(New page: E[x-q(x))^2] = Integral from -inf to inf (x-q(x))^2*fx(x)dx =integral from 0 to 1 (x-q(x))^2dx E[g(x)] = integral from -inf to inf g(x)fx(x)dx)
 
 
Line 3: Line 3:
  
 
E[g(x)] = integral from -inf to inf g(x)fx(x)dx
 
E[g(x)] = integral from -inf to inf g(x)fx(x)dx
 +
 +
E[x-q(x))^2] = split the integral up at 1/2
 +
 +
= integral 0 to 1/2 (x-0)^2dx + integral 1/2 to 1 (x-1/2)^2dx

Latest revision as of 07:44, 10 December 2008

E[x-q(x))^2] = Integral from -inf to inf (x-q(x))^2*fx(x)dx =integral from 0 to 1 (x-q(x))^2dx

E[g(x)] = integral from -inf to inf g(x)fx(x)dx

E[x-q(x))^2] = split the integral up at 1/2

= integral 0 to 1/2 (x-0)^2dx + integral 1/2 to 1 (x-1/2)^2dx

Retrieved from "https://www.projectrhea.org/rhea/index.php?title=Justin_Mauck_10.4_ECE302Fall2008sanghavi&oldid=2365"
Shortcuts
Help Main Wiki Page Random Page Special Pages Log in
Search

Alumni Liaison

Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

Buyue Zhang