Consider a unit-energy root-raised-cosine (RRC) pulse which spans over 8 symbol durations. We take 10 samples per symbol (sps) from this RRC pulse. Write an RRC filter function that employs pulse-shaping using the RRC pulse described above. (If there is a single symbol and s=[1 0], the energy of the corresponding length-81 samples vector should be equal to 1.) The parameters of the RRC pulse are roll-off factor, span, and samples per symbol. You should write your pulse-shaping function according to the prototype given below txFilt = myRRCFilter(s, rf, span, sps) where txFilt is the pulse-shaped signal (transmitted signal), s denotes the transmitted symbols, rf is the roll-off factor, span is the span of the filter, and sps is the samples per symbol.
Consider a unit-energy root-raised-cosine (RRC) pulse which spans over 8 symbol durations. We take 10 samples per symbol (sps) from this RRC pulse. Write an RRC filter function that employs pulse-shaping using the RRC pulse described above. (If there is a single symbol and s=[1 0], the energy of the corresponding length-81 samples vector should be equal to 1.) The parameters of the RRC pulse are roll-off factor, span, and samples per symbol. You should write your pulse-shaping function according to the prototype given below txFilt = myRRCFilter(s, rf, span, sps) where txFilt is the pulse-shaped signal (transmitted signal), s denotes the transmitted symbols, rf is the roll-off factor, span is the span of the filter, and sps is the samples per symbol.
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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![2. Consider a unit-energy root-raised-cosine (RRC) pulse which spans over 8 symbol
durations. We take 10 samples per symbol (sps) from this RRC pulse. Write an RRC
filter function that employs pulse-shaping using the RRC pulse described above. (If
there is a single symbol and s=[1 0], the energy of the corresponding length-81 samples
vector should be equal to 1.) The parameters of the RRC pulse are roll-off factor, span,
and samples per symbol. You should write your pulse-shaping function according to
the prototype given below
txFilt = myRRCFilter(s, rf, span, sps)
where txFilt is the pulse-shaped signal (transmitted signal), s denotes the transmitted
symbols, rf is the roll-off factor, span is the span of the filter, and sps is the samples
per symbol.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb70f73b7-87f3-4233-9624-22fc2af3201b%2Fc766dafa-9d2b-4d0a-84d6-648d520add83%2Fvll69h_processed.png&w=3840&q=75)
Transcribed Image Text:2. Consider a unit-energy root-raised-cosine (RRC) pulse which spans over 8 symbol
durations. We take 10 samples per symbol (sps) from this RRC pulse. Write an RRC
filter function that employs pulse-shaping using the RRC pulse described above. (If
there is a single symbol and s=[1 0], the energy of the corresponding length-81 samples
vector should be equal to 1.) The parameters of the RRC pulse are roll-off factor, span,
and samples per symbol. You should write your pulse-shaping function according to
the prototype given below
txFilt = myRRCFilter(s, rf, span, sps)
where txFilt is the pulse-shaped signal (transmitted signal), s denotes the transmitted
symbols, rf is the roll-off factor, span is the span of the filter, and sps is the samples
per symbol.
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