Channel and Coding Implementation » History » Version 9
PASCHOS, Alexandros, 12/15/2015 02:45 AM
1 | 7 | PASCHOS, Alexandros | {{toc}} |
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2 | 7 | PASCHOS, Alexandros | |
3 | 9 | PASCHOS, Alexandros | h1. *Channel and Coding Implementation* |
4 | 1 | PASCHOS, Alexandros | |
5 | 9 | PASCHOS, Alexandros | h2. *AWGN Channel* |
6 | 8 | PASCHOS, Alexandros | |
7 | 1 | PASCHOS, Alexandros | After establishing a basic channel, AWGN was then added as shown on figure 5. The AWGN function has an Eb/No input, which is the target Eb/No of the signal (the Eb/No received). |
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9 | 3 | PASCHOS, Alexandros | p=. !{width: 60%}https://sourceforge.isae.fr/attachments/download/1503/withAWGN.png(AWGN Implementation)! |
10 | 4 | PASCHOS, Alexandros | _Figure 2.1 Communication Diagram_ |
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12 | 9 | PASCHOS, Alexandros | h2. *Coding* |
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14 | 8 | PASCHOS, Alexandros | In order to further improve the communication chain, coding is applied to this channel, a illustrated in figure 6. At this point, as mentioned in the limitations, synchronization between the two USRP was an issue since the received bits did not keep a fixed value, but rather kept changing (between 0 and 1) throughout the test, giving a BER of 1. For this reason, it was necessary to calculate the BER without the use of USRPs. |
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16 | 6 | PASCHOS, Alexandros | p=. !{width: 60%}https://sourceforge.isae.fr/attachments/download/1505/withCoding.png(Channel and Coding)! |
17 | 4 | PASCHOS, Alexandros | _Figure 2.1 AWGN and Coding_ |