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Academic literature on the topic 'Quadrature Phase Shift Keying (QPSK)'
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Dissertations / Theses on the topic "Quadrature Phase Shift Keying (QPSK)"
1
Lee, Tong-Fu, Shih-Ho Wang, Chia-Liang Liu, and Liu Bao. "FQPSK-L: An Improved Constant Envelope Modulation Scheme for QPSK." International Foundation for Telemetering, 1998. http://hdl.handle.net/10150/609210.
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International Telemetering Conference Proceedings / October 26-29, 1998 / Town & Country Resort Hotel and Convention Center, San Diego, California<br>A new constant envelope modulation scheme and architecture for QPSK by cubic spline interpolation methods which increase spectral efficiency and power efficiency, named FQPSK-L, is presented. This modulation technique is an extension of the Feher Quadrature Shift Keying (FQPSK) patented technologies, see Ref [1]. Being a constant envelope modulation, FQPSK-L can operate with class C power amplifier without spectrum regrowth. We achieve a more compact spectrum with comparable bit error rate performance. For example, FQPSK-L is about 20% more spectral efficient than GMSK BTb=0.3 from 40 to 70 dB attenuation point. Moreover, FQPSK-L intrinsically has spikes at fc ± 0.5fb, fc ± 1.0fb, fc ± 1.5fb, ... which are useful for carrier recovery, symbol time recovery and fading compensation. In Rayleigh fading channel, FQPSK-L outperform GMSK BTb=0.3 by 0.8 dB. FQPSK-L is an excellent scheme for wireless and satellite communications which require high spectral and power efficiency.
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Dang, Xiaoyu. "Space-Time Shaped Offset QPSK." International Foundation for Telemetering, 2008. http://hdl.handle.net/10150/606190.
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ITC/USA 2008 Conference Proceedings / The Forty-Fourth Annual International Telemetering Conference and Technical Exhibition / October 27-30, 2008 / Town and Country Resort & Convention Center, San Diego, California<br>This paper describes the use of orthogonal space-time block codes to overcome the performance and complexity difficulties associated with the use of Shaped Offset QPSK (SOQPSK) modulation, a ternary continuous phase modulation (CPM), in multiple-input multiple-output telemetry systems. The orthogonal space-time block code is applied to SOQPSK waveforms in the same way it would be applied to symbols. The procedure allows the receiver to orthogonalize the link. The main benefits of this orthogonalization are the easy realization of the transmit diversity for the offset-featured SQOSPK, and the removal of the noise correlation at the input to the space-time decoder and the elimination of I/Q interference when space time orthogonalization is applied to the symbol level.
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Berhanu, Samuel, and Kamal Neupane. "Digital Radio Implementation for NASA S-Band Space Network Transceiver." International Foundation for Telemetering, 2012. http://hdl.handle.net/10150/581843.
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The system diagrams for the digital radio compatible with NASA's S-Band Space Network operating from 2025.8 - 2117.9 MHz (forward link) to 2200 - 2300 MHz (return link) are presented. The digital radio implementation includes binary phase shift keying (BPSK), quadrature phase shift keying (QPSK) and staggered quadrature phase shift keying (SQPSK). We have derived the system requirements for these modulation schemes from the Space Network User Guide (SNUG) and thereafter, derived system diagrams for the communication links. The designed system diagrams for the transceiver were implemented using Simulink models and USRP2 platform.
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Booysen, Samuel. "The design of a high speed topology for a QPSK demodulator with emphasis on the synchronization algorithms needed for demodulation." Thesis, Stellenbosch : University of Stellenbosch, 2010. http://hdl.handle.net/10019.1/4107.
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Thesis (MScEng (Electrical and Electronic Engineering))--University of Stellenbosch, 2010.<br>ENGLISH ABSTRACT: This thesis describes the design and implementation of a software based QPSK demodulator
with a demodulation speed of 100 Mbps. The objective of the thesis was to identify a topology
for the QPSK demodulator that would allow for high data rates and the design of the synchronization
algorithms for carrier and symbol recovery. The QPSK demodulator was implemented
on an Altera Stratix II field programmable gate array (FPGA), which does complex I and Q sampling
on a down converted 720 MHz QPSK signal. The I and Q down converted baseband
signals are sent through matched filters which are implemented with discrete components to
maximize the signal to noise ratio of the received rectangular baseband pulses. A 1 GSPS direct
digital synthesizer (DDS) is used to generate the synchronous clock for the analog to digital
converters which samples the matched filter outputs. The demodulator uses two samples per
symbol to demodulate the QPSK signal. A dual locking system is implemented to have a wide
pre-locking filter for symbol synchronization and a narrow band post-lock filter to minimize the
loop noise. A symbol lock detection algorithm decides when the symbol recovery loop is locked
and switches between the loop filters.
A second 1 GSPS DDS output is mixed with a local oscillator to generate the 1.44 GHz LO signal
for the quadrature down conversion. The carrier recovery loop uses a numerically controlled oscillator
inside the FPGA for initial carrier acquisition which allows for very wide locking bandwidth.
After lock is achieved, the external carrier recovery loop takes over and removes any
frequency offset in the complex baseband signal by changing the frequency of the DDS. A QPSK
modulator was also developed to provide a QPSK signal with known data. The modulator can
generate any constellation diagram up to 256 points.<br>AFRIKAANSE OPSOMMING: Hierdie tesis bespreek die ontwerp en implementasie van ’n sagteware gebaseerde QPSK demodulator
met ’n demodulasie spoed van 100 Mbps. Die doelstelling is om ’n topologie te identifiseer
vir ’n QPSK demodulator wat ’n hoë datatempo sal toelaat en ook om sinkronisasie algoritmes
te ontwikkel vir draer en simbool herkenning.
Die QPSK demodulator is geïmplimenteer op ’n Stratix II FPGA van Altera wat kompleks basisband
monstering doen op infase en kwadratuur basisband seine. Die basisband seine word
gegenereer van ’n 720 MHz QPSK sein met ’n kwadratuur menger wiese uittrees deur puls
passende filters gestuur word om die sein tot ruis verhouding te maksimeer. ’n Een gigamonster
per sekonde direk digitale sintetiseerder (DDS) is gebruik om die klok vir die analoog na digitaal
omsetters te genereer vir sinkrone monstering van die pulse passende filter uittrees. Die demodulator
gebruik twee monsters per simbool om ’n QPSK sein te demoduleer. ’n Tweevoudige sluit
algoritme word gebruik vir die simbool sinkronisasie waar ’n wyeband filter die inisiële sluit
funksie verrig en dan word daar oorgeslaan na ’n nouband filter vir fase volging wat die ruis
in die terugvoerlus verminder. Daar is ’n simbool sluit detektor wat identifiseer wanneer die
simbool beheerlus gesluit is en selekteer dan die gepaste filter.
’n Tweede DDS en ’n sintetiseerder se uittrees word gemeng om ’n 1.44 GHz draer te genereer
vir kohurente frekwensie translasie in die kwadratuur menger. Die draer sinkronisasie gebruik
’n numeries beheerbare ossilator vir die inisiële frekwensie en fase sluit wat baie vinnig geimplenteer
kan word omdat dit alles in sagteware binne in die FPGA gebeur. Na die interne draer
beheerlus gesluit is, neem die eksterne beheerlus oor om enige fase of frekwensie afsette in die
kompleks basisband seine van die kwadratuur menger te verwyder deur die frekwensie van
die draer DDS te beheer. ’n QPSK modulator is ook ontwikkel om verwysings data te genereer.
Enige konstelasie vorm tot 256 punte kan geimplementeer word.
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Ramantanis, Petros. "Contribution to the analysis of optical transmission systems using QPSK modulation." Phd thesis, Institut National des Télécommunications, 2011. http://tel.archives-ouvertes.fr/tel-00765380.
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The constant demand for capacity increase, together with the foreseen saturation of the single-mode optical fiber, paved the way to technological breakthroughs that have completely changed the landscape of fiber-optic telecommunications. The most important advance was, undeniably, the practical implementation of a coherent detection with the help of high-speed electronics. This has, first, enabled the use of advanced modulation formats that allowed for a more efficient use of the fiber bandwidth, compared to the classical On-Off Keying, while adapted algorithms could not be used in order to mitigate the optical signal degradation. This thesis began a little after the advent of coherent detection and its main objective was to revisit the propagation effects in optical transmission systems using "Quadrature phase shift keying" (QPSK) modulation in the context of terrestrial systems, i.e. for transmission distances of up to about 2000 km. The manuscript is divided into two parts. The first part is dedicated to a study on the data sequences that need to be used in numerical simulations, when advanced modulation is involved. Fiber propagation, and in particular the interplay between chromatic dispersion and nonlinearities, usually introduce a nonlinear inter-symbol interference (ISI) to the transmitted signal. Since this ISI depends on the actual transmitted data pattern, it is obvious that the choice of the sequence used in our numerical simulations will have a direct influence on the estimated channel quality. Since, an infinite length, random sequence is impractical; we very commonly use pseudorandom" (PR) sequences, i.e. finite-length, deterministic sequences with balanced pattern statistics that seem to be random. In the first part we describe the method of generating M-level (with M>2) pseudorandom sequences and we detail their properties. In addition, we propose numerical tools to characterize the non-pseudorandom sequences that we use in numerical simulations, or we are sometimes forced to use in laboratory experiments. Finally, we present results of numerical simulations that quantify the necessity to use PR sequences as a function of our system parameters. After having established the "fairest possible" finite sequences, in the second part of the manuscript, we focus on the study of the nonlinear propagation, in the context of a transmission system using QPSK modulation and assuming a variable dispersion management and fiber type. Specifically, we numerically study the signal statistics due to the interplay of chromatic dispersion and nonlinear effects, neglecting all polarization or multi-wavelength effects and the amplifier noise. In this context, we were first interested in determining whether some empirical laws developed for OOK systems, can be also used in the case of QPSK modulation, such as the criterion of cumulative nonlinear phase (ΦNL) or laws that allow for a quick optimization of the dispersion management. Next we reveal the importance of a global phase rotation added to the initial signal constellation, as a parameter that can provide interesting information for the post-optimization of our system. We also discuss the fact that the constellation shape critically depends on the applied dispersion management, while there are generally 3 types of constellations, concerning the complex signal statistics: (1) the phase variance is higher than the amplitude variance (2) the amplitude variance is higher than the phase variance and (3) the received signal constellation resembles to a constellation of a signal under the influence of just an Additive White Gaussian Noise. Finally, we provide a phenomenological explanation of the constellations shapes revealing the fact that different data sub-sequences suffer from a different kind of signal degradation, while we also use this information to define a parameter that quantifies the potential benefit from a MAP (Maximum A Posteriori probability) correction algorithm
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Mannah, Marc-Anthony. "Transmission de données par courants porteurs en ligne sur un réseau modulé en largeur d'impulsion." Nantes, 2010. http://www.theses.fr/2010NANT2034.
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Ce travail de thèse traite de l’application de la technologie des Courants Porteurs en Ligne (CPL) au sein d’une association convertisseur machine à des fins de commande et de monitoring. La technologie des CPL est très répandue dans les réseaux domestiques sinusoïdaux. Elle permet la transmission de données numériques par les câbles dédiés au transport de l’énergie électrique de l’habitat. Dans une application convertisseur machine, le réseau électrique est un réseau Modulé en Largeur d’Impulsions (MLI). Une étude approfondie du signal MLI et des essais, menés avec des coupleurs CPL domestiques sur un réseau MLI, permettent de mettre en relief les limitations de cette technologie. Suite à cette étude, des coupleurs adaptés aux exigences du réseau MLI et fonctionnant dans la bande de fréquence 55 MHz – 85 MHz sont développés. Les débits nécessaires dans une application commande de machine font l’objet de discussions. Une modulation mono porteuse QPSK est retenue. Les essais expérimentaux sont réalisés sur une plateforme composée d’un ensemble convertisseur machine et assurant un transfert de données à 1,6 Mbit/s. Ces essais montrent la faisabilité de la communication par CPL dans un réseau MLI<br>This thesis studies the use of the Power Line Communication PLC technology in a motor inverter association for purposes of controlling and monitoring. This technology is widely used in domestic applications and allows a reliable communication through the sinusoidal electrical network. In a motor drive application, the electrical network is a Pulse Width Modulation network and consequently this technology may not work. Following a thorough study of the PWM signal, a series of experimental measurements using the domestic PLC modems over the PWM network were carried out and have underlined the inefficiency of the sinusoidal PLC technology. Based on the obtained results and on the PWM network requirements, we have developed industrial PLC couplers. The good functioning of these couplers has been validated in the frequency band 55 MHz – 85 MHz. A study of the required throughput in motor drive applications led us to define the QPSK modulation for data transmission. The modem was developed and communication was tested under different conditions with a throughput equal to 1. 6 Mbits/s. The different experimental measurements have demonstrated the PLC communication feasibility over the PWM network
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Agnolini, Sébastien. "Contributions à l'étude et à la réalisation d'un système de distribution quantique de clef par codage en phase." Paris 6, 2007. https://pastel.archives-ouvertes.fr/pastel-00003416.
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Cette thèse propose une étude et une réalisation expérimentale d’un système de distribution quantique de clef utilisant le protocole BB84 par codage en phase sur un photon unique, aux longueurs d’onde des télécommunications optiques ( = 1,5µm). La génération des photons uniques est assurée par un laser de type ILM dont les impulsions optiques sont fortement atténuées afin qu’elles ne contiennent pas plus d’un photon (en moyenne 0,1 photon par bit). La modulation QPSK satisfaisant à des choix de base et de symbole indépendants est assurée par l’utilisation de modulateurs Mach-Zehnder à doubles électrodes. Différentes méthodes de détection cohérente (hétérodyne, homodyne, super-homodyne) sont proposées et comparées. Les évolutions successives de notre système nous amènent à proposer aujourd’hui un système de cryptographie quantique à une voie optique utilisant un codage DQPSK (Differential Quadrature Phase Shift Keying).
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Bottenfield, Joe, and Vern Moore. "SMALL VOLUME, FEHER-PATENTED QUADRATURE PHASE SHIFT KEYING, JR VERSION, TELEMETRY TRANSMITTER." International Foundation for Telemetering, 2003. http://hdl.handle.net/10150/606734.
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International Telemetering Conference Proceedings / October 20-23, 2003 / Riviera Hotel and Convention Center, Las Vegas, Nevada<br>This paper describes the implementation of a Feher-Patented Quadrature Phase Shift Keying (FQPSK) waveform variant that reduces overall design complexity, which in turn results in a telemetry transmitter that provides all the benefits of the existing FQPSK-B waveform, in a 3.0 x 2.0 x 1.0 volume. This variant is referred to the as the FQPSK-JR version. This waveform differs from the “near constant” envelop response of the qualified Herley airborne FQPSK-B telemetry transmitter in terms of the time domain wavelet transition functions and the amplitude scaling term associated with those functions. The end result is a “constant envelop” design, which employs simplified antialias filtering and more efficient digital design techniques.
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Ghuman, Parminder, Salman Sheikh, Steve Koubek, Scott Hoy, and Andrew Gray. "High Rate Digital Demodulator ASIC." International Foundation for Telemetering, 1998. http://hdl.handle.net/10150/609676.
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International Telemetering Conference Proceedings / October 26-29, 1998 / Town & Country Resort Hotel and Convention Center, San Diego, California<br>The architecture of the High Rate (600 Mega-bits per second) Digital Demodulator (HRDD) ASIC capable of demodulating BPSK and QPSK modulated data is presented in this paper. The advantages of all-digital processing include increased flexibility and reliability with reduced reproduction costs. Conventional serial digital processing would require high processing rates necessitating a hardware implementation other than CMOS technology such as Gallium Arsenide (GaAs) which has high cost and power requirements. It is more desirable to use CMOS technology with its lower power requirements and higher gate density. However, digital demodulation of high data rates in CMOS requires parallel algorithms to process the sampled data at a rate lower than the data rate. The parallel processing algorithms described here were developed jointly by NASA’s Goddard Space Flight Center (GSFC) and the Jet Propulsion Laboratory (JPL). The resulting all-digital receiver has the capability to demodulate BPSK, QPSK, OQPSK, and DQPSK at data rates in excess of 300 Mega-bits per second (Mbps) per channel. This paper will provide an overview of the parallel architecture and features of the HRDR ASIC. In addition, this paper will provide an overview of the implementation of the hardware architectures used to create flexibility over conventional high rate analog or hybrid receivers. This flexibility includes a wide range of data rates, modulation schemes, and operating environments. In conclusion it will be shown how this high rate digital demodulator can be used with an off-the-shelf A/D and a flexible analog front end, both of which are numerically computer controlled, to produce a very flexible, low cost high rate digital receiver.
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Quinteros, Milton I. "Trellis Coded Modulation Schemes Using A New Expanded 16-Dimensional Constant Envelope Quadrature-Quadrature Phase Shift Keying Constellation." ScholarWorks@UNO, 2009. http://scholarworks.uno.edu/td/924.
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In this thesis, the author presents and analyzes two 4-dimensional Constant Envelope Quadrature-Quadrature Phase Shift Keying constellations. Optimal demodulators for the two constellations are presented, and one of them was designed and implemented by the author. In addition, a novel expanded 16-dimensional CEQ2PSK constellation that doubles the number of points without decreasing the distance between points or increasing the peak energy is generated by concatenating the aforementioned constellations with a particular method and restrictions. This original 16-dimensional set of symbols is set-partitioned and used in a multidimensional Trellis-Coded Modulation scheme along with a convolutional encoder of rate 2/3. Effective gain of 2.67 dB over uncoded CEQ2PSK constellation with low complexity is achieved theoretically. A coding gain of 2.4 dB with 8 dB SNR is obtained by using Monte Carlo simulations. The TCM systems and demodulators were tested under an Additive White Gaussian Noise channel by using Matlab's Simulink block diagrams.