Why do we need to write the noise as randn(2,1)./sqrt(2*SNR) instead of randn(1,1)/sqrt(2)?

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yang-En Hsiao
yang-En Hsiao am 21 Apr. 2019
Bearbeitet: yang-En Hsiao am 21 Apr. 2019
I saw this code, about the error probability of on/off signal ,on the internet
Ts=10^4;
SNR_dB=[-3 0 3 6 9];
Ne=zeros(1,length(SNR_dB));
for i=1:length(SNR_dB)
SNR=10^(SNR_dB(i)/10);
for t=1:Ts
s=((sign(rand()-0.5))+1)/2;%create the "on"signal or "off" signal ."on"signal=1,"off" signal=0
r=randn(2,1)./sqrt(2.*SNR);%it seems that it is noise
if (s+r)>0.5
s_hat=1;
else
s_hat=0;
end
if abs(s_hat-s)>0
Ne(i)=Ne(i)+1;
end
y=Ne./Ts;
end
end
Pe=zeros(1,5);
for i=1:5
SNR=10^(SNR_dB(i)/10);
Pe(i)=erfc(sqrt(SNR/2)/(2^0.5))/2;
end
semilogy(SNR_dB,y,'-r',SNR_dB,Pe,'-k')
I don't understand why can the noise be written as
r=randn(2,1)./sqrt(2.*SNR)
,why do we need to write as randn(2,1)./sqrt(2*SNR) instead of randn(1,1)/sqrt(2)?Is anyone know about this?

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