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Cyclic prefixed block transmission for wireless communications : performance analysis and optimizationDevillers, Bertrand 06 March 2009 (has links)
Digital wireless communications have considerably changed not only the way people communicate, but also the way research is conducted in the field of telecommunications. In fact, the nature of the wireless medium has created a number of new challenging and fascinating research topics. In particular, a prerequisite for achieving higher and higher transmission rates in wireless systems is to develop strategies for efficiently dealing with the frequency selectivity of the wireless channel. A good candidate is the so-called cyclic prefixed block transmission, and in particular its two most popular variants which are the cyclic prefixed single-carrier (CPSC) and orthogonal frequency division multiplexing (OFDM) modulations. In this context, this thesis aims at analyzing and optimizing the use of cyclic prefixed block transmission for wireless communications.
Firstly, this thesis contributes to the current state-of-the-art on the performance comparison between CPSC and OFDM, focusing on the derivation of analytical results when possible. If the channel state information is not available at the transmitter side, CPSC with minimum mean square error linear receiver is shown to achieve the best trade-off between performance and complexity, as it exploits the multipath diversity under some realistic hypotheses.
Secondly, this thesis aims at using a system-based or cross-layer criterion, called goodput, for allocating resource in a coded OFDM system. Interestingly, the well-known waterfilling solution, when adequately parametrized, is proved to be near-optimal from a goodput point of view.
Finally, this thesis discusses the possibility of improving the performance of a CPSC system by exploiting the cyclic prefix for equalization purposes.
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Blind Timing Synchronization for OFDM Systems in Multipath Fading ChannelsChen, Wei-hsiang 23 August 2010 (has links)
In this thesis, a blind symbol timing synchronization algorithm based on cyclic prefix for OFDM systems in multipath fading channels is proposed. It finds the starting point of symbol timing for using appropriate weights which are designed from channel delay spread characteristics. In multipath fading channels, the conventional ML (maximum likelihood) algorithm estimate is biased and has a large variance due to the effect of channel delay spread. The proposed exponential weighting methods not only solve the above problems but also improve the accuracy of symbol timing. Particularly, the proposed method does not require the information of SNR and channel length. From computer simulation results, the proposed method outperforms the other conventional algorithms and is also robust against the effect of multipath fading channels.
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Redukce PAPR v OFDM a její simulace ve Scilabu / PAPR reduction in OFDM and simulation in ScilabMaňák, David January 2009 (has links)
Main goal of this dissertation is read over principal and properties of the OFDM modulation. Onward we become acquainted with basic methods for PAPR dynamics reduction in OFDM such as Clipping or Interleaving. Simulation of reduction methods will be realized in Scilab environment, in which are made basic functions for OFDM modulator and demodulator. Furthermore there are created functions for PAPR reduction methods. All established functions are implemented in the GUI.
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Modellering av ett OFDM system för IEEE 802.11a med hjälp av Xilinx blockset / Modelling of an OFDM system for IEEE 802.11a using the Xilinx blocksetBotvidzon, Johan January 2002 (has links)
Kraven på dagens trådlösa förbindelser kommer hela tiden att öka och med detta följer även högre krav på nya produkter som kan tillgodose de ökade kraven. För att göra processen från idé till produkt snabbare krävs enkla verktyg för att snabbt kunna gå från den formulerade standarden till en hårdvaruprototyp. Detta arbete har använt sig av ett av dessa verktyg som idag finns tillgängliga, Xilinx System Generator for DSP 1.1, för att ta fram sändare och mottagare för en del av den trådlösa standarden IEEE 802.11a. Arbetet ger en beskrivning av hur sändare och mottagare är uppbyggda samt även synpunkter på System Generator och beskrivningar av problem som uppstod under arbetet. / The demands on todays wireless communications will continue to increase and with this follows a demand for shorter and shorter development times for the products that are going to satisfy this demand. To accomplish this shorter development time simple tools for going from the formulated standard to a hardware prototype is needed. This work uses one of these tools today available, Xilinx System Generator for DSP 1.1, to develop a transmitter and a reciever for a part of the wireless standard IEEE 802.11a. The work gives a description of the building blocks of the transmitter and the reciever but also some views on System Generator and descriptions of problems that were encountered during the work.
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Modellering av ett OFDM system för IEEE 802.11a med hjälp av Xilinx blockset / Modelling of an OFDM system for IEEE 802.11a using the Xilinx blocksetBotvidzon, Johan January 2002 (has links)
<p>Kraven på dagens trådlösa förbindelser kommer hela tiden att öka och med detta följer även högre krav på nya produkter som kan tillgodose de ökade kraven. För att göra processen från idé till produkt snabbare krävs enkla verktyg för att snabbt kunna gå från den formulerade standarden till en hårdvaruprototyp. Detta arbete har använt sig av ett av dessa verktyg som idag finns tillgängliga, Xilinx System Generator for DSP 1.1, för att ta fram sändare och mottagare för en del av den trådlösa standarden IEEE 802.11a. Arbetet ger en beskrivning av hur sändare och mottagare är uppbyggda samt även synpunkter på System Generator och beskrivningar av problem som uppstod under arbetet. </p> / <p>The demands on todays wireless communications will continue to increase and with this follows a demand for shorter and shorter development times for the products that are going to satisfy this demand. To accomplish this shorter development time simple tools for going from the formulated standard to a hardware prototype is needed. This work uses one of these tools today available, Xilinx System Generator for DSP 1.1, to develop a transmitter and a reciever for a part of the wireless standard IEEE 802.11a. The work gives a description of the building blocks of the transmitter and the reciever but also some views on System Generator and descriptions of problems that were encountered during the work.</p>
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A Low Complexity Cyclic Prefix Reconstruction Scheme for Single-Carrier Systems with Frequency-Domain EqualizationHwang, Ruei-Ran 25 August 2010 (has links)
The cyclic prefix (CP) is usually adopted in single carrier frequency domain equalization (SC-FDE) system to avoid inter-block interference (IBI) and inter-symbol interference (ISI) in multipath fading channels. In addition, the use of CP also converts the linear convolution between the transmitted signal and the channel into a circular convolution, leading to significant decrease in receiver equalization.
However, the use of CP reduces the bandwidth efficiency. Therefore the SC-FDE system without CP is investigated in this thesis. A number of schemes have been proposed to improve the performance of systems without CP, where both IBI and ICI are dramatically increased. Unfortunately, most of the existing schemes have extremely high computational complexity and are difficult to realize. In this thesis, a novel low-complexity CP reconstruction (CPR) scheme is proposed for interference cancellation, where the successive interference cancellation (SIC) and QR decomposition (QRD) are adopted. In addition, the system performance is further improved by using the fact that the
interferences of different symbols are not the same. Simulation experiments are conducted to verify the system performance of the proposed scheme. It is shown that the proposed scheme can effectively reduce the interference, while maintain a low computational complexity.
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CP-Free Space-Time Block Coded MIMO-OFDM System Design Under IQ-Imbalance in Multipath ChannelHuang, Hsu-Chun 26 August 2010 (has links)
Orthogonal frequency division multiplexing (OFDM) systems with cyclic prefix (CP) can be used to protect signal from the time-variant multipath channel induced distortions. However, the presence of CP could greatly decrease the effective data rate, thus many recent research works have been focused on the multiple-input multiple-output (MIMO) OFDM systems without CP (CP-free), equipped with the space-time block codes (ST-BC). The constraint of the conventional MIMO-OFDM (without using the ST-BC) system is that the number of receive-antenna has to be greater than the transmit-antenna. In this thesis, we first consider the ST-BC MIMO-OFDM system and show that the above-mentioned constraint can be removed, such that the condition become that the receive antenna should be greater than one, that is the basic requirement for MIMO system. It is particular useful and confirm to the recently specification, e.g., 3GPP LTE (Long Term Evolution) where the system deploy the 2¡Ñ2 or 4¡Ñ4 antennas systems. This thesis also considers the effects of peak-to-average power ratio (PAPR) in the transmitter and In-phase/ Quadrature-phase (IQ) imbalance in the receiver, and solves them by using the adaptive Volterra predistorter and blind adaptive filtering approach of the nonlinear parameters estimation and compensation, along with the power measurement, respectively. After the compensator of IQ imbalance in the receiver, an equalizer under the framework of generalized sidelobe canceller (GSC) is derived for interference suppression. To further reduce the complexity of receiver implementation, the partially adaptive (PA) scheme is applied by exploiting the structural information of the signal and interference signature matrices. As demonstrated from computer simulation results, the performance of the proposed CP-free ST-BC MIMO-OFDM receiver is very similar to that obtained by the conventional CP-based ST-BC MIMO-OFDM system under either the predistortion or compensation scenario.
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Blind Adaptive Receivers for Precoded SIMO DS-CDMA SystemLi, Meng-Yi 08 August 2008 (has links)
The system capacity of the direct-sequence code division multiple access (DS-CDMA) system is limited mainly due to the multiple access interference (MAI), this is basically due to the incomplete orthogonality of spreading codes between different users. In wireless communication environments, the use of DS-CDMA system over multipath channels will introduce the effect of inter-symbol interference (ISI), thus the system performance might degrade, dramatically. To circumvent the above-mentioned problems many adaptive multiuser detectors are proposed, such as the minimum mean square error (MMSE) criteria subject to certain constraints. Unfortunately, with the MMSE receiver it requires an extra training sequence, which decreases the spectral efficiency. To increase the spectral efficiency, the blind adaptive receivers are adopted. In the conventional approach the blind adaptive receiver is developed based on the linear constrained minimum variance (LCMV) criteria, which can be viewed as the constrained version of the minimum output energy (MOE) criteria. Other alternative of designing the blind adaptive receiver is to use the linear constrained constant modulus (LCCM) criteria. In general, the LCCM receiver could achieve better robustness due to the changing environment of channel.
With the above-mentioned adaptive linearly constrained multi-user receivers, we are able to reduce the effects of ISI and MAI and achieve desired system performance. However, for worse communication link, the conventional adaptive multi-user detector might not achieve desired performance and suppress interference effectively. In this thesis, we consider a new approach, in which the pre-coder similar to the Orthogonal Frequency Division Multiplexing (OFDM) systems is introduced in the transmitter of the DS-CDMA system. In the receiver, by using the characteristics of pre-coder we could remove the effect of ISI, effectively, and follows by the adaptive multi-user detector to suppress the MAI. Two most common use pre-coders of the OFDM systems are the Cyclic Prefix (CP) or Zero Padding (ZP). Thus the pre-coded DS-CDMA systems associated with the adaptive blind linearly constrained receiver could be employed to further improve the system performance with the cost of decreasing the spectral efficiency.
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Novel Frequency Domain DFE with Oblique Projection for CP Free ST-BC MIMO OFDM SystemWu, Chih-wei 18 August 2009 (has links)
This thesis present a new receiver framework for the cyclic-prefix free (CP-free) MIMO-OFDM system, equipped with the space-time block coded (ST-BC) uplink transmission over (slowly) time varying multipath channels. Usually, without CP in the OFDM system the inter-carrier interference (ICI) could not be removed, effectively, at the receiver, when the inter-symbol-interference (ISI) has to be taken into account.
In this thesis, by exploiting the spatial and frequency resources, we propose a novel frequency-domain decision-feedback equalizer, associated with the oblique projection (OB), to combat the effects of ISI and ICI, simultaneously. The OB is a non-orthogonal projection and is very useful to deal with the structure noise (e.g., the ISI term). From computer simulations, we observe that the performance of propose scheme can perform very close to the conventional CP-based MMO-OFDM with the ST-BC.
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Sequential Detection Based Cooperative Spectrum Sensing Algorithms For Cognitive RadioJayaprakasam, ArunKumar 01 1900 (has links) (PDF)
Cognitive radios are the radios which use spectrum licensed to other users. For this, they perform Radio Environment Analysis, identify the Spectral holes and then operate in those holes. We consider the problem of Spectrum Sensing in Cognitive Radio Networks.
Our Algorithms are based on Sequential Change Detection techniques. In this work we have used DualCUSUM, a distributed algorithm developed recently for cooperative spectrum sensing. This is used by cognitive (secondary) nodes to sense the spectrum which then send their local decisions to a fusion center. The fusion center again sequentially processes the received information to arrive at the final decision. We show that DualCUSUM performs better than all other existing spectrum sensing algorithms. We present a generalized analysis of DualCUSUM and compare the analysis with simulations to show its accuracy.
DualCUSUM requires the knowledge of the channel gains for each of the secondary users and the receiver noise power. In Cognitive Radio setup it is not realistic to assume that each secondary user will have this knowledge. So later we modify DualCUSUM to develop GLRCUSUM algorithms which can work with imprecise estimates of the channel gains and receiver noise power. We show that the SNR wall problem encountered in this scenario by other detectors is not experienced by our algorithm. We also analyze the GLRCUSUM algorithms theoretically.
We also apply our algorithms for detecting the presence of the primary in an Orthogonal Frequency Division Multiplexing (OFDM) setup. We first consider the Cyclic Prefix (CP) detector, which is considered to be robust to uncertainties in noise power, and further modify the CPdetector to take care of some of the common impairments like Timing offset, Frequency offset and IQ imbalance. We further modify the CPdetector to work under frequency selective channel. We also consider the energy detector under different impairments and show that the sequential detection based energy detectors outperform cyclic prefix based Detectors.
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