The use of Nyquist pulses is aimed at achieving (near) zero ISIQuestion 1Answerat the point where noise is added to the incoming signalin the transmitted pulses on the transmission channelat the point of detection in the receiverafter detection of the transmitted binary bit(s)
Question
The use of Nyquist pulses is aimed at achieving (near) zero ISIQuestion 1Answerat the point where noise is added to the incoming signalin the transmitted pulses on the transmission channelat the point of detection in the receiverafter detection of the transmitted binary bit(s)
Solution
The use of Nyquist pulses is aimed at achieving (near) zero Inter Symbol Interference (ISI) at the point of detection in the receiver.
Here's the step by step explanation:
-
Nyquist pulses are used in digital communication systems to shape the transmitted signal in such a way that it minimizes the Inter Symbol Interference (ISI).
-
ISI is a form of distortion that occurs when one symbol interferes with subsequent symbols. This is a significant issue in digital communications as it can cause errors in the interpretation of the symbols.
-
The goal of using Nyquist pulses is to make the signal at the receiver's end as close as possible to the original transmitted signal, with minimal interference from other symbols.
-
This is achieved by shaping the transmitted pulses in such a way that they occupy the minimum necessary bandwidth and do not interfere with each other.
-
Therefore, the use of Nyquist pulses is aimed at achieving near zero ISI at the point of detection in the receiver, not at the point where noise is added to the incoming signal, in the transmitted pulses on the transmission channel, or after detection of the transmitted binary bit(s).
Similar Questions
Raised cosine (RC) pulses satisfy the Nyquist criterion of zero-ISI at sampling intervals and are derived from Sinc pulses. Question 1Select one:TrueFalse
Nyquist Theorem is The sample rate is the number of times the sample is taken.In order for a computer to work with audio waves, they must be converted from analog to digital form.For lossless digitization, the sampling rate should be at least twice the maximum frequency response.The higher the sample rate, the more samples that are taken and, thus, the better the quality of the digitized audio1.32.1 and 23.14.1 and 3
Nyquist Theorem is The sample rate is the number of times the sample is taken.In order for a computer to work with audio waves, they must be converted from analog to digital form.For lossless digitization, the sampling rate should be at least twice the maximum frequency response.The higher the sample rate, the more samples that are taken and, thus, the better the quality of the digitized audio1.32.1 and 33.1 and 24.1
Nyquist Theorem is The sample rate is the number of times the sample is taken.In order for a computer to work with audio waves, they must be converted from analog to digital form.For lossless digitization, the sampling rate should be at least twice the maximum frequency response.The higher the sample rate, the more samples that are taken and, thus, the better the quality of the digitized audio1.1 and 22.1 and 33.34.1
Nyquist Theorem is The sample rate is the number of times the sample is taken.In order for a computer to work with audio waves, they must be converted from analog to digital form.For lossless digitization, the sampling rate should be at least twice the maximum frequency response.The higher the sample rate, the more samples that are taken and, thus, the better the quality of the digitized audio
Upgrade your grade with Knowee
Get personalized homework help. Review tough concepts in more detail, or go deeper into your topic by exploring other relevant questions.