Global ETD Search

181	Mitteilungen des URZ 4/2002 Becher, Fischer, Grunewald, Junghänel, Müller, Richter, Riedel 17 December 2002 (has links) Mitteilungen des URZ 4/2002 Spam-Mails, Software-News info:eu-repo/classification/ddc/000 ddc:000 info:eu-repo/classification/ddc/620 ddc:620 Zertifizierung
182	Dynamische Dokumenterstellung mit dem Webbrowser Knauf, Robert, Schröder, Daniel 31 January 2009 (has links) Wie lassen sich Corporate Design-konforme Drucksachen erzeugen, ohne Zugang zur Gestaltung zu haben. Der Vortrag stellt das strukturierte Datenformat XML, die Transformationssprache XSLT, die Formatierungssprache XSL-FO und den FO-Prozessor Apache FOP vor. Am praktischen Beispiel des TU Chemnitz-Plakatgenerators wird erläutert, wie der Formatierungsprozess abläuft. Des Weiteren wird die Softwarearchitektur des Generators vorgestellt, der sich vorliegender XML-Schablonen bedient, um automatisch und dynamisch das Nutzer-Eingabeformular im Webbrowser zu erzeugen. info:eu-repo/classification/ddc/004 ddc:004 Ajax <Informatik> Corporate Design Dokumentverarbeitung JavaScript PDF <Dateiformat> PHP Parser Plakat Seitenbeschreibungssprache World Wide Web 2.0 XML XPath XSL XSL-FO XSLT
183	Digital text och dess effekter på läsförståelsen : Är elevernas preferenser gynnsamma eller lustfyllda? Pihlajamaa Snabb, Hannes, Yurdagül, Cecilia January 2022 (has links) I detta examensarbete har vi genomfört en kvantitativ studie med kvalitativa inslag med syftet att adressera skillnaderna i läsförståelse hos 60 elever i årskurs fem vid läsningen av tryckt och digital text. Studien undersökte också elevernas preferenser mellan de två medierna och hur väl deras preferenser stämde överens med den metod som visade sig vara mest effektiv för lärandet. Undersökningen inkluderade en enkät och två tidigare nationella prov i ämnet svenska där ett tillämpades i tryckt form och ett i form av en PDF-fil på dator. Resultatet visade att eleverna visade på en något ökad förståelse när de läste tryckta texter än vad de gjorde när de läste digitala. Det visade även att majoriteten av eleverna föredrog att läsa tryckta texter. Däremot fann vi inget stöd för att det varken skulle finnas något positivt eller negativt samband mellan elevernas preferenser och deras resultat. En klar majoritet av de som presterade bäst genom den analoga läsningen uppgav att de främst läser tryckt text till vardags. Bland de elever som presterade bäst digitalt var skillnaderna avsevärt mer varierande. Vår slutsats är att elevernas läsförståelse gynnas av tryckta texter men att deras erfarenheter spelar en viktigare roll för utfallet än mediet i sig. läsförståelse tryckt text analog text digital text digitalisering dator PDF-fil PIRLS ePIRLS preferenser metakognitiva förmågor erfarenhet svenskämnet kursplan svenska nationella prov Pedagogy Pedagogik Languages and Literature Språk och litteratur Educational Sciences Utbildningsvetenskap
184	Computational Modeling of Ignition and Premixed Flame Propagation Initiated by a Pre-chamber Turbulent Jet Utsav Jain (17583528) 09 December 2023 (has links) <p dir="ltr">Addressing the pressing need for reduced carbon emissions, Turbulent Jet Ignition (TJI) emerges as a promising technology for ultra-lean combustion, offering enhanced thermal efficiencies and minimized cyclic variability in spark-ignited engines. To facilitate rapid testing and integration of this technology, a robust computational modeling framework is crucial. This study delves into the predictive capabilities of computational models for main-chamber ignition and premixed flame propagation using a single-cycle TJI rig measured by Biswas et al. (Applied Thermal Engineering, volume 106, 2016). Employing an open-source compressible flow simulation solver with Large Eddy Simulation (LES) for turbulence modeling, the investigation integrates the conventional Laminar Finite Rate Chemistry (LFRC) model alongside the transported Probability Density Method (PDF) for turbulence-chemistry interaction. A fully-consistent Eulerian Monte-Carlo Fields (EMCF) method is utilized to approximate the transported PDF, while Interaction by Exchange with Mean is employed to close micro-mixing terms in stochastic differential equations. A reduced chemical reaction mechanism with 21 species and 84 reactions (DRM-19) is used for solving chemical kinetics, and a double Gaussian energy deposition model is used to approximate the spark ignition in the pre-chamber. An unstructured O-grid mesh with 0.3 million cells in the pre-chamber and 1 million cells in the main chamber is employed. Results are divided into two phases: pre-chamber initialization and full TJI simulations. Validation of the predicted pre-chamber flame propagation and the lean ignition in the main-chamber is carried out by using available experimental data. Under quiescent conditions, both the LFRC and transported PDF methods largely underestimate the flame speed and subsequent pressure growth in the pre-chamber. A linear momentum forcing technique is applied to investigate the impact of initial turbulence in the pre-chamber, demonstrating a notable influence on flame propagation. Fine-tuning of the forcing coefficient reproduces the sudden pressure growth observed in the experiment. The experimentally validated pre-chamber simulation serves as the initial condition for the full TJI simulations. It is found that the LFRC model fails to predict lean-ignition in the main-chamber, resulting in a misfiring event. Incorporation of turbulence-chemistry interaction using the transported PDF method substantially improves the prediction of the ignition event in the main-chamber, achieving fair qualitative agreement and quantitative validation of combustion parameters within 10% of the reported experimental data. The rich simulation results consisting of a full set of statistical description of the thermo-chemical states enable us to gain deep insights into the ignition mechanisms in the main chamber, which is limited when done experimentally. A novel dual ignition phenomenon is revealed in the TJI rig for the first time. Initially, a primary ignition kernel is formed at a downstream location which eventually detaches from the main jet. As the jet momentum decreases, a secondary ignition event follows, this time at a more upstream location which eventually combines with the primary ignition kernel to form a single connected flame front. Investigation of these ignition sequences in chemical composition space reveal distinct differences between the two. The primary ignition event in the main-chamber is followed by a large concentration of active radicals from the pre-chamber jet, accelerating the chain-branching steps, characterizing what has been referred to as flame ignition. In contrast, the secondary ignition occurs in the absence of active radicals in the pre-chamber jet, hence characterized as jet ignition. Further analysis of the effect of pre-chamber jet characteristics on lean ignition in the main-chamber is conducted by setting up cases with different initial pressure ratios (p<sub>r</sub><sup>o</sup>) between the two chambers, a non-dimensional parameter, ranging from 1.2 to 3.2. As the initial pressure ratio increases, jet momentum increases, with dual ignition observed in cases above p<sub>r</sub><sup>o</sup>= 2.2. Case with p<sub>r</sub><sup>o</sup>= 3.2 lead to misfiring. The effect of ignition sequence on global combustion characteristics of TJI is analyzed. Dual ignition events lead to non-monotonicity in combustion characteristics such as global reaction progress variable, flame penetration, and global heat release rate. In dual ignition events, although the rate of fuel consumption and global heat release rate is initially lower, the secondary ignition leads to a sudden increase in flame surface area, resulting in a sudden jump and promoting the overall performance of the TJI system.</p> Turbulent Jet Ignition Ultra-lean Combustion Turbulent Combustion Large Eddy Simulation Transported PDF Method Eulerian Monte Carlo Fields Method Fully-Consistent EMCF Ignition mechanisms
185	LES of atomization and cavitation for fuel injectors / Simulation aux grandes échelles de l'atomisation et de la cavitation dans le cadre des injections de carburant Ahmed, Aqeel 06 September 2019 (has links) Cette thèse présente la Simulation des Grandes Echelles (LES) de l’injection, de la pulvérisation et de la cavitation dans un injecteur pour les applications liées aux moteurs à combustion interne. Pour la modélisation de l’atomisation, on utilise le modèle ELSA (Eulerian Lagrangian Spray Atomization). Le modèle résout la fraction volumique du combustible liquide ainsi que la densité de surface d’interface liquide-gaz pour décrire le processus complet d’atomisation. Dans cette thèse, l’écoulement à l’intérieur de l’injecteur est également pris en compte pour une étude ultérieure de l’atomisation. L’étude présente l’application du modèle ELSA à un injecteur Diesel typique, à la fois dans le contexte de RANS et de LES.Le modèle est validé à l’aide de données expérimentales disponibles dans Engine Combustion Network (ECN). Le modèle ELSA, qui est normalement conçu pour les interfaces diffuses (non résolues), lorsque l’emplacement exact de l’interface liquide-gaz n’est pas pris en compte, est étendu pour fonctionner avec une formulation de type Volume of Fluid (VOF) de flux à deux phases, où l’interface est explicitement résolu. Le couplage est réalisé à l’aide de critères IRQ (Interface Resolution Quality), qui prennent en compte à la fois la courbure de l’interface et la quantité modélisée de la surface de l’interface. Le modèle ELSA est développé en premier lieu en considérant les deux phases comme incompressibles. L’extension à la phase compressible est également brièvement étudiée dans cette thèse. Il en résulte une formulation ELSA compressible qui prend en compte la densité variable de chaque phase. En collaboration avec l’Imperial College de Londres, la formulation de la fonction de densité de probabilité (PDF) avec les champs stochastiques est également explorée afin d’étudier l’atomisation. Dans les systèmes d’injection de carburant modernes, la pression locale à l’intérieur de l’injecteur tombe souvent en dessous de la pression de saturation en vapeur du carburant, ce qui entraîne une cavitation. La cavitation affecte le flux externe et la formulation du spray. Ainsi, une procédure est nécessaire pour étudier le changement de phase ainsi que la formulation du jet en utilisant une configuration numérique unique et cohérente. Une méthode qui couple le changement de phase à l’intérieur de l’injecteur à la pulvérisation externe du jet est développée dans cette thèse. Ceci est réalisé en utilisant le volume de formulation de fluide où l’interface est considérée entre le liquide et le gaz; le gaz est composé à la fois de vapeur et d’airambiant non condensable. / This thesis presents Large Eddy Simulation (LES) of fuel injection, atomization and cavitation inside the fuel injector for applications related to internal combustion engines. For atomization modeling, Eulerian Lagrangian Spray Atomization (ELSA) model is used. The model solves for volume fraction of liquid fuel as well as liquid-gas interface surface density to describe the complete atomization process. In this thesis, flow inside the injector is also considered for subsequent study of atomization. The study presents the application of ELSA model to a typical diesel injector, both in the context of RANS and LES. The model is validated with the help of experimental data available from Engine Combustion Network (ECN). The ELSA model which is normally designed for diffused (unresolved) interfaces, where the exact location of the liquid-gas interface is not considered, is extended to work with Volume of Fluid (VOF) type formulation of two phase flow, where interface is explicitly resolved. The coupling is achieved with the help of Interface Resolution Quality (IRQ) criteria, that takes into account both the interface curvature and modeled amount of interface surface. ELSA model is developed first considering both phases as incompressible, the extension to compressible phase is also briefly studied in this thesis, resulting in compressible ELSA formulation that takes into account varying density in each phase. In collaboration with Imperial College London, the Probability Density Function (PDF) formulation with Stochastic Fields is also explored to study atomization. In modern fuel injection systems, quite oftenthe local pressure inside the injector falls below the vapor saturation pressure of the fuel, resulting in cavitation. Cavitation effects the external flow and spray formulation. Thus, a procedure is required to study the phase change as well as jet formulation using a single and consistent numerical setup. A method is developed in this thesis that couples the phase change inside the injector to the external jet atomization. This is achieved using the volume of fluid formulation where the interface is considered between liquid and gas; gas consists of both the vapor and non condensible ambient air. Simulation des grandes échelles (SGE) Modélisation par atomisation CFD Modélisation numérique par cavitation Atomisation coulée par cavitation Distribution de la taille des gouttes Large Eddy Simulation (LES) Atomisation modeling CFD Fuel injector internal flow Cavitation numerical modeling Cavitation coulpled atomization Probability density function (PDF) Drop size distribution Incompressible two phase liquid-gas flow Compressible two phase liquid-gas flow 621.43
186	Rate-Distortion Performance And Complexity Optimized Structured Vector Quantization Chatterjee, Saikat 07 1900 (has links) Although vector quantization (VQ) is an established topic in communication, its practical utility has been limited due to (i) prohibitive complexity for higher quality and bit-rate, (ii) structured VQ methods which are not analyzed for optimum performance, (iii) difficulty of mapping theoretical performance of mean square error (MSE) to perceptual measures. However, an ever increasing demand for various source signal compression, points to VQ as the inevitable choice for high efficiency. This thesis addresses all the three above issues, utilizing the power of parametric stochastic modeling of the signal source, viz., Gaussian mixture model (GMM) and proposes new solutions. Addressing some of the new requirements of source coding in network applications, the thesis also presents solutions for scalable bit-rate, rate-independent complexity and decoder scalability. While structured VQ is a necessity to reduce the complexity, we have developed, analyzed and compared three different schemes of compensation for the loss due to structured VQ. Focusing on the widely used methods of split VQ (SVQ) and KLT based transform domain scalar quantization (TrSQ), we develop expressions for their optimum performance using high rate quantization theory. We propose the use of conditional PDF based SVQ (CSVQ) to compensate for the split loss in SVQ and analytically show that it achieves coding gain over SVQ. Using the analytical expressions of complexity, an algorithm to choose the optimum splits is proposed. We analyze these techniques for their complexity as well as perceptual distortion measure, considering the specific case of quantizing the wide band speech line spectrum frequency (LSF) parameters. Using natural speech data, it is shown that the new conditional PDF based methods provide better perceptual distortion performance than the traditional methods. Exploring the use of GMMs for the source, we take the approach of separately estimating the GMM parameters and then use the high rate quantization theory in a simplified manner to derive closed form expressions for optimum MSE performance. This has led to the development of non-linear prediction for compensating the split loss (in contrast to the linear prediction using a Gaussian model). We show that the GMM approach can improve the recently proposed adaptive VQ scheme of switched SVQ (SSVQ). We derive the optimum performance expressions for SSVQ, in both variable bit rate and fixed bit rate formats, using the simplified approach of GMM in high rate theory. As a third scheme for recovering the split loss in SVQ and reduce the complexity, we propose a two stage SVQ (TsSVQ), which is analyzed for minimum complexity as well as perceptual distortion. Utilizing the low complexity of transform domain SVQ (TrSVQ) as well as the two stage approach in a universal coding framework, it is shown that we can achieve low complexity as well as better performance than SSVQ. Further, the combination of GMM and universal coding led to the development of a highly scalable coder which can provide both bit-rate scalability, decoder scalability and rate-independent low complexity. Also, the perceptual distortion performance is comparable to that of SSVQ. Since GMM is a generic source model, we develop a new method of predicting the performance bound for perceptual distortion using VQ. Applying this method to LSF quantization, the minimum bit rates for quantizing telephone band LSF (TB-LSF) and wideband LSF (WB-LSF) are derived. Vector Analysis Quantization Theory Split Vector Quantization (SVQ) LSF Parameter Quantization Structured Quantization Vector Quantization - Stochastic Models Gaussian Mixture Model (GMM) Line Spectrum Frequency Coding Vector Quantization (VQ) Switched Quantization Speech Spectrum Quantization LSF Coding Split VQ Conditional PDF Communication Engineering
187	Stably stratified atmospheric boundary layer: study trough large-eddy simulations, mesoscale modelling and observations Jiménez Cortés, Maria Antònia 12 December 2005 (has links) La capa límit atmosfèrica és l'àrea directament influenciada per la presència de la superfície de la terra i la seva alçada és d'uns centenars de metres a uns pocs quilòmetres. Durant el vespre, el refredament radiatiu estratifica establement l'aire prop del sòl i es forma el que es coneix com a Capa Límit Estable (CLE). D'avui en dia, la CLE és un règim que encara no està prou ben caracteritzat. La turbulència, que no és homogènia ni isòtropa, i la gran importància dels efectes locals com l'orografia, entre d'altres factors, dificulten l'estudi d'aquest règim. Per aquest motiu, la CLE és objecte d'especial atenció, sobretot a l'hora de millorar la seva representació en models tant de temps com de clima.Aquest treball es centra en l'estudi de la CLE mitjançant 3 eines diferents: 1) simulacions explícites de grans remolins (més conegudes com a simulacions LES), per determinar el comportament dels moviments turbulents, on les resolucions són de l'ordre de metres; 2) simulacions mesoscalars, per caracteritzar els efectes locals, on les resolucions són de l'ordre de kilòmetres; 3) anàlisi de les observacions sota aquestes condicions per tal de caracteritzar i entendre millor els fenòmens observats.En primer lloc s'estudia el rang d'estabilitats a on el model LES, que considera la teoria de Kolmogorov per la dissipació de l'energia, funciona correctament. Els resultats del model són realistes tal com mostra la seva comparació amb les mesures de dues campanyes experimentals (SABLES-98 i CASES-99). Per explorar més a fons els resultats LES i per comparar-los amb les mesures s'han utilitzat les Funcions de Distribució de Probabilitat (PDF). Aquests resultats LES són també comparables als obtinguts amb altres models LES, tal com mostra la intercomparació de models LES, més coneguda com a GABLS.Un cop desenvolupades totes les eines necessàries es fa un LES d'un cas més realista, basat en les observacions d'un màxim de vent de capes baixes (més conegut com a Low-Level Jet, LLJ). L'anàlisi combinat dels resultats LES i les mesures permet entendre millor els processos de barreja que tenen lloc a través de la inversió. Finalment, la contribució dels efectes locals s'estudia mitjançant les simulacions mesoscalars, en aquest cas centrades a l'illa de Mallorca. Durant el vespre es veu com les circulacions locals es desenvolupen a les conques (de longitud al voltant de 25km), formant-se, per exemple, vents catabàtics o LLJ com l'estudiat anteriorment. En aquest cas les simulacions es verifiquen amb imatges de satèl·lit NOAA i observacions de les estacions automàtiques de mesures, donant resultats semblants. / The atmospheric boundary layer is the area directly influenced by the presence of the Earth's surface and its height is from hundreds of meters to few kilometres. During the night, the radiative cooling stratifies the layer close to the surface and it forms the Stably-stratified Atmospheric Boundary Layer (SBL). Nowadays, the SBL is a regime not well enough characterized, yet. Turbulence, which is not homogeneous either isotropic, and the great importance of the local effects, like the orography, among other factors, make the SBL be a difficult regime to study. Even so, the SBL is an object of special attention, especially when improving its representation in numerical prediction models or climate models.This work focuses on the study of the SBL through 3 different tools: 1) Large-Eddy Simulations (LES), to determine the turbulent motions, where the resolutions are about 1m; 2) Mesoscale simulations, to characterize the local effects, where resolutions are about 1km; 3) Analysis of the observations under these conditions in order to better characterize and understand the observed phenomena.In first place, it is studied the range of stabilities where the LES model, that considers the Kolmogorov theory for the dissipation of the energy, works correctly. The results are realistic as the comparison with measures from two experimental campaigns (SABLES-98 and CASES-99) shows. To explore the results more thoroughly, and to compare the LES results to the measurements, the Probability Density Functions (PDF) have been used. The LES results are also comparable to the ones obtained with other LES models, as the intercomparison of different LES models show, better known as GABLS.Then, a more realistic case is performed using the LES model, based on observations of a Low-Level Jet (LLJ). The combined inspection of the LES results and the observations allow to better understand the mixing processes that take place through the inversion layer. Finally, the contribution of the local effects is studied through a mesoscale simulation. Here the attention is focused on the Mallorca Island. During the night, the model is able to reproduce the local circulations is a basin of a characteristic size of 25km. The main features obtained previously from the LES of the LLJ are also reproduced by the mesoscale model. These runs are verified with NOAA satellite images and observations from the automatic surface weather stations, giving that the model is able to reproduce realistic results. vent catabàtic Low-Level Jet (LLJ) efectes local Probability Density Functions (PDF) local effects funcions de densitat de probabilitat Large-Eddy Simulations (LES) turbulence mesoscale simulations simulacions mesoscalars màxim de vent a nivell baixos turbulència katabatic Física de la Terra (microclimatologia) 53
188	WORKSHOP "MOBILITÄT" Anders, Jörg 12 June 2001 (has links) Gemeinsamer Workshop von Universitaetsrechenzentrum und Professur "Rechnernetze und verteilte Systeme" der Fakultaet fuer Informatik der TU Chemnitz. Workshop-Thema: Mobilitaet Benutzbarkeit CRONOS CUPS Fibre Channel FireWire IEEE1394 JAVA3D Lehrmaterial NAS Office-Software PDF PPD Prozessorkarte SAN Spam-Abwehr Terminal Usability WWW Webseite ddc:004 Assistent Authentifikation CDMA CMS Chipkarte Design Dynamic HTML E-Mail Filter Funktelefon Getriebe HTML HTTP Java Server Pages KDE LINUX LP print service Latex Magnetstreifen Mobilfunk Open Source Rechnernetz Sicherheit Spam-Mail Standardisierung UMTS UNIX WAP XML
189	Deeply Virtual Compton Scattering off Helium-4 / La diffusion Compton Profondément Virtuelle sur l'Hélium-4 Hattawy, Mohammad 14 September 2015 (has links) Les Distributions de Partons Généralisées (GPDs) sont des fonctions de structure riches qui contiennent des informations sur les corrélations de quark/ anti-quark, et sur les corrélations entre l'impulsion longitudinale et la position transversale des partons. Ces GPDs sont accessibles via des réactions exclusives durs tels que la Diffusion Compton Profondément Virtuelle (DVCS pour Deeply Virtual Compton Scattering), à savoir la leptoproduction d'un photon réel où le photon est émis par la cible. La DVCS nucléaire ouvre une nouvelle voie pour explorer la nature des modifications moyennes des hadrons dans le milieu nucléaire. Dans ce travail, nous présentons la première mesure exclusive du processus DVCS sur l'hélium-4 avec un faisceau d'électrons polarisés longitudinalement de 6 GeV et le détecteur CLAS dans le Hall B au Jefferson Lab, États-Unis. L'hélium-4 est d'un intérêt particulier il n'a qu'une seul GPD, en raison de son spin 0. Le but de cette étude est de comprendre les modifications nucléaires de distributions de partons. Dans notre expérience, le détecteur CLAS a été amélioré avec une Chambre à Projection Temporelle Radiale (RTPC pour Radial Time Projection Chamber) pour détecter les noyaux de recul de faible énergie, et un calorimètre intérieur (IC) pour détecter les photons produit à petits angles. Les détails de la structure, de l'étalonnage et du fonctionnement de la RTPC sont présentés. Ensuite, l'analyse des données et la mesure des asymétries faisceau-spin du processus DVCS sont présentés. / The Generalized Parton Distributions (GPDs) are rich structure functions that contain information on quark/anti-quark correlations, and on correlation between longitudinal momentum and the transverse spatial position of partons. These GPDs are accessible via hard exclusive reactions such as Deeply Virtual Compton Scattering (DVCS), i.e. the leptoproduction of a real photon where the photon is emitted by the target hadron. Nuclear DVCS opens a new avenue to explore the nature of medium modifications at the partonic level. In this work, we present the first exclusive measurement of the DVCS process off helium-4 with a longitudinally polarized electron beam of 6 GeV using the CLAS detector in the experimental Hall-B at Jefferson Lab, USA. The helium-4 is of particular interest since the number of GPDs is reduced to one, because of its spin zero. The aim of this study is to understand the nuclear medium modifications of parton distributions. In our experiment, the CLAS detector was upgraded with a Radial Time Projection Chamber (RTPC) to detect the low-energy recoil nuclei, and an Inner Calorimeter (IC) to detect the forward going photons. The details of the structure, calibration and working principle of the RTPC will be presented. Then, the measurement of the beam-spin asymmetries in the DVCS channel will be presented. Structure de l'hélium-4 Partons Quarks Gluons PDF Nucléaires Effet de l'EMC GPDs Processus DVCS Détecteur CLAS Simulation de GEANT4 Radial TPC Jefferson Lab Structure of Helium-4 Partons Quarks Gluons Nuclear PDFs EMC effect GPDs DVCS process CLAS detector GEANT4 simulation Radial TPC Jefferson Lab
190	Elektronické zabezpečení zdravotnické dokumentace v prostředí zdravotnického IS / Security of Electronic Documentation in Medical Environment Hauserová, Markéta January 2012 (has links) Thesis is analyzing czech laws which are related to medical documentation. Describes the points which are mandatory for information system, so the medical documentation can be stored electronically. Includes various algorithms for implementation of certain electronic signature and for identification of person. This thesis deals with asymmetric cryptography, specifically RSA, DSA, and ECDSA. Describes the hash functions and their functions and their characteristics. Describes the principle of the certificate, ways of its obtaining, invalidation and their formats. Analyzes medical information system and suggests ways to create a program for signing medical records. Then based on that analysis, the program is implemented. At the conclusion of the work is discussed, if created program meets the criteria.

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