0.3 Sampling, up--sampling, down--sampling, and multi--rate (Page 2/5)

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For the non-periodic case in [link] the spectrum is a function of continuous frequency and for the periodic case in [link] , the spectrum is a number sequence (a function of discrete frequency).

The spectrum of a sampled signal and the dtft

The discrete-time Fourier transform (DTFT) as defined in terms samples of a continuous function is

F_{d} (ω) = \sum_{n} f (T n) e^{- j ω T n}

and its inverse

f (T n) = \frac{T}{2 π} \int_{- π / T}^{π / T} F_{d} (ω) e^{j ω T n} d ω

can be derived by noting that $F_{d} (ω)$ is periodic with period $P = 2 π / T$ and, therefore, it can be expanded in a Fourier series with [link] resulting from calculating the series coefficients using [link] .

The spectrum of a discrete-time signal is defined as the DTFT of the samples of a continuous-time signal given in [link] . Samples of the signal are given by the inverse DTFT in [link] but they can also be obtained by directly sampling $f (t)$ in [link] giving

f (T n) = \frac{1}{2 π} \int_{- \infty}^{\infty} F (ω) e^{j ω T n} d ω

which can be rewritten as an infinite sum of finite integrals in the form

f (T n) = \frac{1}{2 π} \sum_{ℓ} \int_{0}^{2 π / T} F (ω + 2 π ℓ / T) e^{j (ω + 2 π ℓ / T) T n} d ω

= \frac{1}{2 π} \int_{0}^{2 π / T} [\sum_{ℓ}, F, (ω + 2 π ℓ / T)] e^{j (ω + 2 π ℓ / T) T n} d ω

where $F_{p} (ω)$ is a periodic function made up of shifted versions of $F (ω)$ (aliased) defined in [link] Because [link] and [link] are equal for all $T n$ and because the limits can be shifted by $π / T$ without changing the equality, the integrands are equal and we have

F_{d} (ω) = \frac{1}{T} \sum_{ℓ} F (ω + 2 π ℓ / T) = \frac{1}{T} F_{p} (ω) .

where $F_{p} (ω)$ is a periodic function made up of shifted versions of $F (ω)$ as in [link] . The spectrum of the samples of $f (t)$ is an aliased version of the spectrum of $f (t)$ itself. The closer together the samples are taken, the further apart the centers of the aliasedspectra are.

This result is very important in determining the frequency domain effects of sampling. It shows what the sampling rate should be and it is thebasis for deriving the sampling theorem.

Samples of the spectrum of a sampled signal and the dft

Samples of the spectrum can be calculated from a finite number of samples of the original continuous-time signal using the DFT. If welet the length of the DFT be $N$ and separation of the samples in the frequency domain be $Δ$ and define the periodic functions

F_{p} (ω) = \sum_{ℓ} F (ω + N Δ ℓ)

and

f_{p} (t) = \sum_{m} f (t + N T m)

then from [link] and [link] samples of the DTFT of $f (T n)$ are

F_{p} (Δ k) = T \sum_{n} f (T n) e^{- j T Δ n k}

= T \sum_{m} \sum_{n = 0}^{N - 1} f (T n + T N m) e^{- j Δ (T n + T N m) k}

= T \sum_{n = 0}^{N - 1} [\sum_{m}, f, (T n + T N m)] e^{- j Δ (T n + T N m) k},

therefore,

F_{p} (Δ k) = DFT {f_{p} (T n)}

if $Δ T N = 2 π$ . This formula gives a method for approximately calculating values of the Fourier transform of a function by taking theDFT (usually with the FFT) of samples of the function. This formula can easily be verified by forming the Riemann sum to approximate the integralsin [link] or [link] .

Samples of the dtft of a sequence

If the signal is discrete in origin and is not a sampled function of a continuous variable, the DTFT is defined with $T = 1$ as

H (ω) = \sum_{n} h (n) e^{- j ω n}

with an inverse

h (n) = \frac{1}{2 π} \int_{- π}^{π} H (ω) e^{j ω n} d ω .

If we want to calculate $H (ω)$ , we must sample it and that is written as

H (Δ k) = \sum_{n} h (n) e^{- j Δ k n}

which after breaking the sum into an infinite sum of length- $N$ sums as was done in [link] becomes

H (Δ k) = \sum_{m} \sum_{n = 0}^{N - 1} h (n + N m) e^{- j Δ k n}

if $Δ = 2 π / N$ . This allows us to calculate samples of the DTFT by taking the DFT of samples of a periodized $h (n)$ .

H (Δ k) = DFT {h_{p} (n)} .

This a combination of the results in [link] and in [link] .

Questions & Answers

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Agebe Reply

What is a cell

Odelana Reply

what is cell

Mohammed

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Nyibol Reply

what is microbiologist

Muhammad Reply

what is errata

Muhammad

is the branch of biology that deals with the study of microorganisms.

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studies of microbes

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Bacteria doesn't produce energy they are dependent upon their substrate in case of lack of nutrients they are able to make spores which helps them to sustain in harsh environments

_Adnan

But not all bacteria make spores, l mean Eukaryotic cells have Mitochondria which acts as powerhouse for them, since bacteria don't have it, what is the substitution for it?

Muhamad

they make spores

Louisiaste

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the significance of food webs for disease transmission

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food webs brings about an infection as an individual depends on number of diseased foods or carriers dully.

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Assimilatory nitrate reduction is a process that occurs in some microorganisms, such as bacteria and archaea, in which nitrate (NO3-) is reduced to nitrite (NO2-), and then further reduced to ammonia (NH3).

Elkana

This process is called assimilatory nitrate reduction because the nitrogen that is produced is incorporated in the cells of microorganisms where it can be used in the synthesis of amino acids and other nitrogen products

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Examples of thermophilic organisms

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Give Examples of thermophilic organisms

Shu

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Prevent foreign microbes to the host

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they provide healthier benefits to their hosts

ayesha

They are friends to host only when Host immune system is strong and become enemies when the host immune system is weakened . very bad relationship!

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faisal Reply

cell is the smallest unit of life

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cell is the smallest unit of life

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Innocent

cell is the structural and functional unit of life

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is the fundamental units of Life

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Micheal Reply

There are nothing like emergency disease but there are some common medical emergency which can occur simultaneously like Bleeding,heart attack,Breathing difficulties,severe pain heart stock.Hope you will get my point .Have a nice day ❣️

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en français

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Many sites of the body have it Skin Nasal cavity Oral cavity Gastro intestinal tract

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skin

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skin,Oral,Nasal,GIt

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all

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Source: OpenStax, Brief notes on signals and systems. OpenStax CNX. Sep 14, 2009 Download for free at http://cnx.org/content/col10565/1.7

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