Fourier transform of delta function and exponential function

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I am trying to understand the concept of taking Fourier Transform from delta function and exponential function in calculation Bello Function (deterministic description)

The Bello functions are 4 functions that describe the channel: channel
impulse response $h(tau,t)$, time-varying function $H(f,t)$,
frequency doppler function $h(f,f_{d})$ and delay doppler spread
function $h(tau,f_d)$.

Let's assume the function $e^{-j2pi f (at)} $
Now i would like to take Fourier transform in term of doppler frequence, fd.
FT of exponential function is delta function.

I have got $delta(fd-af)$. Is it correct? or it sould be $delta(fd-at)$? Should I transform the time into frequence?

edited Nov 19 at 11:41

pedroth

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asked Nov 12 at 10:07

LenaPark

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0
down vote

favorite

I am trying to understand the concept of taking Fourier Transform from delta function and exponential function in calculation Bello Function (deterministic description)

The Bello functions are 4 functions that describe the channel: channel
impulse response $h(tau,t)$, time-varying function $H(f,t)$,
frequency doppler function $h(f,f_{d})$ and delay doppler spread
function $h(tau,f_d)$.

Let's assume the function $e^{-j2pi f (at)} $
Now i would like to take Fourier transform in term of doppler frequence, fd.
FT of exponential function is delta function.

I have got $delta(fd-af)$. Is it correct? or it sould be $delta(fd-at)$? Should I transform the time into frequence?

edited Nov 19 at 11:41

pedroth

345

asked Nov 12 at 10:07

LenaPark

add a comment |

up vote
0
down vote

favorite

I am trying to understand the concept of taking Fourier Transform from delta function and exponential function in calculation Bello Function (deterministic description)

The Bello functions are 4 functions that describe the channel: channel
impulse response $h(tau,t)$, time-varying function $H(f,t)$,
frequency doppler function $h(f,f_{d})$ and delay doppler spread
function $h(tau,f_d)$.

Let's assume the function $e^{-j2pi f (at)} $
Now i would like to take Fourier transform in term of doppler frequence, fd.
FT of exponential function is delta function.

I have got $delta(fd-af)$. Is it correct? or it sould be $delta(fd-at)$? Should I transform the time into frequence?

edited Nov 19 at 11:41

pedroth

345

asked Nov 12 at 10:07

LenaPark

I am trying to understand the concept of taking Fourier Transform from delta function and exponential function in calculation Bello Function (deterministic description)

The Bello functions are 4 functions that describe the channel: channel
impulse response $h(tau,t)$, time-varying function $H(f,t)$,
frequency doppler function $h(f,f_{d})$ and delay doppler spread
function $h(tau,f_d)$.

Let's assume the function $e^{-j2pi f (at)} $
Now i would like to take Fourier transform in term of doppler frequence, fd.
FT of exponential function is delta function.

I have got $delta(fd-af)$. Is it correct? or it sould be $delta(fd-at)$? Should I transform the time into frequence?

exponential-function fourier-transform dirac-delta

edited Nov 19 at 11:41

pedroth

345

asked Nov 12 at 10:07

LenaPark

edited Nov 19 at 11:41

pedroth

345

asked Nov 12 at 10:07

LenaPark

edited Nov 19 at 11:41

pedroth

345

edited Nov 19 at 11:41

pedroth

345

edited Nov 19 at 11:41

pedroth

345

asked Nov 12 at 10:07

LenaPark

asked Nov 12 at 10:07

LenaPark

asked Nov 12 at 10:07

LenaPark

add a comment |

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