Create the page "Blue" on this wiki! See also the search results found.
- ...d, you chose a title of an existing page and did not create a new one. The blue link gets you simply to the already existing one. Use distinctive names for7 KB (1,026 words) - 15:11, 16 December 2011
- ...age and the next 24 Bits for the RGB values (first 8 red, than green, than Blue). We devide these values in the separate color components and write these v3 KB (486 words) - 11:58, 20 April 2012
- The blue plot is the signal without LPF and the red plot is the signal with LPF. We The blue part in the middle near 0 should be caused by the FIR filter because FIR fi10 KB (1,707 words) - 10:44, 6 May 2012
- * [[CorrelationvsCovariance|Correlation vs. Covariance, a class project by Blue]]1 KB (195 words) - 07:52, 15 May 2013
- ...d, you chose a title of an existing page and did not create a new one. The blue link gets you simply to the already existing one. Use distinctive names for7 KB (1,081 words) - 05:28, 2 May 2012
- ...d, you chose a title of an existing page and did not create a new one. The blue link gets you simply to the already existing one. Use distinctive names for7 KB (1,016 words) - 14:59, 20 September 2012
- ...e, 3-nearest neighbors are counted and because red triangles are more than blue squares, the class of green circle is red triangle.10 KB (1,609 words) - 11:22, 10 June 2013
- ...like feature. The parts of the image are most apparent in the hat and the blue curls stemming from it.1 KB (196 words) - 17:45, 21 April 2013
- ...empe chains. If we have a map in which every region is colored red, green, blue or yellow except one, say X. If this final region X is not surrounded by re ...surrounded by regions A, B, C, D in order, colored red, yellow, green and blue then there are two cases to consider.5 KB (950 words) - 06:55, 21 March 2013
- ...at is the probability that a ball chosen at random from the bucket will be blue?'' ...comes will result in a blue ball (event); so the probability of choosing a blue ball, using Equation 1, is 4/10<br>''12 KB (2,113 words) - 06:50, 21 March 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{1. } \left( \text{20 pts} \right) \text{ Consider the optimization pr '''<math>\color{blue}\left( \text{i} \right) \text{ Characterize feasible directions at the poin11 KB (1,693 words) - 10:09, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{2. } \left( \text{20 pts} \right) \text{ Use the simplex method to so <math>\color{blue}\text{Solution 1:}</math>9 KB (1,284 words) - 10:10, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{3. } \left( \text{20 pts} \right) \text{ Solve the following linear p <math>\color{blue}\text{Solution 1:}</math>8 KB (1,062 words) - 10:10, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{4. } \left( \text{20 pts} \right) \text{ Consider the following model <math>\color{blue}\text{Use the Lagrange multiplier approach to calculate the optimal control8 KB (1,179 words) - 10:10, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{5. } \left( \text{20 pts} \right) \text{ Consider the following optim <math>\color{blue} \text{The point } x^{*}=\begin{bmatrix}17 KB (2,526 words) - 10:11, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue} \text{ Consider the optimization problem, }</math></span></font> '''<math>\color{blue}\left( \text{i} \right) \text{ Characterize feasible directions at the poin6 KB (855 words) - 10:17, 13 September 2013
- ...d, you chose a title of an existing page and did not create a new one. The blue link gets you simply to the already existing one. Use distinctive names for6 KB (934 words) - 08:53, 24 September 2012
- ...d, you chose a title of an existing page and did not create a new one. The blue link gets you simply to the already existing one. Use distinctive names for4 KB (593 words) - 12:27, 14 December 2012
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{ Let } \mathbf{X}\text{, }\mathbf{Y}\text{, and } \mathbf{Z} \text{ b '''<math>\color{blue}\left( \text{a} \right) \text{Find the joint probability density function }4 KB (547 words) - 16:40, 30 March 2015
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{Consider the following discrete space system with input } x(m,n) \tex <math>\color{blue}4 KB (665 words) - 10:25, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{1. } \left( \text{25 pts} \right) \text{ Let X, Y, and Z be three joi '''<math>\color{blue}\left( \text{a} \right) \text{ Find the joint probability density function5 KB (711 words) - 09:05, 27 July 2012
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{1. } \left( \text{25 pts} \right) \text{ Let X, Y, and Z be three joi '''<math>\color{blue}\left( \text{a} \right) \text{ Find the joint probability density function8 KB (1,247 words) - 10:29, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{Show that if a continuous-time Gaussian random process } \mathbf{X}(t ===== <math>\color{blue}\text{Solution 1:}</math> =====6 KB (932 words) - 10:30, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{Consider the following discrete space system with input } x(m,n) \tex <math>\color{blue}8 KB (1,206 words) - 10:31, 13 September 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue}\text{Consider an image } f(x,y) \text{ with a forward projection} <math>\color{blue}17 KB (2,783 words) - 01:51, 31 March 2015
- ...d, you chose a title of an existing page and did not create a new one. The blue link gets you simply to the already existing one. Use distinctive names for5 KB (761 words) - 02:09, 23 August 2012
- | Blue10 KB (1,422 words) - 20:14, 30 April 2013
- ...es by going through each marble and placing them inside a "bucket" labeled blue, red, orange, yellow, etc, and Viola! your marbles are sorted. </blockquote7 KB (1,030 words) - 11:27, 18 March 2013
- <font face="serif"></font><math>\color{blue}\text{Related Problem: }</math>2 KB (331 words) - 10:11, 13 September 2013
- <font face="serif"></font><math>\color{blue}\text{Related Problem: }</math>11 KB (1,373 words) - 10:12, 13 September 2013
- blue = 60% pixel. Given that we first sampled a red pixel, then a green and blue, what is the probability that we have been sampling5 KB (779 words) - 19:36, 27 January 2013
- <font color="#ff0000"><span style="font-size: 19px;"><math>\color{blue} <font face="serif"></font><math>\color{blue}\text{Related Problem: }</math>4 KB (418 words) - 10:12, 13 September 2013
- <math>\color{blue} <math>\color{blue}5 KB (593 words) - 10:12, 13 September 2013
- <math>\color{blue} Each coefficient <math>\color{blue}\mu </math> can be either 0 or not. When solving the equations, a systemati10 KB (1,406 words) - 10:12, 13 September 2013
- <span style="color:blue">I have seen 'E(x^n) is defined as:'</span> <math>{\color{blue} E[X^{n}]=\int_{-\infty }^{\infty }x^{n}f_{X}(x)dx \;\;\; (1)}</math>2 KB (388 words) - 14:00, 25 March 2013
- where R, G and B are the red, green, and blue inputs in the range 0 to 255 that are used to modulate physically realizabl3 KB (471 words) - 10:25, 13 September 2013
- ...he pdf given in the problem statement. Specifically, the new <math>\color{blue} f_X(x)</math> is nonzero only on the range dictated by the occurrence of e :<math>\color{blue}2 KB (299 words) - 09:17, 27 March 2013
- ...u like art, you'd know that there are three primary colors: red, green and blue. ...the other two. You can imagine this by trying to make red out of green and blue. Logically, since they still manage to generate every color and don't have14 KB (2,247 words) - 13:09, 3 March 2015
- 7. A fun-size bag of M&M's has 15 M&M's. There are 5 red, 3 green, 3 blue, 2 yellow, 1 brown, and 1 orange. ...take 3 M&M's. What is the probability that 1 is red, 1 is green, and 1 is blue?10 KB (1,656 words) - 13:08, 25 November 2013
- *[[Practice Question comparing probabilities Gaussians ECE302S13Boutin|Blue - Comparing probabilities for different Gaussians]]2 KB (232 words) - 10:56, 14 April 2013
- by Blue7 KB (1,146 words) - 06:19, 5 May 2013
- ...) displayed on their own as well as superimposed on one another (images in blue)]]6 KB (913 words) - 07:24, 26 February 2014
- ...d, you chose a title of an existing page and did not create a new one. The blue link gets you simply to the already existing one. Use distinctive names for2 KB (317 words) - 14:14, 19 August 2013
- Hzillmer, in Lecture 29, in the blue text near the middle of the page, Dr. Bell worked out the first few Pn(x) f6 KB (1,130 words) - 18:15, 5 November 2013
- ===== <math>\color{blue}\text{Solution 1:}</math><br> ===== ===== <math>\color{blue}\text{Solution 2:}</math> =====6 KB (995 words) - 09:21, 15 August 2014
- ===== <math>\color{blue}\text{Solution 1:}</math> ===== ===== <math>\color{blue}\text{Solution 2:}</math> =====12 KB (1,948 words) - 10:16, 15 August 2014
- ...best fit using least square regression in magenta. As we can see, the blue line and magenta line are very close to each other, both of them are a good ...ginal data set, the black line shows the direction of the eigenvector, the blue dots are the points which are projections from the original data onto the p22 KB (3,459 words) - 10:40, 22 January 2015
- ...following example. In this experiment samples are 200 pre-labeled (red or blue) points. The task is to find the classification boundaries under different15 KB (2,345 words) - 10:52, 22 January 2015
- ...e figure title doesn’t match the describing text. Only mentioned red and blue, not other colors.2 KB (258 words) - 17:53, 10 May 2014
- A visualization of the decision boundaries (red is class 1 blue is class 2) from the above example with k=2 and k=7 shows that larger k res9 KB (1,604 words) - 10:54, 22 January 2015