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Computer. Automation --- internet --- systeemontwerp --- e-commerce --- software engineering --- UML (unified modeling language)

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Programming --- Quantitative methods in social research --- Mathematical statistics --- Structural equation modeling --- #SBIB:303H4 --- #SBIB:303H520 --- Informatica in de sociale wetenschappen --- Methoden sociale wetenschappen: techniek van de analyse, algemeen --- SEM (Structural equation modeling) --- Multivariate analysis --- Factor analysis --- Regression analysis --- Path analysis (Statistics) --- AMOS. --- AMOS (Computer program) --- Associative memory organizing system --- Structural equation modeling.

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Geometric Modelling is concerned with the computer aided design, manipulation, storage and transmission of geometric shape. It provides fundamental techniques to different areas of application as CAD/CAM, computer graphics, scientific visualization, and virtual Reality. 20 papers presented by leading experts give a state-of-the-art survey of the following topics: surface design and fairing; multiresolution models; reverse engineering; solid modelling; constrained based modelling.

Artificial intelligence. Robotics. Simulation. Graphics --- Algebraic geometry --- Computer-aided engineering. --- Computer simulation. --- Computer graphics. --- Computer-Aided Engineering (CAD, CAE) and Design. --- Simulation and Modeling. --- Computer Graphics. --- Automatic drafting --- Graphic data processing --- Graphics, Computer --- Computer art --- Graphic arts --- Electronic data processing --- Engineering graphics --- Image processing --- Computer modeling --- Computer models --- Modeling, Computer --- Models, Computer --- Simulation, Computer --- Electromechanical analogies --- Mathematical models --- Simulation methods --- Model-integrated computing --- CAE --- Engineering --- Digital techniques --- Data processing

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Researches and developers of simulation models state that the Java program­ ming language presents a unique and significant opportunity for important changes in the way we develop simulation models today. The most important characteristics of the Java language that are advantageous for simulation are its multi-threading capabilities, its facilities for executing programs across the Web, and its graphics facilities. It is feasible to develop compatible and reusable simulation components that will facilitate the construction of newer and more complex models. This is possible with Java development environments. Another important trend that begun very recently is web-based simulation, i.e., and the execution of simulation models using Internet browser software. This book introduces the application of the Java programming language in discrete-event simulation. In addition, the fundamental concepts and prac­ tical simulation techniques for modeling different types of systems to study their general behavior and their performance are introduced. The approaches applied are the process interaction approach to discrete-event simulation and object-oriented modeling. Java is used as the implementation language and UML as the modeling language. The first offers several advantages compared to C++, the most important being: thread handling, graphical user interfaces (QUI) and Web computing. The second language, UML (Unified Modeling Language) is the standard notation used today for modeling systems as a collection of classes, class relationships, objects, and object behavior.

Programming --- Computer programming. --- Software engineering. --- Computer simulation. --- System theory. --- Programming languages (Electronic computers). --- Mathematical models. --- Programming Techniques. --- Software Engineering. --- Simulation and Modeling. --- Systems Theory, Control. --- Programming Languages, Compilers, Interpreters. --- Mathematical Modeling and Industrial Mathematics. --- Models, Mathematical --- Simulation methods --- Computer languages --- Computer program languages --- Computer programming languages --- Machine language --- Electronic data processing --- Languages, Artificial --- Systems, Theory of --- Systems science --- Science --- Computer modeling --- Computer models --- Modeling, Computer --- Models, Computer --- Simulation, Computer --- Electromechanical analogies --- Mathematical models --- Model-integrated computing --- Computer software engineering --- Engineering --- Computers --- Electronic computer programming --- Electronic digital computers --- Programming (Electronic computers) --- Coding theory --- Philosophy

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Mathematical statistics --- Correlation (Statistics). --- Regression analysis. --- Methoden en technieken --- Statistiek. --- Correlation (Statistics) --- Regression analysis --- #SBIB:012.AANKOOP --- #SBIB:303H520 --- #SBIB:303H523 --- Analysis, Regression --- Linear regression --- Regression modeling --- Methoden sociale wetenschappen: techniek van de analyse, algemeen --- Methoden sociale wetenschappen: associatie, correlatie --- Least squares --- Probabilities --- Statistics --- Instrumental variables (Statistics) --- Multivariate analysis --- Structural equation modeling --- Graphic methods