Location management and level switching schemes in multitier mobile communication systems

Ng, Chi-kwong, 吳志光

January 2005

published_or_final_version / abstract / toc / Computer Science / Doctoral / Doctor of Philosophy

Mobile communication systems.

Telecommunication - Switching systems.

Adaptive channel equalisation technique for wideband time-division multiple access digital mobile radio communications systems

鄭价昌, Chang, Kai-cheong.

January 1996

published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy

Wireless communication systems.

Mobile communication systems.

Digital communications.

A study of fixed channel assignment algorithms for cellular mobile radio systems

Thavarajah, Arunasala Iyer.

January 1999

published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy

Cell phone systems.

Wireless communication systems.

Mobile communication systems.

Multiresolution joint source and channel coding for wireless communications

王徐芳, Wang, Xufang.

January 2001

published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy

Wireless communication systems.

Mobile communication systems.

Radio - Transmitters and transmission.

Resource management for handoff control in wireless/mobile networks using artificial neural networks

He, Changhua, 何昌華

January 2001

published_or_final_version / Industrial and Manufacturing Systems Engineering / Master / Master of Philosophy

Neural networks (Computer science)

Wireless communication systems.

Adaptive interleaving for orthogonal frequency division multiplexing systems

李世榮, Lei, Sai-weng.

January 2000

published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy

Multiplexing.

Radio - Transmitters and transmission.

Mobile communication systems.

Wireless communication systems.

A multiple access interference rejection technique using weighted despreading functions for direct-sequence code division multipleaccess communications

黃耀進, Huang, Yuejin.

January 1998

published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy

Wireless communication systems.

Code division multiple access.

Spread spectrum communications.

Computationally efficient approaches for blind adaptive beamforming in SIMO-OFDM systems

Gao, Bo, 1981-

January 2009

In single-input multiple-output (SIMO) systems based on orthogonal frequency division multiplexing (OFDM), adaptive beamforming at the receiver side can be used to combat the effect of directional co-channel interference (CCI). Since pilot-aided beamforming suffers from consuming precious channel bandwidth, there has been much interest in blind beamforming approaches that can adapt their weights by restoring certain properties of the transmitted signals. Within this class of blind algorithms, the recursive least squares constant modulus algorithm (RLS-CMA) is of particular interest due to its good overall CCI cancelation performance and fast convergence. Nevertheless, the direct use of RSL-CMA within a SIMO-OFDM receiver induces considerable computational complexity, since a distinct copy of the RLS-CMA must be run on each individual sub-carriers. In this thesis, we present two approaches to reduce the computational complexity of SIMO-OFDM beamforming based on the RLS-CMA, namely: frequency interpolation and distributed processing. The former approach, which exploits the coherence bandwidth of the broadband wireless channels, divides the sub-carriers into several contiguous groups and applies the RLS-CMA to a selected sub-carrier in each group. The weight vectors at other frequencies are then obtained by interpolation. The distributed processing approach relies on the partitioning of the receiving array into sub-arrays and the use of a special approximation in the RLS-CMA. This allows a partial decoupling of the algorithm which can then be run on multiple processors with reduced overall complexity. This approach is well-suited to collaborative beamforming i~ multi-node distributed relaying. Through numerical simulation experiments of a SIMO-OFDM system, it is demonstrated that the proposed modifications to the RLS-CMA scheme can lead to substantial computational savings with minimal losses in adaptive cancelation performance.

Beamforming.

Adaptive antennas.

Wireless communication systems.

An integration framework and a signaling protocol for MPLS/DiffServ/HMIP radio access networks

Vassiliou, Vasos

08 1900

No description available.

Wireless communication systems

Mobile computing

Computer network protocols

MPLS standard

Residue number system coded differential space-time-frequency coding.

Akol, Roseline Nyongarwizi.

January 2007

The rapidly growing need for fast and reliable transmission over a wireless channel motivates the development of communication systems that can support high data rates at low complexity. Achieving reliable communication over a wireless channel is a challenging task largely due to the possibility of multipaths which may lead to intersymbol interference (ISI). Diversity techniques such as time, frequency and space are commonly used to combat multipath fading. Classical diversity techniques use repetition codes such that the information is replicated and transmitted over several channels that are sufficiently spaced. In fading channels, the performance across some diversity branches may be excessively attenuated, making throughput unacceptably small. In principle, more powerful coding techniques can be used to maximize the diversity order. This leads to bandwidth expansion or increased transmission power to accommodate the redundant bits. Hence there is need for coding and modulation schemes that provide low error rate performance in a bandwidth efficient manner. If diversity schemes are combined, more independent dimensions become available for information transfer. The first part of the thesis addresses achieving temporal diversity through employing error correcting coding schemes combined with interleaving. Noncoherent differential modulation does not require explicit knowledge or estimate of the channel, instead the information is encoded in the transitions. This lends itself to the possibility of turbo-like serial concatenation of a standard outer channel encoder with an inner modulation code amenable to noncoherent detection through an interleaver. An iterative approach to joint decoding and demodulation can be realized by exchanging soft information between the decoder and the demodulator. This has been shown to be effective and hold hope for approaching capacity over fast fading channels. However most of these schemes employ low rate convolutional codes as their channel encoders. In this thesis we propose the use of redundant residue number system codes. It is shown that these codes can achieve comparable performance at minimal complexity and high data rates. The second part deals with the possibility of combining several diversity dimensions into a reliable bandwidth efficient communication scheme. Orthogonal frequency division multiplexing (OFDM) has been used to combat multipaths. Combining OFDM with multiple-input multiple-output (MIMO) systems to form MIMO-OFDM not only reduces the complexity by eliminating the need for equalization but also provides large channel capacity and a high diversity potential. Space-time coded OFDM was proposed and shown to be an effective transmission technique for MIMO systems. Spacefrequency coding and space-time-frequency coding were developed out of the need to exploit the frequency diversity due to multipaths. Most of the proposed schemes in the literature maximize frequency diversity predominantly from the frequency-selective nature of the fading channel. In this thesis we propose the use of residue number system as the frequency encoder. It is shown that the proposed space-time-frequency coding scheme can maximize the diversity gains over space, time and frequency domains. The gain of MIMO-OFDM comes at the expense of increased receiver complexity. Furthermore, most of the proposed space-time-frequency coding schemes assume frequency selective block fading channels which is not an ideal assumption for broadband wireless communications. Relatively high mobility in broadband wireless communications systems may result in high Doppler frequency, hence time-selective (rapid) fading. Rapidly changing channel characteristics impedes the channel estimation process and may result in incorrect estimates of the channel coefficients. The last part of the thesis deals with the performance of differential space-time-frequency coding in fast fading channels. / Thesis (Ph.D.)-University of KwaZulu-Natal, Durban, 2007.

Wireless communication systems.

Coding theory.

Theses--Electronic engineering.