Optimisation et analyse des résesaux intelligents et des réseaux hétérogènes / Optimization and analyze of intelligent networks and heterogeneous networks

Jabban, Ahmad

16 September 2013

Le travail réalisé dans le cadre de cette thèse permet d’évaluer et d’optimiser la charge de signalisation dans les réseaux intelligents (RI) à grande échelle ainsi que d’analyser plusieurs aspects liés aux réseaux hétérogènes.L’objectif principal des RI est de faciliter l’introduction de nouveaux services en se basant sur plus de flexibilité et de nouvelles fonctionnalités. Les composants principaux d’un RI sont le point de commutation de services (SSP) et le point de commande de services (SCP). L’emplacement des équipements de réseau et la répartition du trafic peuvent jouer un rôle important dans la réduction du volume de la signalisation. Dans la première partie de la thèse, nous examinons plusieurs configurations du RI à grande échelledans le but d’analyser les effets du déplacement, de l’addition des nouveaux commutateurs SSP et de la redistribution du trafic au sein du réseau sur le nombre requis de liens de signalisation. Nous proposons un algorithme assurant la distribution optimale du trafic sur les commutateurs SSP avecle nombre minimum requis de liens de signalisation. Dans la deuxième partie de la thèse, nous analysons les différentes stratégies de sélection de réseaux dans un contexte de réseaux hétérogènes. En effet, dans la prochaine génération de réseaux sans fil et mobiles, les utilisateurs pourront se déplacer entre les réseaux hétérogènes en utilisant des terminaux équipés d’interfaces d’accès de plusieurs types. Dans ce contexte, les terminaux mobiles sont en mesure de choisir le lien d’accès le plus approprié parmi lesoptions disponibles. Dans notre travail, nous proposons une stratégie de sélection basée sur la valeur estimée de SINR (Rapport signal à interférence plus bruit) dans un système hétérogène composé de deux types de réseau : LTE et WiFi. Avec cette stratégie, les utilisateurs sélectionnent toujours leréseau présentant le SINR le plus élevé afin d’effectuer leurs communications. En se basant sur la méthode de Markov, nous analysons dans un premier temps, les performances de la stratégie de sélection basée sur le SINR en termes de probabilités de blocage de demandes d’accès aux services, de probabilités de blocage de handover vertical ou horizontal et de qualité de connexion. Nous comparons les résultats obtenus avec deux autres stratégies basées sur la puissance du signal reçu et sur la disponibilité de bande passante. Les performances sont analysées et comparées selon les modèles de mobilité 2D fluid flow et Random WayPoint qui sont largement utilisés dans l’analyse des réseaux sans fil et mobiles. Finalement, nous analysons les influences de l’allocation de ressources du réseau LTE aux services Multicast et Unicast sur les performances du système. / This thesis analyses the signaling load in intelligent large scale networks as well as the network selection strategies in the heterogeneous environment. The main objective of Intelligent Networks (IN) is to simplify the introduction of new services based on new features and more flexibility. The main components of the IN are the Service Switching Point (SSP) and the Service Control Point (SCP).The location of intelligent large-scale network equipments and the distribution of traffic on them can play an important role in reducing the volume of signaling in the network. In the firstpart of this thesis, we examine various configurations of the IN in order to study the effect of displacement or addition of new SSP and redistribution of traffic within the network on therequired number of signaling links. Finally, we propose a new algorithm giving the optimal distribution of traffic on the SSPs with a minimum required number of signaling links.In the second part of the thesis, we analyze the different network selection strategies as well as simulate other approaches related to heterogeneous wireless environment. Indeed, in the next generation of wireless heterogeneous networks, mobile users can move between several types ofnetworks, using terminals with multiple access interfaces. In this environment, the mobile terminals are able to choose the most appropriate access link among the available alternatives. In our work, we propose a network selection strategy based on the estimated SINR value (Signal to Interference-plus-NoiseRatio) in a heterogeneous system composed of two types of network: LTE and WiFi. According to this strategy, users always select the network presenting the highest SINR value. Based on the Markov method, we analyze the system performance in terms of blocking probabilities of calls, blocking probabilities of vertical or horizontal handover and connection quality. We compare our results with two other strategies based on the received signal strength and on the bandwidth availability.The performances are analyzed and compared according to the 2D fluid flow and the Random Waypoint mobility models which are widely used in the analysis of wireless and mobile networks. Finally, we analyze the influence of the resource blocks allocation to services Multicast and Unicast on the system performance.

SSP

SCP

Signalisation

Réseaux hétérogènes

Stratégie de sélection

SINR

Probabilités de blocage

Qualité de sélection

Antenna arrays

Artificial intelligence

621.382

Digital phased array architectures for radar and communications based on off-the-shelf wireless technologies

Ong, Chin Siang

12 1900

Approved for public release, distribution is unlimited / This thesis is a continuation of the design and development of a three-dimensional 2.4 GHz digital phased array radar antenna. A commercial off-the-shelf quadrature modulator and demodulator were used as phase shifters in the digital transmit and receive arrays. The phase response characteristic of the demodulator was measured and the results show that the phase difference between the received phase and transmit phase is small. In order to increase the bandwidth of the phased array, a method of time-varying phase weights for linear frequency modulated signal was investigated. Using time-varying phase weights on transmit and receive give the best performance, but require the range information of the target. It is more practical to use time-varying phase weights on only one side (transmit or receive but not both), and constant phase weights on the other side. The simulation results showed that by using time-varying phase weights, the matched filter loss is not as severe as it is when using the conventional fixed weights technique. It was also found that this method is only effective for small scan angles when the time-bandwidth product is large. The approach to implement time-varying phase weights on transmit using commercial components such as direct digital synthesizer and quadrature modulator is discussed. / Civilian, Ministry of Defense, Singapore

Phased array antennas

Antenna arrays

Antennas (Electronics)

Radar

Phased array

Radar

Antenna

Transmitter

Digital receiver

Quadrature demodulation

COTS

Time-Domain THz Near-Field Imaging Incorporating Hadamard Multiplexing Method

Tuo, Mingguang, Liang, Min, Zhang, Jitao, Xin, Hao

25 September 2016

Photoconductive antenna (PCA) array based THz near-field imager incorporating Hadamard multiplexing method is developed in this work. By using a 2 × 2 dipole antenna array as the THz transmitter, the system signal-to-noise ratio (SNR) is demonstrated to be improved by a factor of 2 as the theory predicts. Additionally, a 2-D scanning of a metallic structure on a THz-transparent substrate (with a total scanning area of 1 × 1 mm2) is experimentally implemented. Correlation coefficient estimation is made afterwards to quantify the reconstructed image quality.

Antenna measurements

Time-domain analysis

Antenna arrays

Signal to noise ratio

Substrates

Principal component analysis

Correlation coefficient

Comparison of code rate and transmit diversity in MIMO systems

Churms, Duane

January 2016

A thesis submitted in ful lment of the requirements for the degree of Master of Science in the Centre of Excellence in Telecommunications and Software School of Electrical and Information Engineering, March 2016 / In order to compare low rate error correcting codes to MIMO schemes with transmit diversity, two systems with the same throughput are compared. A VBLAST MIMO system with (15; 5) Reed-Solomon coding is compared to an Alamouti MIMO system with (15; 10) Reed-Solomon coding. The latter is found to perform signi cantly better, indicating that transmit diversity is a more e ective technique for minimising errors than reducing the code rate. The Guruswami-Sudan/Koetter-Vardy soft decision decoding algorithm was implemented to allow decoding beyond the conventional error correcting bound of RS codes and VBLAST was adapted to provide reliability information. Analysis is also performed to nd the optimal code rate when using various MIMO systems. / MT2016

Space time codes

MIMO systems

Coding theory

Wireless communication systems

Antenna arrays

Statistical methods on detecting superpositional signals in a wireless channel

Chan, Francis, Chun Ngai, Electrical Engineering & Telecommunications, Faculty of Engineering, UNSW

January 2006

The objective of the thesis is concerned on the problem of detecting superpositional signals in a wireless channel. In many wireless systems, an observed signal is commonly represented as a linear combination of the transmitted signal with the interfering signals dispersed in space and time. These systems are generally known as the interference-limited systems. The mathematical model of these systems is generally referred as a superpositional model. A distinguished characteristic of signal transmission in a time-varying wireless channel is that the channel process is not known a priori. Reliable signal reception inherently requires exploiting the structure of the interfering signals under channel uncertainty. Our goal is to design computational efficient receivers for various interference-limited systems by using advanced statistical signal processing techniques. The thesis consists of four main parts. Firstly, we have proposed a novel Multi-Input Multi-Output (MIMO) signal detector, known as the neighbourhood exploring detector (NED). According to the maximum likelihood principle, the space time MIMO detection problem is equivalent to a NP-hard combinatorial optimization problem. The proposed detector is a sub-optimal maximum likelihood detector which eliminates exhaustive multidimensional searches. Secondly, we address the problem of signal synchronization for Global Positioning System (GPS) in a multipath environment. The problem of multipath mitigation constitutes a joint estimation of the unknown amplitudes, phases and time delays of the linearly combined signals. The complexity of the nonlinear joint estimation problem increases exponentially with the number of signals. We have proposed two robust GPS code acquisition systems with low complexities. Thirdly, we deal with the problem of multipath mitigation in the spatial domain. A GPS receiver integrated with the Inertial Navigation System (INS) and a multiple antenna array is considered. We have designed a software based GPS receiver which effectively estimates the directions of arrival and the time of arrival of the linearly combined signals. Finally, the problem of communications with unknown channel state information is investigated. Conventionally, the information theoretical communication problem and the channel estimation problem are decoupled. However the training sequence, which facilitates the estimation of the channel, reduces the throughput of the channel. We have analytically derived the optimal length of the training sequence which maximizes the mutual information in a block fading channel.

Hardware implementation of V-BLAST MIMO

Sobhanmanesh, Fariborz, School of Electrical Engineering And Telecommunications, UNSW

January 2006

The exploitation of the theoretically enormous capacity achieved by the multiple transmit and receive antennas systems (MIMO) in a rich scattering communication channel has been the subject of vast body of research on the field of MIMO. In particular, the Vertically-layered Bell Laboratories Layered Space-Time (V-BLAST) is a well known MIMO architecture which has demonstrated the enormous capacity of 20-40 bit/s/Hz in an indoor propagation environment with realistic SNR and error rates. However, due to the intensive computation involved, it would be difficult to implement this architecture for high data rate communication systems. Some works have been done to improve the receiver complexity and performance by coding techniques, by different detection architectures. In this thesis, we have focused on QR-based decoders for V-BLAST MIMO. For a suitable V-BLAST detection implementation, we need to carefully consider the problem from algorithmic, arithmetic and architectural aspects. At the algorithmic level, the numerical stability and robustness should be considered. At the arithmetic level, signal quantization is important, and, at the architectural level, parallelism and pipelining require attention. We have performed the above mentioned optimization on the 1-pass QR factorization with back substitution SIC (Symbol Interference Cancellation) decoder in chapter 3. At first optimizations are made on the proposed algorithm and architecture using MATLAB simulations. Then a new architecture for the QR-factorizer as the core processor of the V-BLAST decoder is developed in chapter 4. This architecture uses only two low complexity CORDIC (Coordinate rotation digital computer) processors. The parameterized feature of the controller and address generator blocks of this architecture has provided a scalable architecture for the implementation of QR factorization for square matrix of any dimension. The reduced hardware complexity of the processors and its simple parameterized controller are two outstanding features of the architecture, resulting in a more suitable alternative architecture for QR factorization than traditional triangular systolic arrays. In the next phase of the research, new hardware architectures of the back substitution SIC decoder was developed for a 4 X 4 MIMO system with 16-QAM constellation scheme in chapter 5. The division operation for back substitution needs a complex hardware, and results in the numerical instability. In the proposed hardware the elimination of division and modification of multiplier has reduced the hardware complexity and led to numerical stability. In addition the pre decoding block was designed and optimized in terms of number of the pipeline registers and CORDIC rotator processors. The developed hardware is capable of processing 20 vectors data burst and results in a throughput of 149 Mb/s. The FPGA (Field Programmable Gate Array) and ASIC (Application specific Integrated Circuit) implementations of the proposed optimized architecture are presented in Chapter 5. We found that the equivalent gates and the core area in our design is less than 30% of other designs and the maximum clock frequency and the throughput is higher (175 %) than other works. Finally the improvements of the BER performance using the branching method and parallel architectures are presented in chapter 6. In this supplementary part to back substitution OSIC decoder, the final symbol vector is selected from 2 or 8 potential candidates based on the minimum Euclidean norm, which improves the BER between 3 to 7 db and gives a very close match to the original V-BLAST performance.

MIMO systems

Space time codes

Antenna arrays

Signal processing - digital techniques

Wireless communication systems

Mobile communication systems

Modeling and Design of Photoconductive and Superconductive Terahertz Photomixer Sources

Saeedkia, Daryoosh

January 2005

Terahertz technology is a fast growing field with variety of applications in biology and medicine, medical imaging, material spectroscopy and sensing, monitoring and spectroscopy in pharmaceutical industry, security, and high-data-rate short-range communications. Among different terahertz sources, photomixers are potentially compact, low power consuming, coherent, low-cost, and tunable continuous-wave sources. A terahertz photomixer is a heterodyne scheme, in which two laser beams with their frequency difference falling in the terahertz range mix in a nonlinear medium, such as a photoconductor or a superconductor, and generate a signal, whose frequency is equal to the frequency difference of the two lasers. The frequency of the generated terahertz signal can be tuned by tuning the central frequency of one of the lasers. <br ><br /> In this dissertation, the photomixing in superconductors and photoconductors is studied, and comprehensive analytical models for the interaction of two interfering laser beams with these materials are developed. Integrated photomixer-antenna elements as efficient terahertz sources are introduced and arrays of these elements as high power terahertz sources are designed. Also, an array of photoconductive photomixer-antenna elements with integrated excitation scheme is proposed. <br ><br /> In a photo-excited superconductor, the fundamental equations for the motion of the carriers inside the superconductor material are used in connection with the two-temperature model to find an analytic expression for the generated terahertz photocurrent inside the film. In a photo-excited photoconductor, the continuity equations for the electron and hole densities are solved in their general form along with the appropriate boundary conditions to find photocurrent distribution inside the photoconductor film. It is shown that in a continuous-wave (CW) terahertz photomixing scheme, the resulting photocurrent contains a dc component and a terahertz traveling-wave component. The dependency of the amplitude and the phase of the generated photocurrent on the physical parameters of the photomixer, the parameters of the lasers, the applied dc bias, and the configuration of the device is explored in detail for a photoconductive photomixer made of low-temperature grown (LTG) GaAs and for a high-temperature superconductive photomixer made of YBa₂Cu₃O_7-&delta;. <br ><br /> The developed models for the photoconductive and the superconductive terahertz photomixers are used to design new integrated photomixer-antenna devices. In these devices, the photomixing film simultaneously acts as an efficient radiator at the terahertz frequencies. Integrating the photomixing medium with the antenna not only eliminates any source to antenna coupling problem, but also makes the proposed device attractive for array configurations. <br ><br /> To increase the generated terahertz power, arrays of the photoconductive and the superconductive photomixer-antenna elements are proposed as CW terahertz sources. It is shown that a sub-milliwatt terahertz power is achievable from a typical superconductive photomixer-antenna array structure. The beam steering capability of the proposed devices is also investigated. <br ><br /> A photoconductive photomixer-antenna array with integrated excitation scheme is proposed, in which the laser beams are guided inside the substrate and excite the photomixer elements. In this way the laser power is only being consumed by the photomixer elements, and the photomixer-antenna elements can be integrated with other optical components on a single substrate. The whole structure is robust and less sensitive to vibration and other environmental parameters.

Electrical & Computer Engineering

Continouos-wave terahertz sources

superconductive photomixers

photoconductive photomixers

terahertz photomixer-antenna arrays

Terahertz technology

Modeling and Design of Photoconductive and Superconductive Terahertz Photomixer Sources

Saeedkia, Daryoosh

January 2005

Terahertz technology is a fast growing field with variety of applications in biology and medicine, medical imaging, material spectroscopy and sensing, monitoring and spectroscopy in pharmaceutical industry, security, and high-data-rate short-range communications. Among different terahertz sources, photomixers are potentially compact, low power consuming, coherent, low-cost, and tunable continuous-wave sources. A terahertz photomixer is a heterodyne scheme, in which two laser beams with their frequency difference falling in the terahertz range mix in a nonlinear medium, such as a photoconductor or a superconductor, and generate a signal, whose frequency is equal to the frequency difference of the two lasers. The frequency of the generated terahertz signal can be tuned by tuning the central frequency of one of the lasers. <br ><br /> In this dissertation, the photomixing in superconductors and photoconductors is studied, and comprehensive analytical models for the interaction of two interfering laser beams with these materials are developed. Integrated photomixer-antenna elements as efficient terahertz sources are introduced and arrays of these elements as high power terahertz sources are designed. Also, an array of photoconductive photomixer-antenna elements with integrated excitation scheme is proposed. <br ><br /> In a photo-excited superconductor, the fundamental equations for the motion of the carriers inside the superconductor material are used in connection with the two-temperature model to find an analytic expression for the generated terahertz photocurrent inside the film. In a photo-excited photoconductor, the continuity equations for the electron and hole densities are solved in their general form along with the appropriate boundary conditions to find photocurrent distribution inside the photoconductor film. It is shown that in a continuous-wave (CW) terahertz photomixing scheme, the resulting photocurrent contains a dc component and a terahertz traveling-wave component. The dependency of the amplitude and the phase of the generated photocurrent on the physical parameters of the photomixer, the parameters of the lasers, the applied dc bias, and the configuration of the device is explored in detail for a photoconductive photomixer made of low-temperature grown (LTG) GaAs and for a high-temperature superconductive photomixer made of YBa₂Cu₃O_7-&delta;. <br ><br /> The developed models for the photoconductive and the superconductive terahertz photomixers are used to design new integrated photomixer-antenna devices. In these devices, the photomixing film simultaneously acts as an efficient radiator at the terahertz frequencies. Integrating the photomixing medium with the antenna not only eliminates any source to antenna coupling problem, but also makes the proposed device attractive for array configurations. <br ><br /> To increase the generated terahertz power, arrays of the photoconductive and the superconductive photomixer-antenna elements are proposed as CW terahertz sources. It is shown that a sub-milliwatt terahertz power is achievable from a typical superconductive photomixer-antenna array structure. The beam steering capability of the proposed devices is also investigated. <br ><br /> A photoconductive photomixer-antenna array with integrated excitation scheme is proposed, in which the laser beams are guided inside the substrate and excite the photomixer elements. In this way the laser power is only being consumed by the photomixer elements, and the photomixer-antenna elements can be integrated with other optical components on a single substrate. The whole structure is robust and less sensitive to vibration and other environmental parameters.

Electrical & Computer Engineering

Continouos-wave terahertz sources

superconductive photomixers

photoconductive photomixers

terahertz photomixer-antenna arrays

Terahertz technology

Design of a bistatic nearfield array for an expanded volume

Terrell, Stephen John

18 April 2005

Achieving acceptable plane wave uniformity throughout an expanded volume is necessary to conduct scattering measurements on a large target in a controlled environment. An expanded volume is large relative to the size of the nearfield array configuration used to produce plane wave uniformity. The optimum set of shading coefficients for a nearfield array may not produce acceptable plane wave uniformity as the volume and frequency domain are expanded for a given array configuration. Choosing the frequency domain as a single frequency for an optimum set of coefficients will produce plane wave uniformity throughout the largest possible volume for a given array configuration. This study determines the acceptability of uniformity results produced by an optimum set of frequency dependent coefficients throughout an expanded volume for two array configurations that comprise a system for measuring bistatic target strength in the nearfield. Minimizing the frequency domain chosen for an optimum set of coefficients will produce plane wave uniformity for the largest possible volume for a given array configuration. This study determines the acceptability of uniformity results produced by an optimum set of frequency dependent coefficients throughout an optimistic volume for two array configurations that comprise a bi-static array.

Planar nearfield array

Optimized shading coefficients

Cylindrical nearfield array

Bistatic radar Design and construction

Antenna arrays Design and construction

Indoor MIMO Channels with Polarization Diversity: Measurements and Performance Analysis

Anreddy, Vikram R.

12 April 2006

This thesis deals with dual-polarized multiple input multiple output (MIMO) channels, an important issue for the practical deployment of multiple antenna systems. The MIMO architecture has the potential to dramatically improve the performance of wireless systems. Much of the focus of research has been on uni-polarized spatial MIMO configurations, the performance of which, is a strong function of the inter-element spacing. Thus the current trend of miniaturization, seems to be at odds with the implementation of spatial configurations in portable handheld devices. In this regard, dual-polarized antennas present an attractive alternative for realizing higher order MIMO architectures in compact devices. Unlike spatial channels, in the presence of polarization diversity, the subchannels of the MIMO channel matrix are not identically distributed. They differ in terms of average received power, envelope distributions, and correlation properties. In this thesis, we report on an indoor channel measurement campaign conducted at 2.4 GHz, to measure the copolarized and cross-polarized subchannels, under line-of-sight (LOS) and non-line-of-sight (NLOS) channel conditions. The measured data is then analyzed, to draw a fair comparison between spatial and dual-polarized MIMO systems, in terms of channel characteristics and achievable capacity. The main drawback of the MIMO architecture is that the gain in capacity comes at a cost of increased hardware complexity. Antenna selection is a technique using which we can alleviate this cost. We emphasize that this strategy is all the more relevant for compact devices, which are often constrained by complexity, power and cost. Using theoretical analysis and measurement results, this thesis investigates the performance of antenna selection in dual-polarized MIMO channels. Our results indicate that, antenna selection when combined with dual-polarized antennas, is an effective, low-complexity solution to the problem of realizing higher order MIMO architectures in compact devices.

Compact arrays

Diversity

Antenna selection

Polarization diversity

MIMO

Dual-polarized antennas

Wireless communication systems

Antenna arrays

MIMO systems