Transmit antenna selection for multiple-input multiple-output spatial modulation systems

The benefits of transmit antenna selection (TAS) invoked for spatial modulation (SM) aided multiple-input multiple-output (MIMO) systems are investigated. Specifically, we commence with a brief review of the existing TAS algorithms and focus on the recently proposed Euclidean distance-based TAS (ED-TAS) schemes due to their high diversity gain. Then, a pair of novel ED-TAS algorithms, termed as the improved QR decomposition (QRD)-based TAS (QRD-TAS) and the error-vector magnitude-based TAS (EVM-TAS) are proposed, which exhibit an attractive system performance at low complexity. Moreover, the proposed ED-TAS algorithms are amalgamated with the low-complexity yet efficient power allocation (PA) technique, termed as TAS-PA, for the sake of further improving the system's performance. Our simulation results show that the proposed TAS-PA algorithms achieve signal-to-noise ratio (SNR) gains of up to 9 dB over the conventional TAS algorithms and up to 6 dB over the TAS-PA algorithm designed for spatial multiplexing systems

Detection and decoding algorithms of multi-antenna diversity techniques for terrestrial DVB systems

This PhD dissertation analyzes the behavior of multi-antenna diversity techniques in broadcasting scenarios of TDT (terrestrial digital television) systems and proposes a low-complexity detection and decoding design for their practical implementation. For that purpose, the transmission-reception chains of the European DVB-T (Digital Video Broadcasting - Terrestrial) and DVB-T2 standards have been implemented over which diversity and MIMO (multiple-input multiple-output) techniques have been assessed through Monte Carlo simulations. On one hand, the most important multi-antenna diversity techniques such as CDD (cyclic delay diversity), Alamouti code-based SFBC (space-frequency block coding) and MRC (maximum ratio combining), have been evaluated in a DVB-T system over both fixed and mobile Rayleigh and Ricean channels. With the DVB-T2 standard release, multi-antenna processing has actually been introduced in digital television systems. The distributed SFBC configuration proposed in DVB-T2 is analyzed from a performance point of view considering different propagation conditions in an SFN (single frequency network). On the other hand, error-performance and detection complexity analyses of 2x2 FRFD (full-rate full-diversity) SFBCs are carried out for last-generation DTV (digital television) systems. The use of channel coding based on LDPC (low-density parity check) codes in new standards such as DVB-T2, involves a soft-output MAP (maximum a posteriori ) detection which results in an increase of the detection complexity. In order to study the FRFD codes behavior in such a BICM (bit-interleaved coded modulation) scheme, the Golden code, which achieves the maximum coding gain, and the Sezginer-Sari code, which has a lower inherent detection complexity as an expense of sacrificing performance gain, have been chosen. Using LSD (list sphere decoder) detection, BER (bit error rate) performance and computational cost results are provided for TDT scenarios. In order to overcome the variable complexity of the LSD, LFSD (list fixed-complexity sphere decoder) detection is proposed for practical implementations. A redesign of the previously proposed LFSD algorithm for spatial multiplexing MIMO systems has been performed for FRFD SFBCs with close-to-LSD performance. Furthermore, an analysis of the number of candidates is carried out in order to maximize the eficiency of the algorithm. Due to its fixed complexity, the novel algorithm can be fully pipelined making feasible a realistic implementation in chip.Esta tesis analiza el comportamiento de las técnicas de diversidad multiantena en escenarios de radiodifusión TDT (televisión digital terrestre) y propone un diseño de baja complejidad para la detección de códigos SFBC (space-frequency block coding ) que facilita una posible implementación práctica. Para ello, se ha implementado la cadena de transmisión-recepción de los estándares europeos DVB-T (Digital Video Broadcasting - Terrestrial ) y DVB-T2 como entorno de trabajo donde se han incluido y simulado diferentes técnicas de diversidad MIMO (multiple-input multiple-output ). Por un lado, se evalúan las técnicas de diversidad multiantena CDD ( cyclic delay diversity), SFBC con codi cación Alamouti y MRC (maximum ratio combining ) en escenarios fijos y móviles de canales tanto Rayleigh como Ricean para el sistema DVB-T. En DVB-T2, se analiza la tecnología multiantena propuesta por el estándar para diferentes escenarios de propagación dentro de redes SFN (single frequency network ). Por otro lado, se realiza un estudio sobre códigos FRFD (full-rate full-diversity ) SFBC para su posible inclusión en futuros estándares de televisión digital. El uso de codificaciones de canal más potentes, como los códigos LDPC (low-density parity check ), implica la utilización de una detección MAP (maximum a posteriori ) con salida soft, incrementando considerablemente la complejidad de la detección. Para realizar el correspondiente análisis de complejidad y rendimiento, se han escogidos dos códigos FRFD. Por un lado, el código Golden, que ofrece la máxima ganancia de código y, por otro, el código propuesto por Sezginer y Sari, que consigue reducir la complejidad de detección a costa de perder cierta ganancia de código. Se presentan resultados basados en curvas de BER (bit error rate) y número de operaciones sobre un sistema BICM (bit-interleaved coded modulation ) equivalente a DVB-T2 en escenarios TDT utilizando una detección LSD (list sphere decoder ). Para resolver el problema de la complejidad variable del algoritmo LSD, se realiza un rediseño del ya propuesto LFSD (list fixed-complexity sphere decoder ) para técnicas de multiplexación espacial considerando la estructura de los códigos FRFD SFBC. Asimismo, se evalúa el número de candidatos que ofrece un funcionamiento más eficiente con menor coste computacional. Los resultados de simulación basados en curvas de BER muestran rendimientos cercanos al detector LSD manteniendo el número de operaciones constante. Por lo tanto, este nuevo diseño permite su eficiente y práctica implementación en dispositivos reales.Doktoretza-tesi honen gai nagusia Lurreko Telebista Digitalerako antena anitzeko dibertsitate tekniken portaera ikertzea da, hartzailerako konplexutasun baxuko algoritmoen diseinua oinarri hartuta. Horretarako, Europako DVB-T eta DVB-T2 telebista digitaleko estandarren igorle-hartzaile kateen simulagailua inplementatzeaz gain, dibertsitate eta MIMO ( multipleinput multiple-output ) algoritmoak garatu eta aztertu dira. Lehenengo helburu gisa, CDD (cyclic delay diversity ), Alamouti kodean oinarritutako SFBC (space-frequency block coding ) eta MRC (maximum ratio combining ) teknikak ebaluatu dira Rayleigh eta Ricean ingurunetan, bai komunikazio nko zein mugikorretarako. Argitaratu berri den DVB-T2 estandarrak antena anitzeko prozesaketa telebista sistema digitalean sartu duenez, teknologia honen analisia egin da maiztasun bakarreko telebista sareetarako SFN (single frequency network ). Tesiaren helburu nagusia FRFD (full-rate full-diversity ) SFBC kodigoen ikerketa eta hauek telebista digitalaren estandar berrietan sartzea ahalbidetuko dituzten detekzio sistemen diseinua izan da. Kanalen kodi kazio indartsuagoak erabiltzeak, LDPC ( low-density parity check ) kodeak esaterako, MAP (maximum a posteriori ) algoritmoan oinarritutako soft irteeradun detektoreen erabilera dakar berekin, detekzioaren konplexutasuna areagotuz. Bi FRFD kode aukeratu dira errendimendu eta konplexutasun analisiak DVB-T2 bezalako BICM (bit-interleaved coded modulation ) sistemetan egiteko. Alde batetik, irabazi maximoa lortzen duen Golden kodea eta, bestetik, konplexutasun txikiagoa duen Sezginer eta Sarik proposatutako kodea erabili dira. Bit errore edo BER (bit error rate) tasan eta konputazio kostuan oinarrituta, emaitzak aurkeztu dira zerrenda dekodeatzaile esferikoa ( list sphere decoder, LSD) erabiliz. LSD-aren konplexutasun aldakorraren arazoa konpontzeko, ezpazio-multiplexazioko teknikarako LFSD (list xed-complexity sphere decoder ) algoritmoaren berdiseinua garatu da, FRFD SFBC kodeen egitura berezia kontuan hartuta. Algoritmoaren eraginkortasuna maximizatzeko kandidatuen zenbakia ebaluatzen da baita ere. LSD-en antzeko errendimendua duten BER gra ketan oinarritutako simulazio emaitzak aurkezten dira, eragiketa kopurua konstante eta LSD-arenaren baino murritzagoa mantenduz. Beraz, proposatutako diseinu eraginkorrak, FRFD SFBC antena anitzeko dibertsitatean oinarritutako eskemen inplementazioa ahalbidetu dezakete telebista digitalaren estandar berrietarako

Error performance analysis of cross QAM and space-time labeling diversity for cross QAM.

Doctoral Degrees. University of KwaZulu-Natal, Durban.Abstract available in the PD

Um estudo da probabilidade de erro de símbolo da modulação TQAM nos canais AWGN e de Rayleigh

In the receiver of the mobile radio links, the signal resultant is constituted by various signals with different amplitudes, phases and delays corresponding to the different propagation paths. The propagation multi-path results in fading and to mitigate the effect of fading are techniques are used to stabilize the link and thus improve channel performance. One of the techniques described in the literature is the spatial diversity in reception with single input multiple outputs (SIMO - Single Input Multiple Output). To implement this spatial diversity technique, was used the maximum ratio combination (MRC -Maximum Ratio Combination). In this scenario of digital signal transmission, this work studied the performance of M-TQAM modulation in noise and fading channels. The conclusions were that the triangular constellation performs similarly to the square constellation and that there is less demand for SNR when the number of reception channels increasesTrabalho de Conclusão de Curso (Graduação)No receptor dos enlaces de rádio móvel, o sinal resultante é constituído por vários sinais com diferentes amplitudes, fases e atrasos correspondentes aos diferentes caminhos de propagação. A propagação por múltiplos caminhos resulta em desvanecimento e para atenuar o efeito do desvanecimento são utilizadas técnicas para estabilizar o enlace e, assim melhorar o desempenho do canal. Uma das técnicas descritas na literatura é a diversidade espacial na recepção com um canal de única entrada e múltiplas saídas (SIMO – Single Input Multiple Output). Para implementar essa técnica de diversidade espacial foi utilizada a combinação de máxima razão (MRC - Maximal Ratio Combining). Nesse cenário de transmissão de sinais digitais, esse trabalho estudou o desempenho da modulação M-TQAM em canais com ruído e desvanecimento. As conclusões foram que a constelação triangular apresenta desempenho similar a constelação quadrada e que há uma demanda menor de SNR quando o número de canais de recepção aumenta

Index modulation for next generation wireless communications.

Doctoral Degree. University of KwaZulu-Natal, Durban.A multicarrier index modulation technique in the form of quadrature spatial modulation (QSM) orthogonal frequency division multiplexing (QSM-OFDM) is proposed, in which transmit antenna indices are employed to transmit additional bits. Monte Carlo simulation results demonstrates a 5 dB gain in signal-to-noise ratio (SNR) over other OFDM schemes. Furthermore, an analysis of the receiver computational complexity is presented. A low-complexity near-ML detector for space-time block coded (STBC) spatial modulation (STBC-SM) with cyclic structure (STBC-CSM), which demonstrate near-ML error performance and yields significant reduction in computational complexity is proposed. In addition, the union-bound theoretical framework to quantify the average bit-error probability (ABEP) of STBC-CSM is formulated and validates the Monte Carlo simulation results. The application of media-based modulation (MBM), to STBC-SM and STBC-CSM employing radio frequency (RF) mirrors, in the form of MBSTBC-SM and MBSTBC-CSM is proposed to improve the error performance. Numerical results of the proposed schemes demonstrate significant improvement in error performance when compared with STBC-CSM and STBC-SM. In addition, the analytical framework of the union-bound on the ABEP of MBSTBC-SM and MBSTBC-CSM for the ML detector is formulated and agrees well with Monte Carlo simulations. Furthermore, a low-complexity near-ML detector for MBSTBC-SM and MBSTBC-CSM is proposed, and achieves a near-ML error performance. Monte Carlo simulation results demonstrate a trade-off between the error performance and the resolution of the detector that is employed. Finally, the application of MBM, an index modulated system to spatial modulation, in the form of spatial MBM (SMBM) is investigated. SMBM employs RF mirrors located around the transmit antenna units to create distinct channel paths to the receiver. This thesis presents an easy to evaluate theoretical bound for the error performance of SMBM, which is validated by Monte Carlo simulation results. Lastly, two low-complexity suboptimal mirror activation pattern (MAP) optimization techniques are proposed, which improve the error performance of SMBM significantly

OFDM Communication with Cooperative Relays

Signal fading due to multi-path propagation is one of the major impairments to meet the demands of next generation wireless networks for high data rate services. To mitigate the fading effects, time, frequency, and spatial diversity techniques or their hybrid can be used. Among different types of diversity techniques, spatial diversity is of special interest as is does not incur system losses in terms of delay and bandwidth efficiency.TelecommunicationsElectrical Engineering, Mathematics and Computer Scienc