240 research outputs found
The performance analysis of differential orthogonal space- time block codes
Ph.DDOCTOR OF PHILOSOPH
Performance analysis of orthogonal spacetime block codes over Nakagami-q MIMO RFID backscattering channels
The authors employ the conditional moment generating function approach to analyse the performance of orthogonal
space-time block codes over Nakagami-q (Hoyt) multiple-input multiple-output radio frequency identification backscattering
channels. New exact and asymptotic symbol error rate expressions are derived for the case of two and four receiving antennas
N = 2, 4 . The exact expressions are in the form of a sum of infinite series while the asymptotic ones are in the closed form.
The diversity order that the system can achieve is found to be L, where L is the number of tag antennas, and the performance
of this system is found to be more sensitive to the channel condition (the q parameter) of the forward link than that of the
backscattering link. The theoretical results (exact and asymptotic) are verified through comparison with simulation results
Uncoded space-time labeling diversity with three transmit antennas: symbol mapping designs and error performance analysis.
Doctoral Degrees. University of KwaZulu-Natal, Durban.Abstract available in PDF.Publications on page iii
Impact of Relay Location of STANC Bi-Directional Transmission for Future Autonomous Internet of Things Applications
Wireless communication using existing coding models poses several challenges for RF signals due to multipath scattering, rapid fluctuations in signal strength and path loss effect. Unlike existing works, this study presents a novel coding technique based on Analogue Network Coding (ANC) in conjunction with Space Time Block Coding (STBC), termed as Space Time Analogue Network Coding (STANC). STANC achieves the transmitting diversity (virtual MIMO) and supports big data networks under low transmitting power conditions. Furthermore, this study evaluates the impact of relay location on smart devices network performance in increasing interfering and scattering environments. The performance of STANC is analyzed for Internet of Things (IoT) applications in terms of Symbol Error Rate (SER) and the outage probability that are calculated using analytical derivation of expression for Moment Generating Function (MGF). In addition, the ergodic capacity is analyzed using mean and second moment. These expressions enable effective evaluation of the performance and capacity under different relay location scenario. Different fading models are used to evaluate the effect of multipath scattering and strong signal reflection. Under such unfavourable environments, the performance of STANC outperforms the conventional methods such as physical layer network coding (PNC) and ANC adopted for two way transmission
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