Global ETD Search

111	Time-Varying Autoregressive Model Based Signal Processing with Applications to Interference Rejection in Spread Spectrum Communications Shan, Peijun 13 August 1999 (has links) The objective of this research is to develop time-varying signal processing methods for rapidly varying non-stationary signals based on time-varying autoregressive (TVAR) modeling, and to apply such methods to frequency-modulated (FM) interference rejection in direct-sequence spread spectrum (DSSS) communications. For fast varying non-stationary signal processing, such as the task to reject an FM interference that could chirp over the entire DSSS bandwidth in a symbol interval, an explicit description of the variation is necessary to form a time-varying filter. This is realized using the TVAR model, which is an autoregressive model whose coefficients are time-varying with the variation modeled as a linear combination of a set of known functions of time. In DSSS communications, when the strength of an interference - which could be a hostile jammer or overlaid communication signal - possibly exceeds the inherent spread spectrum processing gain, interference rejection is necessary to secure a usable bit-error-rate. The contributions of this research include: a) revealed the advantageous performance of TVAR model based instantaneous frequency estimation (TVAR-IF), which is expected to change the prevailing opinion that regards TVAR-IF as a poor estimator; b) proposed a time-varying Prony method to improve TVAR-IF at low SNR; c) proposed to use TVAR-IF for time-varying FIR notch filter based FM jammer suppression in DSSS communications; d) developed TVAR model based time-varying optimum filters, including the TVAR based Kalman filter (TVAR-KF) and the TVAR based Wiener filter (TVAR-WF); e) developed a TVAR-WF based formulation of FM interference soft-cancellation in DSSS communications; and f) proposed a TVAR based linear prediction error (TVAR-LPE) filter for soft-cancellation of FM interference in DSSS communications. For the interference rejection problem, our TVAR-IF controlled notch filter yields high processing gain close to that using the known IF and much higher than that using the WVD based IF estimate. Furthermore, unlike the IF based notch filter approaches, the proposed soft-cancellation methods utilize the full spectral information captured by the TVAR model. Our soft-cancellation approaches, including TVAR-WF and TVAR-LPE, maintain at least the DSSS system performance expected when no filtering is used, even under estimated conditions. The latter is in contrast to the notch filter based approaches, which may cause deterioration of overall system performance at low jammer-to-signal ratios. / Ph. D. Interference TVAR Time-Varying Filtering FM Spread Spectrum
112	IVDS Consumer Control Unit Evolution and Bar Code Interface Design Green, Henry John 29 May 1996 (has links) The Interactive Video and Data System is a multidisciplinary research project involving the creation of a means for people to interact with television and printed media without the addition of expensive hardware as required by most interactive systems available today. The IVDS system consists of a Consumer Control Unit which transmits user requests, a Repeater Unit which receives transmissions from the CCUs, and a Host System which takes appropriate actions for user demands. This thesis follows the evolution of the original CCU prototype as more capabilities are added and hardware platforms are changed, focusing on the addition of a bar code interface to the CCU. / Master of Science IVDS interactive video bar codes universal remotes spread spectrum
113	Physical Layer Design for a Spread Spectrum Wireless LAN Li, Guoliang 10 September 1996 (has links) A wireless local area network (LAN) system is proposed to provide mobility for existing data communication services. This thesis presents a physical layer design for a direct sequence spread spectrum ISM band radio LAN system. This radio system employs spread spectrum communication technology and a differential binary phase shift keying/quadrature phase shift keying (BPSK/QPSK) non-coherent receiver to overcome the adverse indoor wireless environment. Moreover, a variable data rate transmission technique is used to dynamically configure the spread spectrum system according to channel performance. This physical layer incorporates the Zilog Z2000 Evaluation Board performing direct sequence spread spectrum processing, a Grayson 900 MHz radio receiver and a transmitter module which was designed and built at Virginia Tech. The transmitted spectrum occupies a 4 MHz bandwidth in the 900 MHz ISM band and this system supports a data rate of up to 363 Kbits/sec. The spread spectrum system design along with detailed descriptions of hardware and control software development are presented. / Master of Science wireless LAN spread spectrum radio transceiver PN code
114	Spread spectrum techniques for distributed multimeasurand optical fiber sensors Ravikumar, K. C. 14 March 2009 (has links) Spread spectrum techniques offer an alternate solution to the urgency for distributed optical fiber sensors. These techniques are based on the properties of pseudorandom sequences that have triangular autocorrelation functions with peaks only at regions of no delay. This affords an opportunity to give the desired signal a power advantage over many types of interference and noise. A study in employing spread spectrum techniques for multiplexing optical fiber sensors is presented. A mathematical analysis of the system is conducted with due consideration given to performance issues. Simulations in software are conducted to characterize system performance. Hardware developed for this project operates at over 1 Mbps and is capable of simultaneously monitoring four sensors. Real time experiments conducted on these multiplexed sensors affirm the technical feasibility of the system. Configurations for viable applications of the system are also suggested. / Master of Science LD5655.V855 1993.K3 Optical fiber detectors Spread spectrum communications
115	On combination and interference free window spreading sequences Cresp, Gregory January 2008 (has links) Spread spectrum techniques have a number of different applications, including range finding, synchronisation, anti-jamming systems and multiple access communication systems. In each of these applications the properties of the resulting systems depend heavily on the family of spreading sequences employed. As such, the design of spreading sequences is an important area of research. Two areas of spreading sequence design are of particular interest in this work, combination techniques and Interference Free Window (IFW) sequences. Combination techniques allow a new sequence family to be constructed by combining two or more existing families. Such an approach allows some of the desirable properties of the components to be maintained, whilst mitigating the components' disadvantages. In addition, it can facilitate the construction of large families at a greatly reduced computational cost. Combination families are considered through the construction of two new classes of sequences, modified Unified Complex Hadamard Transform (UCHT) sequences, and combination Oppermann sequences, respectively based on UCHT sequences and periodic Oppermann sequences. Numerical optimisation techniques are employed to demonstrate the favourable performance of sequences from these classes compared to conventional families. Second, IFW sequences are considered. In systems where approximate, but not perfect, synchronisation between different users can be maintained, IFW sequences can be employed to greatly reduce both interference between users and interference resulting from multipath spread of each user's signal. Large Area Synchronous (LAS) sequences are a class of sequences which both result from combination techniques and exhibit an IFW. LAS sequences are produced by combining Large Area (LA) sequences and LS sequences. They have been demonstrated to be applicable to multiple access communication systems, particularly through their use in LAS2000, which was proposed for third generation mobile telephony. Work to date has been restricted to only a very small range of examples of these families. In order to examine a wider range of LAS sequences, the construction and resulting properties of LA and LS families are considered. The conditions an LA family must satisfy are codified here, and algorithms which can be used to construct LA families with given parameters are presented. The construction of LS sequences is considered, and relationship between each of the parameters used in this construction and the properties of the final family is examined. Using this expanded understanding of both these sequence families, a far wider range of LAS families, potentially applicable to a wider range of applications, can be considered. Initially, the merits of proposed sequences are considered primarily through their correlation properties. Both maximum and mean squared correlation values are considered, depending on the context. In order to demonstrate their practical applicability, combination Oppermann, modified UCHT and LAS sequences are employed in a simulated communications system, and the resulting bit error rates are examined. Digital communications Spread spectrum communications Mobile communication systems Sequence design Interference free window Spread spectrum communications Combination sequences
116	Implementation and Applications of an Anti-Collision Differential-Offset Spread Spectrum RFID System Rohatgi, Anil 11 August 2006 (has links) This report documents the design, construction, and implementation of a differential-offset spread spectrum RFID system, to avoid the problem of anti-collision interference from multiple RFID tags. Currently in industry, this problem is handled by establishing a two way communication link between the tags and the interrogator. The proposed system eliminates the need for the excessive hardware use to create this link, and therefore drastically reduces the cost of each tag. Not only is this system cheaper to implement but it is faster, requires less power, and by the nature of the design contains an inherent encryption scheme for the data being transmitted. Specialized RFID tags were designed and fabricated in order to produce a pseudo random code unique to each tag. The design presented in this document allowed simultaneous interrogation of up to 255 tags within one sensing environment. Once queried, the tags then modulate the incoming signal from the interrogator with their own sequence, and reflect the signal back to the interrogator. What the interrogator then receives is a combination of backscatter from all of the tags within the sensing environment. Specialized software written in Matlab and LabView uses these unique sequences to isolate the data from a desired tag away from the sea of information being transmitted from every tag. Using this system, numerous applications for experiments and measurements can be devised. One such application this thesis focuses on is the use of this system to simultaneously measure signal strengths from multiple diversity antennas in order to optimize their position and orientation. Currently, the majority of antenna diversity measurements are taken by measuring the signal strength of a given configuration one antenna at a time. By using the anti-collision RFID system proposed above, the signal strength produced by both antennas can be measured and recorded simultaneously to provide a true representation of their combined performance. This measurement can be used to find the optimal configuration for multiple antennas. This thesis will fully explore the theories and procedures behind creating this system, and will provide the results and analysis of its performance. Multiple RFID tags Antenna diversity Spread spectrum Anti collision RFID Radio frequency identification Spread spectrum communications Antennas (Electronics) Radio frequency identification systems
117	Análise da vazão de dados no enlace reverso de redes celulares CDMA / Data throughput analysis for the uplink of the CDMA cellular networks Mello, Rodolpho Conti Gianini Ferreira, 1988- 12 June 2013 (has links) Orientador: Celso de Almeida / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-08-24T01:46:06Z (GMT). No. of bitstreams: 1 Mello_RodolphoContiGianiniFerreira_M.pdf: 1434278 bytes, checksum: c9d50dad0686c63ee7429ff495370ace (MD5) Previous issue date: 2013 / Resumo: Os fatores responsáveis pela vazão de dados em uma rede celular são o número de usuários alocados em uma célula e a taxa de dados de cada usuário. Desta forma, para alcançar melhores resultados em termos de vazão de dados, deve-se utilizar de técnicas que trabalhem com foco no produto destes dois parâmetros. Este trabalho consiste em uma análise comparativa entre diferentes sistemas CDMA sob a ótica da vazão de dados, tendo como foco sequências de espalhamento do tipo aleatórias e também de Walsh e detecção com filtro casado e com o detector multiusuário descorrelacionador (MUD-D - Multiuser Detector Decorrelator), além de considerar a presença de interferência interna e externa no sistema. O método utilizado para a análise e comparação consiste na modelagem matemática do enlace reverso de um sistema celular DS-CDMA em canal AWGN com controle perfeito de potência e com alguns parâmetros fixos, tais como, a taxa máxima de erro de bit ( ), a taxa mínima de dados por usuário (10 kbps, referente ao serviço de voz) e a potência máxima de transmissão de 0,5W por estação móvel. Este trabalho apresenta também uma análise comparativa entre um sistema DS-CDMA com filtro casado e outro com o detector MUD-D na presença de interferência externa. A análise comparativa do detector MUD-D com o filtro casado em ambiente com interferência externa e toda a análise da vazão de dados do sistema são contribuições do autor / Abstract: The factors responsible for the data throughput in a cellular network are the number of users allocated in a cell and the users' data rate. This way, to reach better results in terms of data throughput, one must use techniques that act with focus on the product of those two parameters. This work consists in a comparative analysis among different CDMA systems from the perspective of the data throughput, focusing on random and Walsh spreading sequences and detection method with matched filter and with the multi-user detector decorrelator (MUD-D), besides considering the presence of internal and external interference in the system. The analysis and comparison methods consist in the CDMA cellular system uplink mathematical modelling in an AWGN channel considering a perfect power control and some fixed parameters such as the maximum bit error rate ( ), minimum data rate per user (10 kbps, referring to the voice service) and maximum transmitting power of 0.5 W per mobile station. This work also presents a comparative analysis between a DS-CDMA system with matched filter and another with the MUD-D detector in the presence of external interference. The MUD-D and matched filter comparative analysis in a scenario with external interference and the whole system's data throughput analysis are the author's contribution / Mestrado / Telecomunicações e Telemática / Mestre em Engenharia Elétrica Acesso múltiplo por divisão de código Telefonia celular Comunicação com dispersão de espectro Spread spectrum multiple access Wide band code divison multiple access Cellular telephone systems Spread spectrum communications
118	THE SPREAD-SPECTRUM MULTIPLEXING TELEMETRY SYSTEM USING PARALLEL MOVE EQUIVALENT SEQUENCE Wang, Yongjian, Zhao, Honglin, Zhou, Tingxian 10 1900 (has links) International Telemetering Conference Proceedings / October 20-23, 2003 / Riviera Hotel and Convention Center, Las Vegas, Nevada / In this paper, based on the parallel move equivalent sequence of m sequence ,one type of CDM telemetry system is issued. Also the method for anti multi-path interference(MPI) of the system is proposed and its performance is analyzed. We proved that this system not only holds the merits which are inherent in common spread-spectrum communication system, but also has better transmission efficiency. Spread-Spectrum Communication CDM Telemetry System m Sequence Parallel Move Equivalent Sequence
119	ELECTROMAGNETIC COMPATIBILITY BETWEEN SPREAD SPECTRUM AND CONVENTIONAL TELEMETRY SYSTEMS: THE KEY TO A NEW ERA FOR DOD TEST RANGES Mohd, Maqsood A., McLaughlin, James J. Jr 10 1900 (has links) International Telemetering Conference Proceedings / October 26-29, 1992 / Town and Country Hotel and Convention Center, San Diego, California / Telemetry operation is used extensively on a typical Department of Defense (DOD) test range to transfer data from an airborne transmitter to a ground receiver. The conventional telemetry systems employed are usually narrow-band systems. When a large number of airborne transmitters need to transfer data simultaneously to a ground station, a spread spectrum modulation scheme can be used. The drawback of such a scheme, however, is the large emission bandwidth required. The present frequency channeling plans in the telemetry band do not support frequency approval of large bandwidth data telemetry systems. However, a key requirement for obtaining the frequency approval can be satisfied if it can be shown that the spread spectrum modulated signal does not interfere with other systems in the same band. That is, the spread spectrum telemetry systems (SSTS’s) are feasible if these systems are electromagnetically compatible with the existing narrow-band telemetry receivers (NBTR’s) in their immediate environment. The electromagnetic compatibility (EMC between the SSTS transmitters and the conventional NBTR would promise the beginning of a new era for the telemetry operations on a DOD test range. This paper develops a methodology to establish the EMC between multiple airborne transmitters of an SSTS employing the code division multiple access (CDMA) technique and a ground-based conventional NBTR on a typical DOD test range operating simultaneously in the same band. The paper calculates the electromagnetic interference (EMI) levels between the SSTS and the NBTR to establish the EMC between the two systems. Spread spectrum telemetry systems Electromagnetic compatibility Narrow-band telemetry systems DOD test range
120	ANTI-INTERFERENCE STRATEGY AND THE SAFETY OF SPREAD SPECTRUM UNIFIED TT&C SYSTEM Jian, Zhang, Junxin, Ge, Futang, Zhang 10 1900 (has links) International Telemetering Conference Proceedings / October 27-30, 1997 / Riviera Hotel and Convention Center, Las Vegas, Nevada / In this paper, the basic ideas of advanced Spread Spectrum Unified Tracking Telemetry & Command System are introduced, the approaches and strategies to reject narrowband interference, multiple access interference and multipath interference are discussed. With effective interference-rejection, the safety and robustness of SS-UTTCS will be improved enormously. Spread Spectrum Tracking Telemetry & Command Interference Rejection Safety Adaptive Signal Processing

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