Studies of cooperation protocols for cooperative wireless communication networks
In this dissertation, we study communication systems employed with different cooperative relaying techniques and their performances under independent channel distributions. Several techniques have been implemented to preserve signal integrity at the receiver. One efficient way is Multiple Input M...
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| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
2016
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/68761 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | In this dissertation, we study communication systems employed with different
cooperative relaying techniques and their performances under independent channel
distributions. Several techniques have been implemented to preserve signal integrity
at the receiver. One efficient way is Multiple Input Multiple Output (MIMO)
technique, which uses multiple antennas and attains multiplexing by transmitting
different signals through different parallel channels to increase the transmission rate.
It also implements the concept of diversity where the same data is being sent through
independent fading paths, and they will be combined to improve the signal-to-noise
ratio (SNR) at the receiver side. Similarly, spatial diversity can also be achieved by
using cooperative transmission. In this project, we study how cooperative
communication achieves cooperative diversity and improves system performance
without the requirement of multiple antennas. It is not always possible to incorporate
multiple receiving and transmitting antennas into small mobile terminals that use
battery power. This dissertation defines different cooperative relaying strategies and
compares fixed relaying against adaptive relaying techniques under varying channel
conditions. It also demonstrates different receiver combining techniques and different
performance metrics to observe the system performance.
We first focus on the performance o f the simplified relaying system with single user
and then realizes with practical application of employing multiple relaying nodes to form a virtual antenna array in wireless communication systems. We simulate different
cooperative techniques and plot Bit Error Rate (BER) results against the transmitted
SNR values. We observe how cooperative diversity can be achieved by analyzing the
performance of different relaying systems with varying the number of relays in
between for the cooperation. With the help o f the simulation results, we conclude that
the cooperative transmission always performs better than the direct transmission. |
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