Finding 2-Norm of Weighted Sum of Complex Exponentials

tsebamm · Nov 4, 2010

Hi,

Homework Statement

We have a signal y(n) which is the weighted sum of two complex exponentials
y(n)=A*φk(n)+Β*φl(n)

k different to l
A,B are complex constants

I have to find the 2-norm of y(n). Can anyone help me with that?
Am I going to solve it with parseval's theorem?

Homework Equations

φκ=exp(2πjkn/N)
φl=exp(2πjln/N)

Thanks in advance,

Nikolas

fzero · Nov 4, 2010

You might want to define what you mean by 2-norm. Is it the [tex]\ell^2[/tex] norm, where the [tex]\varphi_k(n)[/tex] are viewed as (perhaps elements of) sequences? Or is it the [tex]L^2[/tex] norm where the [tex]\varphi_k(n)[/tex] are functions of [tex]n[/tex]? If it's the latter, you can use Parseval's theorem. In either case, your norm is going to include the norm on [tex]\mathbb{C}[/tex],

[tex]|x| = \sqrt{ x^*x }.[/tex]

Finding 2-Norm of Weighted Sum of Complex Exponentials

Homework Statement

Homework Equations

What is the "2-Norm" in the context of a weighted sum of complex exponentials?

How is the 2-Norm calculated for a weighted sum of complex exponentials?

Why is the 2-Norm important in finding the weighted sum of complex exponentials?

Can the 2-Norm be used to compare different weighted sums of complex exponentials?

Are there any limitations to using the 2-Norm for finding the weighted sum of complex exponentials?

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