Search results for "Functions" - Rhea

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• ECE 301 Fall 2007 mboutin Functions in Matlab
  [[Category: Functions]] ...save you the trouble of typing the same lines of code over and over again. Functions are written in m-files. Open MATLAB, then go to file->new->m-file. Let's be
  2 KB (356 words) - 12:07, 18 December 2008
• Generating Functions MA375Fall2008walther
  245 B (34 words) - 07:51, 3 December 2008
• HW1.4 Ben Laskowski - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= ==Periodic Functions==
  1 KB (206 words) - 06:09, 14 April 2010
• HW1.4 Wei Jian Chan - Periodic and Non periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= == Periodic Functions ==
  645 B (90 words) - 06:11, 14 April 2010
• HW1.4 Scott Erdbruegger - Periodic and Non periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  875 B (133 words) - 06:11, 14 April 2010
• HW1.4 Max Paganini - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= == Periodic Functions ==
  1 KB (180 words) - 06:13, 14 April 2010
• HW1.4 Hetong Li- Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  701 B (119 words) - 06:17, 14 April 2010
• HW1.4 Ryan Scott - Period and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  574 B (85 words) - 06:19, 14 April 2010
• HW1.4 Phil Cannon - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= == Periodic Functions in Continuous Time ==
  1 KB (163 words) - 06:19, 14 April 2010
• HW1.4 Zachary Curosh - Periodic and Non-periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= == Periodic Functions in CT - The Tangent Function ==
  1,003 B (148 words) - 06:21, 14 April 2010
• HW1.4 Justin Kietzman - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  856 B (140 words) - 06:26, 14 April 2010
• HW1.4 Paul Scheffler - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= == Non-Periodic Functions ==
  779 B (124 words) - 06:27, 14 April 2010
• HW1.4 Travis Safford - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  ==Periodic Functions== Periodic functions are functions that repeat over and over for a specific period. More specifically, a func
  648 B (117 words) - 19:01, 4 September 2008
• HW1.4 Scott Hamilton - Periodic Functions ECE301Fall2008mboutin
  ==Periodic Functions== A great example for demonstrating periodic and non-periodic functions as well as differences between Discrete and Continuous Time is the sine fun
  873 B (149 words) - 16:24, 4 September 2008
• HW1.4 Nicholas Gentry - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  == Periodic / Non-Periodic Functions ==
  897 B (156 words) - 04:16, 5 September 2008
• HW1.4 Virgil Hsieh - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  2 KB (300 words) - 19:02, 4 September 2008
• HW1.4 Jayanth Athreya-Periodic and non-periodic functions ECE301Fall2008mboutin
  677 B (97 words) - 19:44, 4 September 2008
• HW1.4 Xujun Huang -Periodic and non-periodic functions ECE301Fall2008mboutin
  121 B (18 words) - 20:24, 4 September 2008
• HW1.4 Carlos Leon - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  == Periodic Functions == ==Non-Periodic Functions ==
  438 B (72 words) - 20:53, 4 September 2008
• HW1.4 Kofo Adafin - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  Remember that constant functions like Y=2 and the like are periodic for CT and DT.
  175 B (35 words) - 02:36, 5 September 2008
• HW1.4 Kofo Adafin - Periodic and Aperiodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= Remember that constant functions like Y=2 and the like are periodic for CT and DT.
  685 B (102 words) - 06:16, 14 April 2010
• HW1.4 Nicholas Browdues - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  688 B (106 words) - 06:08, 14 April 2010
• HW1.4 Sourabh Ranka-Periodic and non-periodic functions with examples ECE301Fall2008mboutin
  ==Periodic functions== ==Non-Periodic functions==
  566 B (79 words) - 08:16, 5 September 2008
• HW1.4 Hang Zhang - Periodic vs Non-period Functions ECE301Fall2008mboutin
  Periodic functions are functions that return the same to the same <math>y</math> value after a given interva Non-periodic functions are functions that do not return to the same value after a given interval. An example for
  597 B (102 words) - 09:11, 5 September 2008
• HW1.4 Monil Goklani - Periodic and Non-periodic Functions ECE301Fall2008mboutin
  575 B (98 words) - 09:58, 5 September 2008
• HW1.4 Sang Mo Je - periodic and non-periodic functions ECE301Fall2008mboutin
  597 B (99 words) - 13:24, 5 September 2008
• HW1.4 Eric Smith - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  339 B (64 words) - 14:37, 5 September 2008
• Lecture 5 - Discriminant Functions Old Kiwi
  - ''Discriminant Functions'' '''Discriminant Functions''': one way of representing classifiers
  6 KB (916 words) - 07:47, 17 January 2013
• Lecture 6 - Discriminant Functions Old Kiwi
  =Lecture 6- Discriminant Functions= - Discriminant Functions
  9 KB (1,586 words) - 07:47, 17 January 2013
• Lecture 8 - MLE, BPE and Linear Discriminant Functions Old Kiwi
  * Linear Discriminant Functions == Linear Discriminant Functions ==
  5 KB (792 words) - 07:48, 17 January 2013
• Lecture 9 - Linear Discriminant Functions Old Kiwi
  8 KB (1,307 words) - 07:48, 17 January 2013
• Linear discriminant functions Old Kiwi
  *defining c linear discriminant functions == More on Linear Discriminant Functions ==
  2 KB (433 words) - 22:11, 10 March 2008
• Linear Discriminant Functions Old Kiwi
  -defining c linear discriminant functions
  2 KB (428 words) - 08:12, 7 April 2008
• Kernel Functions Old Kiwi
  ...ationally cheaper than the explicit computation of the coordinates. Kernel functions have been introduced for sequence data, text, images, as well as vectors.
  413 B (65 words) - 09:18, 7 April 2008
• Linear Discriminant Functions (LDF) Old Kiwi
  Functions that are linear combinations of x.
  340 B (63 words) - 00:40, 17 April 2008
• Lecture 9 - Linear Discriminant Functions OldKiwi
  9 KB (1,341 words) - 10:15, 10 June 2013
• Rep and Comb functions : Lecture on 26/08/09
  2 KB (365 words) - 06:38, 25 August 2010
• Rep and Comb functions : Lecture on 26/09/09
  #REDIRECT [[Rep and Comb functions : Lecture on 26/08/09]]
  58 B (7 words) - 10:40, 23 September 2009
• Discriminant Functions
  =Discriminant Functions=
  111 B (13 words) - 07:47, 11 May 2010
• Compute DSFT product two step functions ECE438F11
  First off notice that this equation can easily be separated into two functions <math>g[m]=2^{-m}u[m]</math> and <math>h[n]=2^{-n}u[n]</math> where <math>f
  3 KB (473 words) - 11:59, 26 November 2013
• Lecture 6 - Discriminant Functions OldKiwi
  - Discriminant Functions ...are, as long as they are the same for all classes, the final discriminant functions would be linear (square terms dropped).
  10 KB (1,604 words) - 10:17, 10 June 2013
• Lecture 5 - Discriminant Functions OldKiwi
  - ''Discriminant Functions'' '''Discriminant Functions''': one way of representing classifiers
  6 KB (946 words) - 10:17, 10 June 2013
• Lecture 8 - MLE, BPE and Linear Discriminant Functions OldKiwi
  * Linear Discriminant Functions == Linear Discriminant Functions ==
  6 KB (833 words) - 10:16, 10 June 2013
• Discriminant Functions For The Normal(Gaussian) Density
  = Discriminant Functions For The Normal Density - Part 1 = &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;Before talking about discriminant functions for the normal density, we first need to know what a normal distribution is
  5 KB (844 words) - 04:43, 13 April 2013
• Discriminant Functions For The Normal(Gaussian) Density - Part 2
  = Discriminant Functions For The Normal Density - Part 2 = ...nbsp;&nbsp;&nbsp;&nbsp; Continuing from where we left of in [[Discriminant Functions For The Normal(Gaussian) Density|Part 1]], in a problem with feature vecto
  11 KB (1,792 words) - 15:09, 19 April 2013
• ECE600 F13 rv Functions of random variable mhossain
  <font size= 3> Topic 8: Functions of Random Variables</font size> We will only consider functions g in this class for which Y<math>^{-1}</math>(A) ∈ ''F'' ∀A ∈ B('''R
  9 KB (1,723 words) - 11:11, 21 May 2014
• ECE600 F13 Characteristic Functions mhossain
  <font size= 3> Topic 10: Characteristic Functions</font size> ==Characteristic Functions==
  5 KB (804 words) - 11:12, 21 May 2014
• ECE600 F13 Functions of Two Random Variables mhossain
  <font size= 3> Topic 13: Functions of Two Random Variables</font size> ==Two Functions of Two Random Variables==
  9 KB (1,568 words) - 11:12, 21 May 2014
• Discussion about Discriminant Functions for the Multivariate Normal Density
  '''Discussion about Discriminant Functions for the Multivariate Normal Density''' <br /> ...'Gaussian Density''''', received more attention than other various density functions that have been investigated in pattern recognition.
  14 KB (2,287 words) - 09:46, 22 January 2015
• Questions limits of functions
  Questions and Comments for: [[Limits_of_functions|Limits of Functions]] [[Limits_of_functions|Back to "Limits of Functions" tutorial]]
  943 B (170 words) - 20:34, 13 May 2014

Page text matches

• How to type Math Equations
  Just wanted to point out that a number of one-line functions will render all tiny and ugly unless you go to "My Preferences" at the top
  3 KB (483 words) - 05:02, 23 September 2011
• Rhea Portal
  One of the core functions of Rhea is to enable students to create and share learning material with ot
  6 KB (877 words) - 06:22, 21 March 2013
• ECE 301 (SanSummer2008)
  ...unit step functions_(ECE301Summer2008asan)|The unit impulse and unit step functions]]
  7 KB (921 words) - 05:08, 21 October 2011
• 1.27 (a,b,c,f) (ECE301Summer2008asan)
  ...nded then the output y(t) is also bound because it is the sum of two bound functions. ...und, the function y(t) is also bound since it is the multiple of two bound functions.
  3 KB (534 words) - 10:16, 30 January 2011
• 2.11 (ECE301Summer2008asan)
  ...tau-5)} + e^{-3(\tau-3)}</math>. I think you then may need to add the step functions to the answer so that it is general for all cases: <math>y(\tau) = e^{-3(\t
  1 KB (301 words) - 06:10, 5 January 2009
• Problem 6 (ECE301Summer2008asan)
  NO: The inverse transform of this signal is a set of delta functions that are not periodic. YES: Taking the FT of c(t) we get delta functions at <math>\omega_c</math> and <math>-\omega_c</math>.
  4 KB (777 words) - 10:49, 21 November 2008
• ECE301:SanSummer08:Exam II (ECE301Summer2008asan)
  Lecture 15 pg. 18 gives details of the properties for these types of functions.
  4 KB (815 words) - 09:57, 21 November 2008
• ECE 301 Fall 2007 mboutin Automated Property Verification
  =Basics: Systems as "functions that operate on functions"= ...on functions" way of thinking can be extended even further to the "system" functions (such as timeshift above) to prove things about systems.
  3 KB (518 words) - 16:00, 23 April 2013
• ECE 301 Fall 2007 mboutin DT Fourier Series in Matlab
  Good find in the functions library.
  5 KB (834 words) - 16:26, 23 April 2013
• ECE 301 Fall 2007 mboutin Matlab
  ==[[ECE 301 Fall 2007 mboutin Functions in Matlab|Functions in Matlab]]== {{:ECE 301 Fall 2007 mboutin Functions in Matlab}}
  1,000 B (121 words) - 11:50, 18 December 2008
• ECE 301 Fall 2007 mboutin Guide to Partial Fraction Expansion
  ...of partial fraction expansion. Partial fraction expansion allows us to fit functions to the known ones given by the known Fourier Transform pairs table.
  4 KB (616 words) - 16:26, 23 April 2013
• ECE 301 Fall 2007 mboutin Meaning of Fourier Transform
  ...number of frequency components. The Fourier Transform applies to aperiodic functions and breaks the function into as infinite number of infinitesimally close fr
  3 KB (431 words) - 16:29, 23 April 2013
• ECE 301 Fall 2007 mboutin Functions in Matlab
  [[Category: Functions]] ...save you the trouble of typing the same lines of code over and over again. Functions are written in m-files. Open MATLAB, then go to file->new->m-file. Let's be
  2 KB (356 words) - 12:07, 18 December 2008
• Lecture Schedule (ECE438BoutinSpring09)
  ...le="padding-right: 1em;" | Wednesday || 03/11/09 || Estimating correlation functions <span style="color:red"> HW6 due </span> || 3.1.6
  6 KB (689 words) - 06:59, 2 August 2010
• Main Page MA181Fall2008bell
  ...cdots command. This stands for 'center dots'. There are also other 'dot' functions.
  3 KB (390 words) - 05:35, 10 August 2010
• Jo's favorite Theorem MA453Fall2008walther
  ...sense as an extension to the incompleteness theorem -- Not only are there functions whose output we cannot compute, but it is impossible to differentiate those
  972 B (158 words) - 16:39, 21 January 2009
• Galymzhan Uteulin Favorite Theorem
  ...ner), the sandwich theorem, squeeze theorem.. So the definition. We have 3 functions f, g, h on some certain interval, and they hold following inequality on thi
  761 B (141 words) - 06:34, 26 January 2009
• CourseNotes2 (BoutinSpring2009)
  <li>Singularity Functions</li>
  3 KB (508 words) - 05:43, 16 September 2013
• CourseNotes3 (BoutinSpring2009)
  <p><h3><u>Delta Functions</u></h3><br/>
  2 KB (408 words) - 05:43, 16 September 2013
• Hw3 comments (ECE438BoutinSpring09)
  - Using sinc and rect functions along with Fourier transform properties is key to solving some of the probl
  546 B (93 words) - 19:27, 18 February 2009
• Temporary Math Page
  ===Functions===
  1 KB (169 words) - 20:29, 12 February 2009
• What you want to know for Exam 1
  *General knowledge of transfer functions
  710 B (115 words) - 13:35, 17 February 2009
• CourseNotes20 (BoutinSpring2009)
  <span class="cheader">3.1.6 Estimating Correlation functions</span>
  3 KB (522 words) - 05:45, 16 September 2013
• Question 7.4
  '''For part D''' you will just use the expected value functions for <math>E(x)</math> and <math>E(x^2)</math> The formulas are as follows:
  2 KB (292 words) - 05:18, 2 April 2009
• Course evaluation (ECE438BoutinSpring2009)
  ...o enjoys photo-editing, it was really neat for me to learn how most of the functions in the programs and tools I use to edit photos work. However, it seems that
  4 KB (709 words) - 12:42, 3 May 2009
• Reading guide (ECE438BoutinSpring2009)
  .../3.1_random_signals/3.1.6_estimating_correl.pdf Estimation of Correlation Functions]
  8 KB (1,226 words) - 10:40, 1 May 2009
• ECE438 (BoutinFall2009)
  * [[ECE_438_Fall_2009_mboutin_basic2Dfunctions|Plots of some basic 2D functions]]
  7 KB (1,067 words) - 11:05, 25 June 2010
• 4.1a Jared McNealis ECE302Fall2008sanghavi
  ...o just look at Pascal's triangle which is a visual representation of these functions. And through the properties of symmetry that the triangle possesses it is a
  347 B (59 words) - 17:40, 23 September 2008
• Cheat2 ECE302Fall2008sanghavi
  Marginal Probability Density Functions:
  4 KB (722 words) - 12:05, 22 November 2011
• Problem 1 - Gregory Pajot ECE302Fall2008sanghavi
  ...ntiating factorials, the only thing that would come to mind is using Gamma functions: http://en.wikipedia.org/wiki/Gamma_function
  317 B (56 words) - 17:06, 10 November 2008
• Main Page ECE641Fall2008bouman
  ...scussion uses prefix notation instead of infix (so everything 'reads' like functions). It may be overkill, but I want to be notationally explicit. * However, I noticed that I made a mistake based on the bad use of dirac functions. To clarify, if boolean operators are a function of two reals, ie <math>\n
  3 KB (543 words) - 11:55, 12 December 2008
• Note on Kiwi display with LaTeX MA181Fall2008bell
  Just wanted to point out that a number of one-line functions will render all tiny and ugly unless you go to "My Preferences" at the top
  590 B (102 words) - 11:50, 3 October 2008
• Page 536 Problem 1 MA181Fall2008bell
  ...rt C, since e^a is valid for all real a, and since V(0) and A(0) are valid functions (i.e. V(0) does not give a no solution), the limit as t approaches zero fro
  1 KB (245 words) - 17:31, 6 October 2008
• Useful Formulas MA181Fall2008bell
  ==Hyperbolic Functions and Identities== ...umbers of sines and cosines, unfortunately, as you end up with products of functions of different values. --[[User:Jmason|John Mason]]
  3 KB (584 words) - 09:12, 21 October 2008
• A Tough Integral MA181Fall2008bell
  ...ometric substitutions (or at least, not easily) but I can using hyperbolic functions. See if you can solve Special points if you can solve it using trig functions.
  858 B (146 words) - 10:37, 1 November 2008
• Homework 15 MA181Fall2008bell
  ...le with the integral, take a look at the derivatives of inverse hyperbolic functions. --[[User:Jmason|John Mason]]
  3 KB (531 words) - 08:53, 28 October 2008
• A Baffling Fact MA181Fall2008bell
  ...would act like. As an imaginary power causes a real base to act like trig functions, an imaginary power should, possibly, cause an imaginary base to act like a ...en more fun finding the imaginary portions of hyperbolic and trigonometric functions. --[[User:Jmason|John Mason]]
  4 KB (634 words) - 04:44, 23 September 2011
• Other Resources MA375Fall2008walther
  ...lanations of the mathematics behind probability, sequences, and generating functions. You may find it useful as a second source.
  880 B (140 words) - 18:11, 19 October 2008
• RandomQuestions MA375Fall2008walther
  == Generating Functions == Could someone explain how generating functions work? I've had a lot of trouble with that material.
  609 B (96 words) - 19:39, 19 November 2008
• Homework 1 ECE301Fall2008mboutin
  == Periodic and Non-Periodic Functions == * [[HW1.4 Adrian Delancy_ECE301Fall2008mboutin]]- Periodic and Non-Periodic Functions
  24 KB (3,272 words) - 05:58, 1 September 2010
• HW1.4 Ben Laskowski - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= ==Periodic Functions==
  1 KB (206 words) - 06:09, 14 April 2010
• HW1.4 Wei Jian Chan - Periodic and Non periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= == Periodic Functions ==
  645 B (90 words) - 06:11, 14 April 2010
• HW1.4 Scott Erdbruegger - Periodic and Non periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  875 B (133 words) - 06:11, 14 April 2010
• HW1.4 Max Paganini - Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= == Periodic Functions ==
  1 KB (180 words) - 06:13, 14 April 2010
• HW1.4 Derek Hopper ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  481 B (60 words) - 06:15, 14 April 2010
• HW1.4 Ben Horst ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  1 KB (212 words) - 06:15, 14 April 2010
• HW1.4 Hetong Li- Periodic and Non-Periodic Functions ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])=
  701 B (119 words) - 06:17, 14 April 2010
• HW1.4 Jun Hyeong Park ECE301Fall2008mboutin
  =Periodic versus non-periodic functions ([[Homework_1_ECE301Fall2008mboutin|hw1]], [[ECE301]])= == Example of Periodic functions ==
  519 B (70 words) - 06:18, 14 April 2010
• HW1.4 Aishwar Sabesan ECE301Fall2008mboutin
  == Periodic Functions == ...a function which repeats over a period of time. A good example of periodic functions are:
  1 KB (228 words) - 06:10, 14 April 2010
• HW1 tips ECE301Fall2008mboutin
  ==== Functions for interacting with wav files ====
  2 KB (255 words) - 07:14, 3 September 2008