OCF: Q11

Descripción

Pulse Shaping
Dominik Werner
Fichas por Dominik Werner, actualizado hace más de 1 año
Dominik Werner
Creado por Dominik Werner hace casi 7 años
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Pregunta Respuesta
Which effect can be seen in the eye diagram below? Intersymbol Interference (ISI)
On the right you can see the time and frequency behavior of raised cosine functions with different roll-off factors - which line corresponds to a roll-off factor of 1? Which line corresponds to a roll-off factor of 0? Why are the raised-cosine and the square -root-raised-cosine functions so useful for communications? roll-off factor 0: Blue Line roll-off factor 1: Turquoise Line The RCF gives a tradeoff between the Sinc functions low BW requirement and its clock error sensitivity. The larger r, the better the timing behaviour but also the BW becomes larger The SRCF does not fulfill the Nyquist Criteria 1 but it can have a narrow BW and still decay fast in the time domain. Via matched filter it can also fulfill Nyquist Criteria 1.
Why is Nyquist criteria 1 not sufficient? Which roll-off factor would you choose based on the Nyquist criteria 2? Nyquist criteria 1 in principal guarantees that there is no ISI but it doesn't take clock/sampling errors into account. Nyquist criteria 2 prefers the pulse shape which provides the widest eye opening -> r=1
Name an example for two orthogonal signals. -> two offset rect functions -> two offset sinc functions -> two offset exp functions -> sine and cosine
Which degrees of freedom can be used for multiplexing? Name and explain the different options. Time: disjoint time-slots Frequency: disjoint frequency slots Polarization: orthogonal polarizations Quadrature: Use complex symbols Code: Code-Division Multiplexing Space: Multiple cables, fibers, modes... Combination of the above
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