Transforming Complex Exponential to Discrete Vector Form

In summary, Chen is seeking help in transforming a complex exponential with quadratic phase to a discrete form, specifically a vector form, in order to use the Wigner-Ville algorithm. They are struggling with representing the complex signal as a vector.
  • #1
chenrim
17
0
Hi,
I want to transform a complex exponential with quadratic phase to discrete form, in other words to a vector form.
can anyone help me with that?
Thanks
 
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  • #2
chenrim said:
Hi,
I want to transform a complex exponential with quadratic phase to discrete form, in other words to a vector form.
can anyone help me with that?
Thanks

Is this for a schoolwork assignment? What is the context?
 
  • #3
Yes it's somehow related
I want to use the Wigner-Ville algorithm, so in order to do it i need to make my signal discrete .
since it's a complex exponential i don't know how to represent this complex signal as a vector

thanks,
Chen
 

FAQ: Transforming Complex Exponential to Discrete Vector Form

How do you transform complex exponential to discrete vector form?

The transformation from complex exponential to discrete vector form involves converting a complex exponential equation, which has a real and imaginary component, into a vector form with real and imaginary parts represented as separate elements.

What is the purpose of transforming complex exponential to discrete vector form?

The purpose of this transformation is to simplify calculations and make it easier to analyze complex exponential equations using vector operations. It also allows for easier visualization and interpretation of the data.

What are the steps involved in transforming complex exponential to discrete vector form?

The steps involved include separating the real and imaginary components of the complex exponential, representing them as separate elements in a vector, and then performing any necessary vector operations to simplify the equation.

Can this transformation be applied to any complex exponential equation?

Yes, this transformation can be applied to any complex exponential equation as long as it follows the general form of real and imaginary components raised to a power.

Are there any limitations or drawbacks to transforming complex exponential to discrete vector form?

One potential limitation is that the vector form may not fully capture the complexity of the original equation, particularly if it is highly nonlinear. Additionally, this transformation may not always be necessary or useful, depending on the specific application.

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