Create the page "Max" on this wiki! See also the search results found.
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- =Rhea Section for MA 279 Professor Max, Spring 2024= '''Professor Max, Spring 2024'''3 KB (488 words) - 10:14, 13 November 2023
Page text matches
- <math>M=\text{Max}\ \{ |f'(x)|: a\le x\le b\}</math>. Define <math>R_N</math>3 KB (483 words) - 06:02, 23 September 2011
- ** [[HW1.3 Max Paganini - Polar Form of the Complex Number_ECE301Fall2008mboutin]]7 KB (963 words) - 07:36, 4 May 2015
- Find the probability density function of <math class="inline">\mathbf{Y}=\max\left\{ \mathbf{X}_{1},\cdots,\mathbf{X}_{n}\right\}</math> .5 KB (735 words) - 01:17, 10 March 2015
- ** [[HW5.2 Max Paganini_ECE301Fall2008mboutin|Computation of CT Fourier transform]] ** [[HW5.3 Max Paganini_ECE301Fall2008mboutin|Computation of Inverse CT Fourier transform]7 KB (966 words) - 18:17, 23 February 2015
- ** [[HW4.1 Max Paganini_ECE301Fall2008mboutin|Example of computation of Fourier series coe7 KB (992 words) - 18:16, 23 February 2015
- \underset{\theta \in \Theta_0} \operatorname{max} P_F(\theta) \leq \alpha15 KB (2,306 words) - 10:48, 22 January 2015
- In other words,<math>\hat{\theta}</math> = arg max<sub>θ</sub> L(θ), where <math>\hat{\theta}</math> is the best estimate of12 KB (1,986 words) - 10:49, 22 January 2015
- arg \max \limits_{i} p({\mathbf{x}}|\omega_i)P(\omega_i).9 KB (1,382 words) - 10:47, 22 January 2015
- <center><math>arg \max \limits_{\alpha} \quad\quad \sum_{i=1}^{n}\alpha_i-\frac{1}{2}\sum_{i=1}^{n14 KB (2,241 words) - 10:56, 22 January 2015
- 取<math>P(y_k|x) = max\{P(y_1|x),P(y_2|x, ... , P(y_m|x) \}</math>,则<math>x \in y_k</math>。6 KB (535 words) - 10:43, 22 January 2015
- <math> \leqslant \frac{1}{j V_j} max \ \phi \int \frac{1}{V_j} \phi(\frac{x - x_0}{h_j}) \rho(x)\, dx </math> <math> = \frac{1}{j V_j} max\ \left ( \rho(x) * \frac{1}{V_j} \phi(\frac{-x}{h_j}) \right ) \Bigg|_{x_012 KB (2,086 words) - 10:54, 22 January 2015
- ...><math>\hat{\theta}_{\mathrm{ML}}(x)= \underset{\theta}{\operatorname{arg\,max}} \ f(x | \theta) </math></center>10 KB (1,600 words) - 10:52, 22 January 2015
- Local max are where gradient is zero. Differentiating the log likelihood results in t19 KB (3,418 words) - 10:50, 22 January 2015
- ...e <math>\infty</math> differentiate P <math>(Prob(D|P))</math>, so local max is where derivative = 0. so local max are where <math>\nabla=0</math>11 KB (2,046 words) - 10:51, 22 January 2015
- Nyquist Condition: <math>f_s = 2f_{max}</math> <br /> ...r><span class="math"> ''f''<sub>''s''</sub> = 2 * ''f''<sub>''max''</sub> = 2 * (330''Hz'') = 660''Hz''</span>. Let’s sample at6 KB (904 words) - 20:04, 16 March 2015
- [[2024_Spring_MA_279_Max|Spring 2024, Prof. Max]]432 B (51 words) - 10:15, 13 November 2023
- D2\pi T_1f_{max} & D\omega_c = D 2 \pi T_1 f_{max} < \pi\\7 KB (1,035 words) - 19:07, 16 March 2015
- <math> D*2\pi*T_1*f_{MAX} < \pi </math> <math>{T_2/T_1}*2\pi*T_1*f_{MAX} < \pi </math>4 KB (566 words) - 09:59, 14 March 2015
- D2\pi T_1 f_{max} < \pi\\ \frac{T_2}{T_1}2\pi T_1f_{max} < \pi\\4 KB (641 words) - 09:58, 14 March 2015
- <math>{f}_{M} </math> is max frequency of CT signal3 KB (542 words) - 10:00, 14 March 2015
