Global ETD Search

321	Methods of self-interference cancellation in full duplex telecommunication systems Erlandsson, Henrik, Sköldheden, Viktor January 2021 (has links) With the wireless technology evolving quickly, so does the demand of speed and efficiency. This makes the companies look for new and better ways to improve the current systems. One way of improving the present systems would be to employ Full Duplex Technology. In recent years the standard has been Half duplex technology with either Time Division Duplexing (TDD) or Frequency Division Duplexing (FDD). The drawback of TDD is that the signals is put in different time slots, meaning if many signals is to be transmitted at the same time there will be a delay. For FDD the signals are sent at different frequencies. This takes up a lot of space in the spectral domain. Full Duplex Technology has the potential to double the spectral efficiency with it'spower to transmit and receive signals simultaneously at the same frequency. The main challenge with Full Duplex (FD) is the leaking Self-Interference (SI) from the transmitter to the receiver. Different methods can be used to suppress the SI in both the digital and the analog domain. Typically the Self-Interference Cancellation (SIC) is split into three parts. The passive Radio Frequency (RF) SIC, which suppresses the signal using for example. antenna separation, antenna polarization or a circulator. The active analog RF cancellation which could for example use a multi-tap analog least mean square adaptive and finally the Digital passband SIC, that is addressed in this thesis. The cancellation in the RF domain needs to suppress enough for the Low Noise Amplifier (LNA) and the Analog to Digital Converter (ADC) to not saturate. The Digital SIC should optimally suppress the signal to the noise floor to be able to demodulate the received signal. In this thesis modelling and reconstruction of the SI signal has been done. An attempt to model the non-linearities from the Power Amplifier (PA), the imbalance from the IQ-mixer and the effects of the circulator has been done to as correctly as possible comply to the real signal distortions. Simulations using experimental data provided by Syntronic SRD was used to evaluate the cancellation for Recursive Least Square (RLS), Ordinary Least Square (OLS) and Normalized Least Mean Square (NLMS) algorithms. The simulations shows that a cancellation of over 45dB within the bandwidth can be achieved using digital cancellation in the baseband. The result shows the importance of having a weakly nonlinear transmit signal to achieve a better performance using FD. It was showed that the linear model shows significantly worse results incomparison to the Generalized Memory Polynomial (GMP) and Memory Polynomial (MP). The MP and GMP model achieve similar results in the weakly non-linear cases but the GMP outperforms the MP model in strongly non-linear cases. telecommunication full duplex self-interference cancellation electronics wireless communication power amplifier Telecommunications Telekommunikation Elektroteknik och elektronik
322	Ultra-Low Delay in Complex Computing and Networked Systems: Fundamental Limits and Efficient Algorithms Wu, Fei 11 July 2019 (has links) No description available. Computer Science Computer Engineering
323	En sonografisk jämförelse mellan blodflödeshastigheter i arteria carotis interna och arteria carotis externa / A sonographic comparison between blood flow velocity in the internal carotid artery and the external carotid artery André, Ida January 2022 (has links) Ultraljudsundersökning av arteria carotis interna (ICA) och arteria carotis externa (ECA) utförs på fysiologiska kliniker för att bland annat bedöma blodflödeshastigheten i kärlen. Det kan i sin tur användas vid diagnostik av plack och stenoser. Behandling av stenos är viktigt eftersom det kan leda till stroke och transitorisk ischemisk attack (TIA). Syftet med den här studien är att jämföra den maximala blodflödeshastigheten i ECA och ICA, samt om den skiljer sig mellan höger och vänster sida. I studien inkluderades 36 deltagare i åldern 20–27 år. Resultatet analyserades med ett parat t-test samt med en korrelationsanalys. En statistisk signifikant skillnad identifierades vid jämförelse av ICA och ECA på samma sida. Ingen signifikant skillnad observerades vid sidojämförelse av vänster och höger ECA respektive ICA. En korrelation påvisades mellan vänster och höger ECA samt mellan vänster och höger ICA. Ytterligare en signifikant korrelation identifierades mellan ECA bilateralt och ICA dx. Slutsatsen med studien är att det finns en statistisk skillnad mellan flödeshastigheten i ICA och ECA och därav går det inte att använda samma referensvärden till båda kärlen. / Ultrasound examination of the internal carotid artery (ICA) and the external carotid artery (ECA) is performed in physiological clinics to assess the blood flow velocity in the vessels. Furthermore, it can be used in the diagnosis of plaque and stenoses. Treatment of stenosis is important as it can lead to stroke and transient ischemic attack (TIA). The purpose of this study is to compare the maximum blood flow velocity in ECA and ICA and allocate a possible difference between the right and left side. The study included 36 participants between the ages of 20–27. The result was analyzed using a paired t-test and a correlation analysis. A statistical significance was identified when comparing ICA and ECA on the same side. No significant difference was found when comparing left and right ECA and ICA. One correlation was detected between left and right ECA and between left and right ICA. Another correlation was identified between ECA bilaterally and ICA dexter. The conclusion of this study is that there is a significant difference between the flow velocity in ICA and ECA and therefore it is not possible to use the same reference values for both vessels. carotid arteries ultrasound carotid duplex peak systolic velocity stenosis Halsartärer ultraljud carotisduplex toppsystolisk hastighet stenos Biomedical Laboratory Science/Technology
324	A Study of EAF Austenitic and Duplex Stainless Steelmaking Slags Characteristics Mostafaee, Saman January 2010 (has links) The high temperature microstructure of the solid phases within the electric arc furnace (EAF) slag has a large effect on the process features such as foamability of the slag, chromium recovery, consumption of the ferroalloys and the wear rate of the refractory. The knowledge of the microstructural and compositional evolution of the slag phases during the EAF process stages is necessary for a good slag praxis. In supplement 1, an investigation of the typical characteristics of EAF slags in the production of the AISI 304L stainless steel was carried out. In addition, compositional and microstructural evolution of the slag during the different EAF process stages was also investigated. Computational thermodynamics was also used as a tool to predict the equilibrium phases in the top slag as well as the amount of these phases at the process temperatures. Furthermore, the influence of different parameters (MgO wt%, Cr2O3 wt%, temperature and the top slag basicity) on the amount of the spinel phase in the slag was studied. In supplement 2, a novel study to characterize the electric arc furnace (EAF) slags in the production of duplex stainless steel at the process temperatures was performed. The investigation was focused on determining the microstructural and compositional evolution of the EAF slag during and at the end of the refining period. Slag samples were collected from 14 heats of AISI 304L steel (2 slag samples per heat) and 7 heats of duplex steel (3 slags sample per heat). Simultaneously with each slag sampling, the temperature of the slag was measured. The selected slag samples were studied both using SEM-EDS and LOM. In some cases (supplement 2), X-ray diffraction (XRD) analyses were also performed on fine-powdered samples to confirm the existence of the observed phases. It was observed that at the process temperature and at all process stages, the stainless steel EAF slag consists mainly of liquid oxides, magnesiochromite spinel particles and metallic droplets. Under normal operation and at the final stages of the EAF, 304L steelmaking slag contains 2-6 wt% magnesiochromite spinel crystals. It was also found that, within the compositional range of the slag samples, the only critical parameter affecting the amount of solid spinel particles in the slag is the chromium oxide content. Petrographical investigation of the EAF duplex stainless steelmaking showed that, before FeSi-addition, the slag samples contain large amounts of undissolved particles and the apparent viscosity of the slag is higher, relative to the subsequent stages. In this stage, the slag also includes solid stoichiometric calcium chromite. It was also found that, after FeSi-injection into the EAF and during the refining period, the composition and the basicity of the slag in the EAF duplex steelmaking and EAF stainless steelmaking are fairly similar. This indicates that, during the refining period, the basic condition for the utilization of an EAF foaming-slag praxis, in both austenitic and duplex stainless steel cases, is the same. Depending on the slag basicity, the slag may contain perovskite and/or dicalcium silicate too. More specifically, the duplex stainless steel slag samples with a higher basicity than 1.55 found to contain perovskite crystals. / QC 20110413 EAF Slag Duplex steel 304L stainless steel Characterization Microstructural evolution Spinels Basicity Computational thermodynamics Slag foaming Metallurgy and Metallic Materials Metallurgi och metalliska material
325	A comparative study on twostandardised electrochemicalmethods with emphasis the effectof microstructure and inclusionson pitting corrosion on duplexstainless steel Jafari, Khadijeh January 2016 (has links) Duplex stainless steel (DSS) that developed in the 1930’s is a type of steel that consists of bothaustenite and ferrite phases in an almost equal proportion. It inherits properties of both ferriticand austenitic stainless steel and so it has good mechanical and corrosion resistance propertiesthat makes it suitable material in different industries with aggressive environment. There aredifferent approaches that used to evaluate the susceptibility of stainless steels to pitting corrosionlike Pitting Resistance Equivalent Number (PREN) and electrochemical methodologies. In thisstudy, focus is on the potentiodynamic (AL 101 5170) and potentiostatic (ASTM G150) testmethods as laboratory evaluations in which standard DSS (2205) is exposed to the differentchloride concentrations 0.1 M and 1 M respectively. In these methods parameters like PittingPotential (Ep) and Critical Pitting Temperature (CPT) can be measured respectively and used topredict the susceptibility of DSS to pitting corrosion. DSS owes its good corrosion resistance tothe oxide film that protects the metal from corrosion. Pitting can be initiated as a result of anyheterogeneities on the metal surface which act as a passive film defect like non-metallicinclusions and intermetallic precipitations such as sigma phase when metal is exposed toaggressive environment and high temperature. The aim of the present work is to make acomparison between two electrochemical methods besides finding how inclusions andmicrostructure can have impact on their results and on pitting corrosion. The results of theexperiment shows that there is a positive linear relation only in longitudinal direction betweenCPT and Ep. Also, among two test methods only ASTM G150 can detect sigma phase existence(<3%). Based on investigations in this experiment, inclusion characteristics such as numberdensity and composition has compatible results in both methods so that samples with big sizeinclusions (>8 μm) have negative effect on corrosion resistance and in terms of composition,samples with nitride inclusions has lower CPT and Ep compared with those with only oxide oroxide/sulfide inclusions. It is also discovered that phase arrangement is not the same in allspecimens that produced by different production methods and samples with finer phases havehigher CPT values in both longitudinal and transvers directions. However, this shape ofmicrostructure only affect the Ep in longitudinal directions but not transvers. Duplex stainless steel pitting corrosion electrochemical test potentiostatic potentiodynamic ASTM inclusion microstructure sigma phase phase arrangement Other Materials Engineering Annan materialteknik
326	Experimental study of phase separation in Fe-Cr based alloys Zhou, Jing January 2013 (has links) Duplex stainless steels (DSSs) are important engineering materials due to their combination of good mechanical properties and corrosion resistance. However, as a consequence of their ferrite content, DSSs are sensitive to the so-called ‘475°C embrittlement’, which is induced by phase separation, namely, the ferrite decomposed into Fe-rich ferrite (α) and Cr-rich ferrite (α'), respectively. The phase separation is accompanied with a severe loss of toughness. Thus, the ‘475°C embrittlement’ phenomenon limits DSSs’ upper service temperature to around 250°C. In the present work, Fe-Cr binary model alloys and commercial DSSs from weldments were investigated for the study of phase separation in ferrite. Different techniques were employed to study the phase separation in model alloys and commercial DSSs, including atom probe tomography, transmission electron microscopy and micro-hardness test. Three different model alloys, Fe-25Cr, Fe-30Cr and Fe-35Cr (wt. %) were analyzed by atom probe tomography after different aging times. A new method based on radial distribution function was developed to evaluate the wavelength and amplitude of phase separation in these Fe-Cr binary alloys. The results were compared with the wavelengths obtained from 1D auto-correlation function and amplitudes from Langer-Bar-On-Miller method. It was found that the wavelengths from 1D auto-correlation function cannot reflect the 3D nano-scaled structures as accurate as those obtained by radial distribution function. Furthermore, the Langer-Bar-On-Miller method underestimates the amplitudes of phase separation. Commercial DSSs of SAF2205, 2304, 2507 and 25.10.4L were employed to investigate the connections between phase separation and mechanical properties from different microstructures (base metal, heat-affected-zone and welding bead) in welding. Moreover, the effect of external tensile stress during aging on phase separation of ferrite was also investigated. It was found that atom probe tomography is very useful for the analysis of phase separation in ferrite and the radial distribution function (RDF) is an effective method to compare the extent of phase separation at the very early stages. RDF is even more sensitive than frequency diagrams. In addition, the results indicate that the mechanical properties are highly connected with the phase separation in ferrite and other phenomena, such as Ni-Mn-Si-Cu clusters, that can also deteriorate the mechanical properties. / <p>QC 20130308</p> Duplex stainless steels Ferritic stainless steels Spinodal decomposition Phase separation Atom probe tomography Clustering Radial distribution function (RDF) Engineering and Technology Teknik och teknologier
327	Outage limited cooperative channels: protocols and analysis Azarian Yazdi, Kambiz 13 September 2006 (has links) No description available. Cooperative Diversity Diversity-Multiplexing Tradeoff Throughput-Reliability Tradeoff Dynamic Decode and Forward Nonorthogonal Amplify and Forward Half-Duplex Radio Relay Channel Multiple-Access Channel Broadcast Channel Automatic Repeat Request
328	Machine learning for the prediction of duplex stainless steel mechanical properties : Hardness evolution under low temperature aging Giard, Baptiste, Karlsson, Sofia January 2021 (has links) Duplex stainless steels, DSS are stainless steels that consist of the two phases austenite and ferrite. The DSS have superb properties and are widely used in industries such as nuclear power and in pressure vessels, pipes and in pipelines. The use of DSS are limited due to embrittlement which occurs at temperatures from 250 to 550 oC. This imposes a general limited service temperature of 250 oC. The mechanism mainly responsible for the embrittlement is a phase separation occurring in the ferrite phase. Furthermore, there is a direct link between the phase separation and the mechanical properties: the ferrite hardness increases whereas the toughness decreases under low temperature aging. In this thesis, the low-temperature embrittlement of duplex stainless steels was studied through machine learning modelling and experimental hardness- and microscopy measurements. The resulting model describes the data with an accuracy, R-squared = 0.94. In combination with the experimental results, nickel was identified as an important parameter for the hardness evolution. This work aims to provide a fundamental study for understanding the importance of alloying elements on the phase separation in DSS, and provides a new methodology via a combination of machine learning and key experiments for the material design. / Duplexa rostfria stål är rostfria stål som består av de båda faserna ferrit och austenit. De har extraordinära egenskaper och används brett inom industrin, t ex. i kärnkraftverk och i tryckkärl och pipelines. Användningen av duplexa rostfria stål är begränsad p.g.a. försprödning som uppstår i legeringarna vid temperaturer mellan 250-550 oC, vilket medför att den tillåtna temperaturen vid användning begränsas till under 250 oC. Den främsta orsaken till försprödningen är en fasseparation i den ferrita fasen under åldring vid låg temperatur. Vidare leder fasseparationen till mekaniska förändringar i ferritfasen: hårdheten ökar medan segheten minskar. I den här rapporten undersöks försprödningen av duplexa rostfria stål vid åldring med hjälp av datormodellering med maskininlärning samt av experimentella hårdhets- och mikroskopiska mätningar. Modellen hade en noggrannhet (determinationsko- efficienten, R2) på 0.94. Resultatet från modellen visade tillsammans med de experimentella resultaten att nickel är ett legeringsämne som har stor betydelse för hårdhetsökningen. Detta arbete syftar till att utgöra en grundläggande studie för att förstå påverkan från olika legeringsämnen på fasseparationer i DSS, och bidrar med en ny metodik för materialdesign som kombinerar maskininlärning och utvaldaexperiment. / EIT RawMaterial Project ENDUREIT Duplex Stainless Steel DSS Machine Learning Phase Separation Me- chanical Properties Alloying Duplexa rostfria stål Maskininlärning Fasseparation Mekaniska Egenskaper Legering Other Materials Engineering Annan materialteknik
329	Design, Synthesis and Evaluation of Novel Biarylpyrimidines ¿ a New Class of Ligand for Unusual Nucleic Acid Structures. Wheelhouse, Richard T., Jenkins, Terence C., Jennings, Sharon A., Pletsas, Dimitrios January 2006 (has links) No / Biarylpyrimidines are characterized as selective ligands for higher-order nucleic acid structures. A concise and efficient synthesis has been devised incorporating Suzuki biaryl cross-coupling of dihalopyrimidines. Two ligand series are described based on the parent thioether 4,6-bis[4-[[2-(dimethylamino)ethyl]mercapto]-phenyl]pyrimidine (la) and amide 4,6-bis(4[(2-(dimethylamino)ethyl)carboxamido]phenyl)pyrimidine (2a) compounds. In UV thermal denaturation studies with the poly(dA)·[poly(dT)]2 triplex structure, thioethers showed stabilization of the triplex form (¿Tm ¿ 20 °C). In contrast, amides showed duplex stabilization (¿Tm ¿ 15 °C) and either negligible stabilization or specific destabilization (¿Tm = -5 °C) of the triplex structure. Full spectra of nucleic acid binding preferences were determined by competition dialysis. The strongest interacting thioether bound preferentially to the poly(dA)·[poly(dT)]2 triplex, Kapp = 1.6 x 105 M-1 (40 x Kapp for CT DNA duplex). In contrast, the strongest binding amide selected the (T2G20T2)4 quadruplex structure, Kapp = 0.31 x 105 M-1 (6.5 x Kapp for CT DNA duplex). Sequence specificity Secondary structure Carboxamide Molecular structure Nucleotide sequence Telomere Benzamide derivatives Organic sulfide Triple helical structure Thymine nucleotide Adenine nucleotide Duplex Stability Nucleic acid Ligand Chemical synthesis
330	Synthesis of constrained nucleosides Salinas Hernandez, Juan Carlos 04 1900 (has links) No description available. Thérapie antisens Acides nucléiques tricycliques Acides nucléiques bicycliques Acides nucléiques bloqués Restriction conformationelle Oligonucléotides Acides nucléiques La stabilité thermique des duplex Antisense therapy Tricyclic nucleic acids Bicyclic nucleic acids Locked nucleic acids Conformational restriction Oligonucleotides Nucleic acids Duplex thermal stability

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