Engineering Modeling Systems - Functionality & Structure

Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Master in Mechatronics CourseCAD Systems Laboratory No. 2 Functionality of Engineering Modeling Systems Objects in Model Space Structure of Engineering Configuration László Horváth http://users.nik.uni-obuda.hu/lhorvath/

This presentation is intellectual property. It is available only for students in my courses. The screen shots in tis presentation was made in the CATIA V5 és V6 PLM systems the Laboratory of Intelligent Engineering systems, in real modeling process. The CATIA V5 és V6 PLM systems operate in the above laboratory by the help of Dassult Systémes Inc. and CAD-Terv Ltd. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Contents Contents Organizing modeling capabilities by industry, discipline, and role Structure of the V6 PLM system Collaboration of engineers About collaborative virtual environment Engineering model definition and knowledge reuse Definition and simulation of manufacturing Organized realistic multiphysics simulation Development of generic engineering model – Exercise CS21 From the shape modeling practice – Exercise CS22 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Organizing modeling capabilities by industry, discipline, and role Examples from the Dassault Systemes Inc. products Industries Aerospace & Defense Architecture, Engineering & Construction Consumer Goods & Retail Consumer Packaged Goods & Retail Energy, Process & Utilities Financial and Business Services High-Tech Industrial Equipment Life Sciences Marine & Offshore Natural Resources Transportation & Mobility Solutions for Industrial Equipment Industries CATIA Machine and Equipment Design Engineering: CATIA Machine & Equipment Designer CATIA Shaped Machine & Equipment Designer CATIA Plastic Part & Mold Design CATIA 3D Master CATIA Electrical Design CATIA Fluid Systems CATIA Systems Engineering László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Organizing modeling capabilities by industry, discipline, and role Examples from the Dassault Systemes Inc. products Several roles for mechanical engineering discipline Engineering disciplines Consumer packaged goods Mechanical engineering Model Based Definition Composites engineering Sheet metal design engineering Fastener design engineering Plastic part and mold design engineering Electrical systems design Fluid systems Architecture engineering & construction Industrial equipment design engineering Transportation & Mobility Engineering Engineering for High tech Knowledge engineering Marine and offshore MASTER CONCEPTUAL DESIGNER MECHANICAL DESIGNER MECHANICAL & SHAPE DESIGNER MECHANICAL PART DESIGNER MECHANISM SIMULATION DESIGNER DESIGN REVIEW & PREPARATION László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Structure of the V6 PLM system System at the Laboratory of Intelligent Engineering Systems ENOVIA System for collaboration of engineers with system, process, and content level integration. CATIA Development of engineering model and knowledge reuse. SIMULIA Organized realistic multiphysics simulation. DELMIA Definition and simulation of manufacturing process, environment and resources. Model communication: ISO STEP AP242 (integrates the application protocols AP203 and AP214 (automotive and aerospace industries). On the following pages functions are restricted to thematic of subjects ”CAD systems” and ”Modeling and simulation”. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Collaboration of engineers Model based group work environment with system, process, and content level integration Definition of RFLP and PPR structures. Project administration (persons, roles, resources) PLM administration. Maturity state of models: status in lifecycle: REMOVED, IN_WORK, FROZEN, RELEASED, OBSOLETE. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

About collaborative virtual environment Engineering team uses single modeling environment. Basic functionality Product development process management. Product design management. Predefined engineering tasks. Impact analyses supporting evaluation alternatives and changes. Configured products. Managing and tracking design changes. Complete digital validation. Key features Comprehensive covering. Lifecycle management. Concurrent engineering. Representation. Traceability Flexibility. Common data architecture. Reused intellectual property (IP). László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Engineering model definition and knowledge reuse Systems Modeling of dynamical behavior (the Dymola dynamical modeler, communication using Modelica language). Build logical system Discrete behavior of functional and logical components in RFLP environment. Shape Generative and free form curve and surface definition. Connections with capture, image, and rapid prototyping environments. Mechanical Parts and their connections. Base, protected, functional, modification, and extraction features. Associative bodies. Equipment Circuit board deign Electrical equipment and structural design. Electrical routing and connections. Modeling electrical logic. Knowledge ware, advisor and expert Enterprise Knowledge Language (simple for math and advanced for engineering). Automated Design Process. Knowledge features: parameter, function, rule, check, action, reaction, algorithm. Evaluation of rule base. Optimizing parameters. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Definition and simulation of manufacturing Manufacturing Planning Definition of process structures (processes for assembly, fastening, material removal, material adding, etc.) Planning and simulation of manufacturing systems Robotics Definition for mechanical systems applied at manufacturing processes: Robot tools, position definition devices. Devices and structures for machine tools, guided vehicles, numerical controlled and CMM machines. Definition of device profils (accuracy, movement, object, tool, movement control, robot control). Definitions: Direct és invers kinematics, velocity and acceleration, motion sets, workspace, kinematic relations. Task design. Robot programming. Realistic robot simulation. Machining Operations, path planning, control program planning, multi-axis control, machine tool builder, simulation Ergonomics Analysis of human activity. Human model for ergonomics. Measurements. Posture analysis. Task definition. Automation Design of simulation in manufacturing systems. Mapping simulation to control programs. Behavior (experience) based development and simulation of manufacturing systems. Logical control modeling language (LCM). László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Organized realistic multiphysics simulation Multiphysics Simulation On Cloud ”A complete suite of features for solving multiphysics problems involving linear and nonlinear solids, fluids, heat transfer, acoustics, vibration, low-frequency electromagnetics, electrostatics, and coupled behavior between these multiply physical responses.” Dassault Systémes http://www.3ds.com/products-services/3dexperience/on-cloud/ Simulation Simulation of product behavior in case of realistic applications. Definition of actions for definition, execution, and evaluation simulations. Simulation features as building blocks of simulation definitions. Definition and application of materials. Evaluation of simulation results. FEM/FEA in the background. Multiphysics simulation. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Development of generic engineering model – Exercise CS21 Model name in the PLM model base (for propagation): CS00Sxxxx00 Course name Year 16 SemesterS or F Student name Exercise No. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Basics of generic engineering model development – Exercise CS21 Concepts to learn in real model space Generic and instance model. Form features in context. Controlof shape by reference planes.. Including mathematical surface in boundary as form feature. Representation of multipiece solid using topological lump. Parameters and their connections in contextual chains. Propagate function in PLM system, PLM model base. Integration of models in PLM system. Engineering connection between solid bodies. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Development of generic engineering model – Exercise CS21 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Laboratóriumi feladat SZT 2.1 Development of generic engineering model – Exercise CS21 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Development of generic engineering model – Exercise CS21 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

From the shape modeling practice – Exercise CS22 Exercise CS01 is continued Concepts to learn in real model space Volume subtracting feature . Limiting feature using topology Complex fillet surface Solid representation between boundary and its offset (shell form feature) Surface based feature Variable radius fillet surface Modification of solid previously modified by shell form feature László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

From the shape modeling practice – Exercise CS22 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

From the shape modeling practice – Exercise CS22 A Pad.3 hasáb határának átdefiniálása az Extrude.1 felületre. Az Extrude.1 felület újabb kontextusát hoztuk létre. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

From the shape modeling practice – Exercise CS22 Hole.2 furat alaksajátosság definiálása adott pontból kiindulva a generálási irányban a testen talált utolsó felületig. Számos térbeli metszetgörbe generálására van szükség a határfelület ábrázolás kibővítésénél. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/

Engineering Modeling Systems - Functionality & Structure

Engineering Modeling Systems - Functionality & Structure

Presentation Transcript

OBJECTS IN SPACE

2. Modeling of small systems

Space Systems Engineering and Design

Model Transformations in Model-Based Systems Engineering

Space Systems Engineering Curriculum Review

UTILIZING MODEL-BASED SYSTEMS ENGINEERING TO MODEL DATA PROCESSING IN NASA SPACE MISSIONS

Celestial Objects in Space

OTHER OBJECTS IN SPACE

Complex Adaptive Systems of Systems (CASoS) Modeling and Engineering

Ontology in Model-Based Systems Engineering

Use of space-based tropospheric NO 2 observations in regional air quality modeling

Engineering of social objects

Systems engineering 2

Objects in Space

Systems Engineering for Space Vehicles

CINEMA Mechanical Systems David Glaser Mechanical Engineering Space Sciences Laboratory

Model-Driven Engineering Of Component Systems

LABORATORY AIR MANAGEMENT DESIGNS by: Laboratory Systems Engineering

SPACE OBJECTS

FUNCTIONALITY of LENTIC SYSTEMS

Systems Engineering for Space Vehicles

2. Modeling of small systems