Apakah jumlah dari dua proses white noise tentu merupakan white noise?


30

Biarkan dan b t menjadi proses white noise. Dapat kita katakan c t = a t + b t adalah tentu proses white noise?atbtct=at+bt


1
Kebisingan putih macam apa ..?
Tim

15
Apa definisi Anda tentang white noise?
Glen_b -Reinstate Monica

Apakah Anda berbicara tentang white Gaussian white atau white noise?
Mehrdad

1
Biarkan . Adalah b t proses white noise? Apakah b t + a t ? bt=atbtbt+at
user253751

Jawaban:


45

Tidak, Anda membutuhkan lebih banyak (setidaknya di bawah definisi white noise Hayashi). Sebagai contoh, jumlah dari dua proses white noise independen adalah white noise.

Mengapa dan b t white noise cukup untuk sebuah t + b t menjadi white noise?atbtat+bt

Berikut Hayashi Ekonometrika , sebuah kovarians proses stasioner didefinisikan sebagai white noise jika E [ z t ] = 0 dan C o v ( z t , z t - j ) = 0 untuk j 0 .{zt}E[zt]=0Cov(zt,ztj)=0j0

Biarkan dan { b t } menjadi proses white noise. Tentukan c t = a t + b t . Sepele kita memiliki E [ c t ] = 0 . Memeriksa kondisi kovarians:{at}{bt}ct=at+btE[ct]=0

Menerapkan bahwa{at}dan{b

Cov(ct,ctj)=Cov(at,atj)+Cov(at,btj)+Cov(bt,atj)+Cov(bt,btj)
{at} adalah derau putih: C o v ( c t , c t - j ){bt}
Cov(ct,ctj)=Cov(at,btj)+Cov(bt,atj)

Jadi apakah adalah white noise tergantung pada apakah C o v ( a t , b t - j ) + C o v ( b t , sebuah t - j ) = 0 untuk semua j 0 .{ct}Cov(at,btj)+Cov(bt,atj)=0j0

Contoh di mana jumlah dari dua proses white noise bukan white noise:

Biarkan menjadi white noise. Biarkan b t = a t - 1 . Perhatikan bahwa proses { b t } juga white noise. Mari c t = a t + b t , maka c t = a t + a t - 1 , dan mengamati bahwa proses { c t } tidak white noise.{at}bt=at1{bt}ct=at+btct=at+at1{ct}


Comment to Matthew (add a comment link doesn't work for me): according to more commonly used more rigorous definitions of white noise, even adding two independent white noise sources won't yield true white noise, because the amplitudes are no longer uniform but enveloped.

2
I'd love to see other, non-econometric, non-economics based definitions of white noise. It's a term that's often thrown around, and I'm not sure how it's used in other fields (or even other definitions used in finance/economics).
Matthew Gunn

Another example: Let dt=at then at+bt=0 for all t so not white noise. @MatthewGunn I'd say that the definition in finance would be the same but I don't have a source.
Bob Jansen

38

Even simpler than @MatthewGunn's answer,

Consider bt=at. Obviously ct0 is not white noise -- it'd be hard to call it any kind of noise.

The broader point is, if we don't know anything about the joint distribution of at and bt, we won't be able to say what happens when we try and examine objects which depend on both of them. The covariance structure is essential to this end.


Addendum:

Of course, this is exactly the purpose of noise-cancelling headphones! -- to reverse the frequency of external noises and cancel them out -- so, going back to the physical definition of white noise, this sequence is literal silence. No noise at all.


0 is a perfectly fine white noise.
Stig Hemmer

4
@StigHemmer a usual requirement is that for j=0, Cov(ct,ctj)=Var(ct)=σ2>0.
Therkel

5
Objection withdrawn.
Stig Hemmer

1
@StigHemmer see edit -- it's in fact a very natural definition for 0 not to be white noise (in fact it's rather the opposite, by the common definition -- we can exactly predict the value of the sequence given any past value)
MichaelChirico

2

In electronics, white noise is defined as having a flat frequency spectrum ('white') and being random ('noise'). Noise generally can be contrasted with 'interference', one or more undesired signals being picked up from elsewhere and being added to the signal of interest, and 'distortion', undesired signals being generated from nonlinear processes acting on the signal of interest itself.

While it is possible for two different signals to have correlated parts, and therefore cancel differently at different frequencies or at different times, e.g. completely canceling over a certain band of frequencies or during a certain interval of time, but then not canceling, or even adding constructively over another band of frequencies or during a certain interval of time, the correlation between the two signals presumes a correlation, which is precluded by the presumably random aspect of 'noise', which is what was asked about.

If, indeed, the signals are 'noise' and therefore independent and random, then no such correlations should/would exist, so adding them together will also have a flat frequency spectrum and will therefore also be white.

Also, trivially, if the noises are exactly anti-correlated, then they could cancel to give zero output at all times, which also has a flat frequency spectrum, zero power at all frequencies, which could fall under a sort of degenerate definition of white noise, except that it isn't random and can be perfectly predicted.

Noise in electronics can come from several places. For example, shot noise, arising from the random arrival of electrons in a photocurrent (coming from the random arrival times of photons), and Johnson noise, coming from the Brownian motion of electrons in a resistive element warmer than absolute zero, both produce white noise, although, always with a finite bandwidth at both ends of the spectrum in any real system measured over a finite length of time.


-2

if both white noise sound is traveling in same direction And if their frequency is in phase matched up, then only they get added. But, one thing i am not sure about is after adding up will it remain as white noise or it will become some other type of sound having different frequency.


1
It seems to me you might be thinking about physical noise rather than statistically? I'm not sure that this answer adds very much - e.g. how can white noise have a single frequency to be matched up? Try looking at a spectrogram of white noise.
Silverfish

2
(However, this does appear to be an attempt to answer the question, so reviewers should consider downvoting instead of deletion.)
Silverfish

The sum of two white noise signals will be white noise if they are uncorrelated noise. I also came here from the Hot Network Questions list, not noticing which site it was on. I expect that the statistical definition of white noise is equivalent to the signal-processing definition. About your thought that the two noises will add together occasionally -- yes, they will, but only in certain (random) locations. In other locations, they will subtract. It doesn't stop the result from also being white noise.
Reinstate Monica

@Justin, "The sum of two white noise signals will be white noise if they are uncorrelated noise." - I may be misunderstanding what you mean by "if they are uncorrelated", but under my interpretation your conclusion is wrong. If at is white noise and bt=at1 (Matthew Gunn's example) then both at and bt are white noise, and cor(at,bt)=0 for every t. Yet, ct=at+bt is not white noise.
not_bonferroni

@not_bonferroni - Yes, I suppose I was using incorrectly "uncorrelated" to mean "independent".
Reinstate Monica
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