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Title of Thesis
Multiuser Communication Techniques based on OFDM |
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Author(s)
Habib ur Rehman |
Institute/University/Department
Details
Department Of Electrical And Computer
Engineering, Centre For Advanced Studies In Engineering / University
Of Engineering And Technology, Taxila |
Session
2009 |
Subject
Computer Engineering |
Number of Pages
163 |
Keywords (Extracted from title, table of contents and
abstract of thesis)
Exceed, Complex, Multiple,
Multiuser, Algorithm, Chips, Based, Performance, Techniques,
Limitations, Communication |
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Abstract
This thesis deals
with the development of a sophisticated multiple access
communication technique, Multicarrier Interleave Division Multiple
Access (MC-IDMA) and improvements in Orthogonal Frequency Division
Mulltiplexing-Space Division Multiple Access (OFDM-SDMA) for uplink
transmissions. Although different in names both theses techniques
endeavour to describe a wide range of upcoming communication
algorithms and to incorporate three key features that will be common
to the next generation communication systems: multiple access
capability, resistance to multipath fading and high bandwidth
efficiency. The performance of the both systems is demonstrated in
the presence of channel impairments.
OFDM is almost completely immune to multipath fading effects and
IDMA has multiuser capability. MC-IDMA attempts to combine these
features, so that we can have Inter Symbol Interference (ISI) free
higher data rates for multiple users simultaneously. MC-IDMA uses
chip level interleavers as the only means of user separation and
devotes the entire bandwidth expansion to low rate Forward Error
Correcting codes (FEC) which provide additional coding gain not
present in conventional Code Division Multiple Access (CDMA) or
Multicarrier-Code Division Multiple Access (MC-CDMA) systems. An
iterative Chip-by-Chip (CBC) multiuser detection algorithm is
exploited to suppress the channel fading and Multiple Access
Interference (MAI).To further improve
the performance, adaptive subchannel algorithm is used to transmit
information only on good conditioned subchannels. To support high
order modulations, Multicode MCIDMAis proposed which can enhance the
data rate at the expense of slightly higher power to achieve the
same BER.A simplification in a channel estimation algorithm for
MC-IDMA system is suggested and the concept of pilot chips is
introduced which is a feasible approach because MC-IDMA systems use
chip level interleavers and CBC detection algorithm.A noval channel
estimation algorithm is presented which reduces the joint estimation
into several single user estimation problems and increases
throughput drastically saving a lot of transmission overhead. The
complexity is analyzed and Bit Error Rate (BER) is computed to
depict the performance of MC-IDMA system.The results show that the
MC-IDMA system outperforms the conventional MC-CDMA system by
supporting a large number of users with enhanced bit error rate
performance.
Next, a multiple antenna aided, Minimum Bit Error Rate (MBER) based
Bell Laboratories Layered Space Time (MBER-BLAST) algorithm for
OFDM-SDMA communication is presented which overcomes the limitations
of detectors when the number of users exceed the number of receiver
antennas. A Particle Swarm Optimization (PSO) algorithm is employed
for finding the optimum weight vectors for MBER Multiuser Detector
(MUD). PSO is well suited for physically realizable, real-time
applications, where low complexity and fast convergence is of
absolute importance. Maximum Likelihood (ML) detection algorithm is
optimal but it uses exhaustive search and is prohibitively
complex.The proposed algorithm outperforms the MBER detector and is
capable of achieving performance similar to that attained by ML
detector at a significantly lower complexity especially under high
user loads. Results show that OFDM-SDMA when used with proposed
algorithms promise substantially improved performance and can
support throughputs as high as 11 bits/per chip at a BER of 10−4. It
supports a large number of users by exploiting the capacity
advantages of multiple antenna systems in rich scattering
environments and offers a good performance-complexity trade-off. |
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