point input (think about a point input as <math>\delta (x,y)</math>). ...ta function. If you take its Fourier transform, you will get the frequency response of the system. Given that your system is space-variant, you will notice tha7 KB (1,274 words) - 07:24, 26 February 2014
- ...the convolution of the autocorrelation of the input with the unit impulse response of the system. ...blems 10.1, 10.2, 10.6, 10.22 (make sure to know how to find the frequency response from the diff. ed.), 10.33a. NOTE THAT YOU CAN USE A [[CT_Fourier_Transform4 KB (545 words) - 07:12, 24 April 2013
- Since there is only one impulse from the sequence that is present in the <math>(-\pi,\pi)</math> interval, ...>. It is possible to center the pulse about <math>n=0</math> and have each impulse aligned with an integer value on the <math>n</math>-axis. This is shown in10 KB (1,726 words) - 07:26, 26 February 2014
- Response from Mickey Rhoades [[User:Mrhoade|Mrhoade]] ...s e<sup>-2t</sup> - e<sup>-3t</sup> and then there is the portion from the impulse function which is added beginning at pi/2, e<sup>pi</sup>e<sup>-2t</sup> -4 KB (757 words) - 08:25, 16 October 2013
- ...n for each of the following systems. Sketch the magnitude of the frequency response, and indicate the location of the poles and zeros of the transfer function. Find the response of this system to the input4 KB (638 words) - 10:04, 16 October 2013
- Recall that an LTI system can be characterized by its impulse response h(t). ...tem. The impulse response is the output of the system when the input is an impulse or delta function]]</center>8 KB (1,476 words) - 12:13, 21 May 2014
- ...x(t), is the comb of x(t), which is equivalent to multiplying x(t) by the impulse train p<sub>T</sub>(t). ...ses are the same, but it is repeated every 1/T in the sampling's frequency response. In the following example we will see the relationship graphically.<br>4 KB (599 words) - 09:58, 14 March 2015
- ...n for each of the following systems. Sketch the magnitude of the frequency response, and indicate the location of the poles and zeros of the transfer function. Find the response of this system to the input4 KB (640 words) - 06:37, 3 November 2014
- ...recording of a voiced phoneme is the product of the vocal tract frequency response and the Fourier transform of a pulse-train (a sequence of impulses multipli2 KB (329 words) - 06:44, 24 November 2014
- ...ocess defined as the output of a linear time-invariant system with impulse response <math class="inline">h\left(t\right)=\frac{1}{T}e^{-t/T}\cdot u\left(t\righ6 KB (1,002 words) - 01:38, 10 March 2015
- ..."inline">\mathbf{Y}(t)</math> be the output of linear system with impulse response <math class="inline">h\left(t\right)</math> and input <math class="inline"5 KB (939 words) - 10:37, 10 March 2015
- ...h>\mathbf{X}(t)</math> through a linear time-invariant system with impulse response <math>h(t)</math> whose Fourier transform <math>H(\omega)</math> has the id ...t)</math> is Gaussian random process, and <math>h(t)</math> is the impulse response of a linear time-invariant system.8 KB (1,336 words) - 01:53, 31 March 2015
- ...n for each of the following systems. Sketch the magnitude of the frequency response, and indicate the location of the poles and zeros of the transfer function. Find the response of this system to the input4 KB (625 words) - 13:17, 16 November 2015
- We can truncate an ideal filter’s impulse response by using different windowing functions. In lab 7a and lab 7b, some truncati6 KB (1,002 words) - 22:08, 29 November 2015
- *DT impulse response and convolution: 2.24ab *CT impulse response: 2.40707 B (103 words) - 14:02, 24 June 2016
- :c) the system has a well defined and finite frequency response function; :f) the unit impulse response of the system is right-sided;3 KB (481 words) - 15:35, 8 November 2016
- ...n for each of the following systems. Sketch the magnitude of the frequency response, and indicate the location of the poles and zeros of the transfer function. Find the frequency response of this system using five different approaches.3 KB (503 words) - 15:44, 8 November 2016
- where <math>{\mathcal H}(\omega)</math> is DTFT of unit impulse response h[n] <br /><br /> c) the system has a well defined and finite frequency response function;<br />8 KB (1,336 words) - 15:40, 27 November 2016
- Frequency Response <math>H(\omega)</math> :'''Frequency response'''9 KB (1,559 words) - 14:33, 24 November 2016
- a) Calculate the 2-D impulse response, <math>h_1(m,n)</math>, of the first system. b) Calculate the 2-D impulse response, <math>h_2(m,n)</math>, of the second system.3 KB (478 words) - 18:07, 1 May 2017
- a) Calculate the 2-D impulse response, <math>h_1(m,n)</math>, of the first system. b) Calculate the 2-D impulse response, <math>h_2(m,n)</math>, of the second system.3 KB (466 words) - 21:08, 2 May 2017
- ...position of (S1) and (S2) with input x(m, n) and output z(m,n) and impulse response <math>{{h}_{3}}(m,n)</math>. a) Calculate the 2-D impulse response, <math>{{h}_{1}}(m,n)</math>, of the first system (S1).5 KB (823 words) - 20:43, 2 May 2017
- b) Calculate, <math>h(m,n)</math>, the impulse response of the system with transfer function <math>H(z_1,z_2)</math>3 KB (566 words) - 16:39, 18 May 2017
- ...ill affect the signal in the time-domain. On the other hand, the frequency response will show how the info will be changed in the frequency domain. [[File:Responses.jpg|frameless|Impulse, step, and frequency responses]]6 KB (897 words) - 16:44, 7 December 2017
- ...herapeutic purposes. They are analytical devices that convert a biological response into an electric signal. Biosensor technology incorporates a wide range of ...spectral analysis; design of finite impulse response and infinite impulse response digital filters; processing of random signals. Speech processing; vocal tra12 KB (1,702 words) - 20:48, 9 April 2018
- ...and the unit impulse response h(t), one can either directly calculate the response y(t) via convolution in the time domain, or one can apply the Fourier trans Given: a signal x(t) = cos(2π440t), and the unit impulse response h(t) = δ(t-7)5 KB (865 words) - 16:23, 2 December 2018
- ...method to achieve this is to convolve the audio recording with an impulse response taken from the concert venue, or another location with similar acoustics.341 B (55 words) - 20:19, 2 December 2018
- ...method to achieve this is to convolve the audio recording with an impulse response taken from the concert venue, or another location with similar acoustics. ===Audio Impulse Response===7 KB (1,070 words) - 00:57, 3 December 2018
- An LTI System with impulse response h[n] is BIBO stable if h[n] is absolutely summable.6 KB (1,040 words) - 00:57, 2 December 2019
