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Performance Analysis of AF Cooperative Communications with Imperfect Channel InformationLi, Heng-Kuan 28 June 2011 (has links)
Cooperative communications have received much attention recently, due to its ability to attain cooperation diversity. But when two nodes communicate via relays, it is difficult to get the perfect
channel information, so relays must estimate their forward channel and backward channel
in order to amplify the data to the destination. We investigate the effect of channel estimation
error, and design the LMMSE estimator to estimate the channels, and also we consider the
multi-relays to assist the whole system for training and data transmission. We propose the
SNR gap ratio, outage probability, and the BER simulations for the analysis. Simulation shows
that when using multi-relays, it can mitigate the effect of channel estimation errors in all of
the amplify-and-forward (AF) scenarios.
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Investigation on Maximal Network Lifetime Using Optimal Power Allocation and Relay Selection Scheme in Multi-hop Wireless NetworksLiong, Jian-Wah 07 September 2011 (has links)
In the wireless sensor network environment (WSN), the system transmits signals often need to rely on the stability and reliability of the relay node of each path of cooperation with each other to achieve balance between leisure and stability. In general, relay adopted Amplify-and-Forward (AF) and Decode-and-Forward (DF) to relaying the signal to destination. Unfortunately, in reality, the relay node itself had a problem of limited energy supplies, would make the overall performance degrade before reaching the optimal performance.
Therefore, we propose two novel relay selection schemes and through the multi-hop transmission with cooperation. We also derived the optimal power allocation algorithms for all relay nodes. Finally, simulation results show that our proposed scheme obtained the better lifetime and performance where compared with the traditional schemes in a fair environment.
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Asymptotic Statistics of Channel Capacity for Amplify-and-Forward MIMO Relay SystemsHsu, Chung-Kai 17 July 2012 (has links)
In this thesis, we address the statistics of mutual information of amplify-and-forward (AF) multiple-input multiple-output (MIMO) two-hop relay channels, where the
source terminal (ST), relay terminal (RT) and destination terminal (DT) are equipped with a number of correlated antennas and there is a line-of-sight (LOS)
component (Rician fading) of each link. To the best of our knowledge, deriving analytical expressions for the statistics of mutual information of the relay channel
is difficult and still unsolvable. To circumvent the mathematical difficulties, we consider this problem under the large-system regimen in which the numbers of
antennas at the transmitter and receiver go to infinity with a fixed ratio. In the large-system regimen, this thesis has made the following contributions: 1) We
get the mean and the variance of the mutual information of the concerned relay channel. 2) We show that the mutual information distribution converges to the
Gaussian distribution. The analytical results are derived by mean of two powerful tools developed in the context of theoretical physics: emph{saddle-point
approximation} and emph{superanalysis}. The derived analytical results are very general and can degenerate to several previously results as special cases. From a
degenerated case, we realize that the previous result by Wagner {em et al.} cite{Wag-08} is wrong and thus
we provide the corrected result. Finally, Simulation results demonstrate that even for a moderate number of antennas at each end, the proposed analytical results
provide undistinguishable results as those obtained by Monte-Carlo results.
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End-to-End Performance Analysis for Amplify-and-Forward Relaying System with Variable GainChen, Jian-Ting 31 July 2012 (has links)
Dual-hop transmission system can increase the transmission diversity via the cooperation of transmission nodes and can also overcome the channel fading effectively. This thesis proposes an outage probability analysis method for the AF relaying system where multiple antennas are equipped at source node and both the relay node and destination node just carry single antenna. Compare with previous work, the average signal to noise ratio of source to relay and relay to destination links are assumed to be two different variables, therefore we can get a more general performance analysis. We also extend our theoretical analysis to the system where multiple antennas are utilized at destination node. Simulation results are shown to verify the analysis of the proposed schemes in some representative scenarios.
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Combined Channel Estimation and Data Detection for AF Cooperative Communication SystemsTsai, Yi-hsuan 07 August 2012 (has links)
In this thesis, the problem of data transmission in amplify-and-forward (AF) co-
operative system which implemented joint channel estimation and data detection at
the destination (receiver) is considered. The nonlinear block code is designed to as-
sist the above methodology. The design criterion takes into account the uncertainty
of channel parameters at the receiver based on joint channel estimation and data
detection algorithm and the simulations will prove that it can achieve full diversity
that is offered by multiple relay and frequency-selective fading channel. Using an
approximation of the union boun on the error probability as the design criterion,
such that it can be simulated as a function for simulated annealing algorithm. The
designed codewords are applied to the AF cooperative system. In order to assess
the performance of joint estimation and detection fashion, the numerical simulations
will be carried out the word error rate (WER) performances illustrate that improve-
ment over differnt benchmark schemes can be obtained.
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Performance Analysis of 3-hop using DAF and DF over 2-hop Relaying ProtocolsMehmood, Faisal, Ejaz, Muneeb January 2013 (has links)
In wireless Communication, the need of radio spectrum increases nowadays. But in the system we are losing approximately 82-86% of spectrum most of the time due to the absence of Primary User (PU). To overcome this issue Cognitive Radio (CR) is an admirable approach. The concept of cooperative communication needs to be considering because high data rate is the demand for wireless services. Cooperative diversity in the network realized by 3-hop Decode, Amplify and Forward (DAF) and Decode and Forward (DF) and in 2-hop DF and Amplify and Forward (AF) Protocols implemented in cognitive radio communication network using Orthogonal Space Time Block Coding (OSTBC). The communication between end points is accomplished by using Multiple Input and Multiple Output (MIMO) antenna arrangement. During the Propagation, Alamouti Space Time Block Coding is used to accomplish spatial diversity and the encoded data is transmitted through Rayleigh fading channel. CR decodes the transmitted signal using Maximum Likelihood (ML) decoding method. Afterward signal broadcast toward the destination. To check the energy level of signal, energy detection technique applies at the Cognitive Controller (CC). Finally, CC will take ultimate decision for the presence of primary user if the energy level of signal is greater than predefined threshold level, it means PU is present otherwise it is absent. The main objective of this thesis is to analyze the performance of 3-hop and 2-hop communication network using relays. The performance is compared on the bases of two parameters i.e. Bit Error Rate (BER) and Probability of Detection (PD). The results are processed and validated by MATLAB simulation.
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Quantitative Interference and Capacity Analysis of Broadband Multi-Hop Relaying NetworksAHMED, Hassan A 06 May 2011 (has links)
This thesis analyzes the Bit Error Rate (BER) performance of Orthogonal Frequency Division Multiplexing (OFDM) systems in mobile multi-hop relaying channels. We consider the uplink scenario and quantify the effects of mobile channel impairments such as Doppler Shift due to user mobility per hop, high-power amplifier distortions when amplifying the transmitted/relayed OFDM symbol per hop, as well as the cumulative effects of these impairments over multi-hop relaying channels. It is shown that the resulting inter-carrier interference (ICI) due to the cumulative effects of the phase noise generated by these impairments per hop becomes very significant in a multi-hop relaying communication system, and severely degrades the BER performance of the system. Simulation results agree well with, and validate the analysis. / Thesis (Ph.D, Electrical & Computer Engineering) -- Queen's University, 2011-05-05 15:15:39.576
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Simple Distributed Multihop Diversity Relaying Based on Repetition for Low-Power-Low-Rate ApplicationLi, Yanwen Unknown Date
No description available.
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Rate adaptive transmission in cooperative networksKalansuriya, Prasanna Unknown Date
No description available.
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Capacity Results for Wireless Cooperative Communications with Relay ConferencingHuang, Chuan 2012 August 1900 (has links)
In this dissertation we consider cooperative communication systems with relay conferencing, where the relays own the capabilities to talk to their counterparts via either wired or wireless out-of-band links. In particular, we focus on the design of conferencing protocols incorporating the half-duplex relaying operations, and study the corresponding capacity upper and lower bounds for some typical channels and networks models, including the diamond relay channels (one source-destination pairs and two relays), large relay networks (one source-destination pairs and N relays), and interference relay channels (two source-destination pairs and two relays).
First, for the diamond relay channels, we consider two different relaying schemes, i.e., simultaneous relaying (for which the two relays transmit and receive in the same time slot) and alternative relaying (for which the two relays exchange their transmit and receive modes alternatively over time), for which we obtain the respective achievable rates by using the decode-and-forward (DF), compress-and-forward (CF), and amplify-and-forward (AF) relaying schemes with DF and AF adopted the conferencing schemes. Moreover, we prove some capacity results under some special conditions.
Second, we consider the large relay networks, and propose a "p-portion" conferencing scheme, where each relay can talk to the other "p-portion" of the relays. We obtain the DF and AF achievable rates by using the AF conferencing scheme. It is proved that relay conferencing increases the throughput scaling order of the DF relaying scheme from O(log(log(N ))) for the case without conferencing to O(log(N )); for the AF relaying scheme, it achieves the capacity upper bound under some conditions.
Finally, we consider the two-hop interference relay channels, and obtain the AF achievable rates by adopting the AF conferencing scheme and two different decoding schemes at the destination, i.e., single-user decoding and joint decoding. For the derived joint source power allocation and relay combining problem, we develop some efficient iterative algorithms to compute the AF achievable rate regions. Moreover, we compare the achievable degree-of-freedom (DoF) performance of these two decoding schemes, and show that single-user decoding with interference cancellation at the relays is optimal.
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