Development of an algorithm for the detection of coherency in radar signal waveforms

Alifrangis, Spyridon Mathew

21 November 2012

The estimation of the stability of radar emissions is of considerable interest in the evaluation of radar clutter rejection performance and also for the general knowledge of the waveform required for the design of threat simulators. It should be stressed that for the estimation of clutter rejection capability, it is the stability of the entire waveform that is of general importance, although the stability of parameters such as phase, Pulse Repetition Interval (PRI) and amplitude are typically specified because of the ease in instrumenting the measurement. The parametric estimates are indeed the most useful in describing the characteristics of the waveform but not necessarily for evaluating clutter rejection performance. Two broad categories into which radar emissions can be subdivided are coherent and non-coherent RF. A great deal of confusion often surrounds the use of these terms, especially among those who measure radar emissions rather than those who build the radar sets. For the purposes of this paper, coherence will be defined in terms of the square root of the variance of the first pulse-to-pulse phase difference, Ï (Δθ ). For the case where Ï (Δθ) << 1 radian, the signal will be considered coherent. When the phase is uniformly distributed over 2Ï radians, the signal will be considered nonâ coherent. Since it is likely that, for most practical signals, the signal will be well within one of these two categories, ambiguity will be unlikely. If a radar emission is observed to be coherent, it implies that the radar uses this property for Moving Target Indication (MTI) processing. The performance of the MTI will probably, but not necessarily, depend on the pulse-to-pulse phase stability as the most critical parameter for this type of system. Alternatively, if the radar emission is observed to be non-coherent, it implies that if the radar has an MTI processor, it is likely that it is of the stored reference variety. The performance of the MTI will probably, but again not necessarily, depend on the pulse-to-pulse RF stability as the most critical parameter. The common thread between the two types of systems which indicates clutter rejection performance is the repeatability of adjacent pulse waveforms regardless of phase. This is not to imply that phase is not critical; it is important for determining the type of processor. The difference lies in the fact that for the internally coherent system, the phase information of the coherent reference oscillator is not observable as it is for the extremely coherent system. Hence, the only hint that such an emitter has an MTI processor is contained in the repeatability of adjacent pulse waveforms. This paper addresses the general problems of detecting coherence, estimating MTI performance, and estimating the phase stability, frequency stability and PRI stability using sample data derived from a system based on the IBM-PC. Both the analysis and radar waveform generation systems were implemented in software utilizing Microsoft Fortran and Microsoft C compilers. / Master of Science

LD5655.V855 1989.A4235

Pulse modulation (Electronics)

Radar -- Mathematical models -- Research

Development of a soft-core based power electronic conversion controller

Nsumbu, Cassandra Daviane

January 2014

Thesis (MTech (Electrical Engineering))--Cape Peninsula University of Technology, 2014. / The application of digital control techniques has become dominant in power electronics owing to several advantages they present, when compared to analogue solutions. Their development is based on the use of microprocessors and microcontrollers, such as Application Specific Integrated Circuit (ASIC), Digital signal processors (DSP), Field Programmable Gate Arrays (FPGA), or a combination of these devices. This thesis presents an investigation of a soft-core based FPGA control system as a solution for power electronic applications. The aim was the development and implementation of a conversion controller, which purpose is to supply control inputs in the form of digital Pulse Width Modulation (PWM) signals, to a number of power electronic applications, such as single half and full bridge DC-DC converters, three phase and multicell inverters. The PWM control technique is achieved via their power semiconductor switching devices. These PWM control signals are necessary for the high frequency conversion of an analog input voltage (AC, DC or unregulated) to an analog output voltage of another level (AC or DC). This was intended to be achieved by exploiting and combining the advantages that FPGA and embedded processors provide such as high reconfigurability and multipurpose ability. This controller’s digital outputs, namely PWM switching signals, can be directly delivered to an analog signal amplification circuit to create an adequate voltage level before being processed by the converters’ switches.

Power electronics

Field programmable gate arrays

Digital control systems

Pulse-duration modulation

Pulse modulation (Electronics)

Novel architectures for broadband free-space optical communications: deep-space and terrestrial optical links

Hashmi, Ali Javed

22 April 2010

The main objective of this research is to design, simulate, and evaluate telescope array-based receiver architectures for the inter-planetary optical communication links, which is able to provide broadband data support for future deep-space and universe exploration missions. The major aspects of this research are as follows: (1) evaluation and performance comparison of telescope arrays-based receiver with a large, monolithic telescope-based receiver, (2) mathematical modeling and analysis of the impact of various limiting factors (i.e., background noise, atmospheric turbulence, synchronization and tracking errors) on the performance of optical array receiver, (3) design and evaluation of subsystems and adaptive signal processing algorithms for the mitigation of the above-mentioned deleterious effects, and (4) development of an end-to-end simulation and analysis platform for an optical communication link between a transmitter in Mars orbit and an Earth-based array receiver after integration of the proposed sub-systems. In the second part of this research, I aim to extend the analysis to the free-space, short-range, terrestrial optical communication links. In this part, the objective is the development of the efficient simulation tools for the analysis of receiver performance and optical beam propagation through turbulent atmospheric channel. In the experimental part of the research, the investigation of the use of adaptive optics (AO) subsystems for turbulence and background noise compensation in the deep-space optical communication links will be carried out.

Optical communications

Telescope arrays

Adaptive optics

Deep-space communications

Adaptive filters

Large astronomical telescopes

Pulse amplitude modulation

Pulse modulation (Electronics)

Optical arbitrary waveform generation using chromatic dispersion in silica fibers

Von Eden, Elric Omar

14 June 2007

A novel approach to optical pulse shaping and arbitrary waveform generation (OAWG) using time-domain spectral shaping (TDSS) in negative and positive dispersion in commercial optical fibers has been proposed and evaluated. In order to study the pulse shaping capability of this OAWG system, mathematical analysis was used to determine expressions for the expected output waveform under certain assumptions. Then, Matlab code was developed to model the propagation of an optical signal through a fiber with arbitrary characteristics as well as optical modulation using an electro-optic modulator. The code was first benchmarked to several well-known theoretical systems to ensure that it produced accurate results, and then it was used to examine the ability of this novel OAWG approach to generate different waveforms under various conditions. The results of numerous simulations are presented and used to qualitatively examine the ability of this system to perform OAWG in a real-world setting. Based on the results of simulations, mathematical modeling, as well as previous research in this area, it was determined that higher-order fiber dispersion could be a limitation to the time-bandwidth product and pulse shaping fidelity of this pulse shaping method. Additional dispersion compensation techniques were devised to help overcome these limitations such as the use of multiple dispersion-compensating fibers and spectral phase modulation. An OAWG system employing these techniques was also simulated using the developed Matlab code. Using these results, the possibility and feasibility of employing this system in various pulse shaping applications such as optical communications, are discussed and analyzed. Limitations of the system are also investigated, and methods to improve the system for future applications are suggested.

Spectral modulation

Pulse shaping complexity

Reconfigurability

Temporal pixels

TBWP

Waveform refresh rate

Signal generators

Pulse modulation (Electronics)

Optical fibers

Mathematical models

Control of power converters for distributed generation applications

Dai, Min.

January 2005

Thesis (Ph. D.)--Ohio State University, 2005. / Available online via OhioLINK's ETD Center; full text release delayed at author's request until 2006 Aug 15.

Estudos e simulações de filtro ativo paralelo para sistema trifásico com quatro fios usando estratégias de controle baseadas na modulação tridimensional por largura de pulsos com vetores espaciais / Study and simulation of a shunt active filter in a three-phase system with four-wire using control strategies based on the tridimensional space-vector pulse width modulation

Ota, João Inácio Yutaka

20 August 2018

Orientadores: Ernesto Ruppert Filho; Marcelo Gradella Villalva / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-08-20T00:11:08Z (GMT). No. of bitstreams: 1 Ota_JoaoInacioYutaka_M.pdf: 7717643 bytes, checksum: c0a1a3d8391b140cd3113fbbbc0106b8 (MD5) Previous issue date: 2011 / Resumo: Este trabalho apresenta um estudo sobre filtro ativo de potência paralelo para sistema trifásico com quatro fios, discutindo técnicas de compensação e de controle de correntes. O estudo concentra-se no filtro ativo paralelo composto por um inversor do tipo fonte de tensão com quatro pernas. Com esta estrutura de conversor são realizados estudos e simulações em computador de estratégias de compensação de correntes harmônicas e de controle de correntes. São investigadas técnicas de controle repetitivo, ressonante e proporcional-integral. Os sistemas de controle de correntes são construídos com um algoritmo de modulação por largura de pulsos tridimensional com vetores espaciais, que é investigado em detalhes no trabalho / Abstract: This dissertation presents a study of three-phase four-wire shunt active power filter, discussing compensation and control currents techniques. The study focuses on the shunt active filter composed by a four-leg voltage source inverter. Using this converter structure studies about strategies for compensation of harmonic currents and current control are carried out through computer simulations. Repetitive, resonant and proportional-integral control techniques are investigated. The current control system is performed using an algorithm of three-dimensional space-vector pulse width modulation, which is investigated in detail in the work / Mestrado / Energia Eletrica / Mestre em Engenharia Elétrica

Modulação de pulso (Eletronica)

Harmônicos (Ondas elétricas)

Inversores elétricos

Eletrônica de potência

Potência reativa (Engenharia elétrica)

Pulse modulation (Electronics)

Harmonics (Eletric waves)

Electric inverters

Power electronics

Reactive power (Electrical engineering)

Sistema de alimentação chaveado para modulador de pulsos com linha de retardo aplicado em sistema radar = Switching mode system to supply pulse modulators based in pulse forming network applied to radar / Switching mode system to supply pulse modulators based in pulse forming network applied to radar

Dias, Agnaldo Vieira

21 August 2018

Orientador: Ernesto Ruppert Filho / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Elétrica e de Computação / Made available in DSpace on 2018-08-21T00:56:13Z (GMT). No. of bitstreams: 1 Dias_AgnaldoVieira_M.pdf: 2229736 bytes, checksum: 725a7fa267bc30780c457689e4356336 (MD5) Previous issue date: 2012 / Resumo: O estudo da utilização de conversores CC/CC isolados e elevadores de tensão para a alimentação de moduladores de pulsos é apresentado neste trabalho. Foi selecionada a topologia em ponte completa, dando-se enfoque ao problema das capacitâncias parasitas envolvidas no circuito, que aparecem de forma acentuada em transformadores elevadores de tensão e filtros indutivos de saída e são altamente indesejáveis quando se opera em regime chaveado. Essas capacitâncias são tratadas através de uma forma de amortecimento, onde a energia armazenada nas mesmas é devolvida à fonte primária ao final de cada semiciclo de chaveamento, tentando obter-se menor volume, maior rendimento e menor dissipação de calor no conversor. Além disso, um circuito de regulação de carga é utilizado para garantir uma maior estabilidade de pulso e contornar problemas típicos de moduladores de pulsos utilizados em radares, como o efeito de backswing. O modulador de pulsos utilizado como carga para esse sistema opera com uma tensão de alimentação de 1kV, frequência de repetição de pulsos (PRF) de 585Hz e consome uma potência da ordem de 2,1kW. O conversor CC/CC é alimentado por um barramento CC não regulado de 280V / Abstract: The study of high-voltage isolated DC/DC converters used to supply pulse modulators is presented on this dissertation. The Full Bridge topology was selected, focusing in problems caused by parasitic capacitances in the circuit. This characteristic, which appears sharply in high voltage transformers and in inductors of output filter, is highly undesirable when the circuit is operated in switching mode. These capacitances are handled using a soft commutation technique, where their stored energy are returned to the primary source in the end of each switching cycle, trying to get a low size, high efficiency and low heat dissipation in the converter. Moreover, a charging regulator circuit is used to ensure good pulse stability and avoid typical problems in the pulse modulators use, such as the backswing effect. The pulse modulator used as load for this converter operates with a supply voltage of 1kV, pulse repetition frequency (PRF) of 585Hz and consumes 2.1 kW. The converter input is supplied by a 280V unregulated DC bus / Mestrado / Energia Eletrica / Mestre em Engenharia Elétrica

Fontes chaveadas

Modulação de pulso (Eletronica)

Linhas de retardo

Radar

Conversores eletrônicos

Switched mode power supply

Pulse modulation (Electronics)

Radar

Power converters

Pulse forming network