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LAB:CDMA Simulation Using MATLAB

LAB:CDMA Simulation Using MATLAB
This program models a simple implementation of CDMA technology. It considers 20 bit data streams sent by 3 senders across a common channel. Each sender uses a unique code word, given by the Walsh set, to encode its data, send it across the channel, and then perfectly reconstruct the data at 3 receivers.

The simulation utilizes these simplifications:
1. The individual data streams share the same bit length.
2. The code words are determined using the Walsh set to create orthogonal code words.
3. The “spreading factor” M of each code word is identical.
4. All users (data streams and codes) are synchronized in time.
5. Set-up and hold times of real-world systems are ignored.
6. The channel through which the data passes is ideal.
I- Use the Matlab script provided as m-File.
II- Record the results, 2 passes.
III- First pass Second pass
The bit # 1 is from Station A
The bit # 2 is from Station C
The bit # 3 is from Station A
The bit # 4 is from Station B
The bit # 5 is from Station A
The bit # 6 is from Station B
The bit # 7 is from Station A
The bit # 8 is from Station B
The bit # 9 is from Station C
The bit # 10 is from Station C
The bit # 11 is from Station B
The bit # 12 is from Station A
The bit # 13 is from Station A
The bit # 14 is from Station C
The bit # 15 is from Station A
The bit # 16 is from Station C
The bit # 17 is from Station B
The bit # 18 is from Station C
The bit # 19 is from Station A
The bit # 20 is from Station B>>
The bit # 1 is from Station C
The bit # 2 is from Station A
The bit # 3 is from Station B
The bit # 4 is from Station C
The bit # 5 is from Station C
The bit # 6 is from Station C
The bit # 7 is from Station B
The bit # 8 is from Station A
The bit # 9 is from Station A
The bit # 10 is from Station A
The bit # 11 is from Station C
The bit # 12 is from Station A
The bit # 13 is from Station C
The bit # 14 is from Station A
The bit # 15 is from Station C
The bit # 16 is from Station B
The bit # 17 is from Station A
The bit # 18 is from Station A
The bit # 19 is from Station B
The bit # 20 is from Station B>>
III. Verify one case manually.
IV. Try to understand how the script works.
v. Write a report.

Responses are currently closed, but you can trackback from your own site.

Comments are closed.

LAB:CDMA Simulation Using MATLAB

LAB:CDMA Simulation Using MATLAB
This program models a simple implementation of CDMA technology. It considers 20 bit data streams sent by 3 senders across a common channel. Each sender uses a unique code word, given by the Walsh set, to encode its data, send it across the channel, and then perfectly reconstruct the data at 3 receivers.

The simulation utilizes these simplifications:
1. The individual data streams share the same bit length.
2. The code words are determined using the Walsh set to create orthogonal code words.
3. The “spreading factor” M of each code word is identical.
4. All users (data streams and codes) are synchronized in time.
5. Set-up and hold times of real-world systems are ignored.
6. The channel through which the data passes is ideal.
I- Use the Matlab script provided as m-File.
II- Record the results, 2 passes.
III- First pass Second pass
The bit # 1 is from Station A
The bit # 2 is from Station C
The bit # 3 is from Station A
The bit # 4 is from Station B
The bit # 5 is from Station A
The bit # 6 is from Station B
The bit # 7 is from Station A
The bit # 8 is from Station B
The bit # 9 is from Station C
The bit # 10 is from Station C
The bit # 11 is from Station B
The bit # 12 is from Station A
The bit # 13 is from Station A
The bit # 14 is from Station C
The bit # 15 is from Station A
The bit # 16 is from Station C
The bit # 17 is from Station B
The bit # 18 is from Station C
The bit # 19 is from Station A
The bit # 20 is from Station B>>
The bit # 1 is from Station C
The bit # 2 is from Station A
The bit # 3 is from Station B
The bit # 4 is from Station C
The bit # 5 is from Station C
The bit # 6 is from Station C
The bit # 7 is from Station B
The bit # 8 is from Station A
The bit # 9 is from Station A
The bit # 10 is from Station A
The bit # 11 is from Station C
The bit # 12 is from Station A
The bit # 13 is from Station C
The bit # 14 is from Station A
The bit # 15 is from Station C
The bit # 16 is from Station B
The bit # 17 is from Station A
The bit # 18 is from Station A
The bit # 19 is from Station B
The bit # 20 is from Station B>>
III. Verify one case manually.
IV. Try to understand how the script works.
v. Write a report.

Responses are currently closed, but you can trackback from your own site.

Comments are closed.

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