(ML Estimation Rule)
(ML Estimation Rule)
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==ML Estimation Rule==
 
==ML Estimation Rule==
<math>\hat a_{ML} = \text{max}_a ( f_{X}(x_i;a) \text{For continuous} )</math>
+
<math>\hat a_{ML} = \text{max}_a ( f_{X}(x_i;a)   \text{continuous} )</math>
  
<math>\hat a_{ML} = \text{max}_a ( Pr(x_i;a) \text{For discrete} )</math>
+
<math>\hat a_{ML} = \text{max}_a ( Pr(x_i;a)   \text{discrete} )</math>
  
 
==MAP Estimation Rule==
 
==MAP Estimation Rule==

Revision as of 16:23, 18 November 2008

Covariance

  • $ COV(X,Y)=E[(X-E[X])(Y-E[Y])]\! $
  • $ COV(X,Y)=E[XY]-E[X]E[Y]\! $

Correlation Coefficient

$ \rho(X,Y)= \frac {cov(X,Y)}{\sqrt{var(X)} \sqrt{var(Y)}} \, $

Markov Inequality

Loosely speaking: In a nonnegative RV has a small mean, then the probability that it takes a large value must also be small.

  • $ P(X \geq a) \leq E[X]/a\! $

for all a > 0

Chebyshev Inequality

"Any RV is likely to be close to its mean"

$ \Pr(\left|X-E[X]\right|\geq C)\leq\frac{var(X)}{C^2}. $

ML Estimation Rule

$ \hat a_{ML} = \text{max}_a ( f_{X}(x_i;a) \text{continuous} ) $

$ \hat a_{ML} = \text{max}_a ( Pr(x_i;a) \text{discrete} ) $

MAP Estimation Rule

Bias of an Estimator, and Unbiased estimators

Confidence Intervals, and how to get them via Chebyshev

Alumni Liaison

BSEE 2004, current Ph.D. student researching signal and image processing.

Landis Huffman