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Learn about the MSc course in Mechatronics at Óbuda University focusing on integrated product information management systems. Explore the advanced technologies and paradigm shifts impacting modern engineering practices.
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Óbuda University John von Neumann Faculty of Informatics Institute of Applied Mathematics Master in Mechatronics CourseCAD Systems Laboratory No. 1 Systems for Lifecycle Management of Product Information Dr. 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 this presentation were made in the CATIA V5 and the V6 PLM systems as well as the 3DEXPERIENCE platform at the Laboratory of Intelligent Engineering systems, in the course of active modeling process. The CATIA V5 és V6 PLM systems as well as the 3DEXPERIENCE platform are operated at the above laboratory with the support of Dassult Systémes Inc. and CAD-Terv Ltd.
Contents About of the program of the MSc course About of the laboratory History of integration From physical representations to RFLP structure Object modeling of contextual features Communication with modeling procedures Work in the laboratory Product information in model – Exercises CS01.1-CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
About of the program of the MSc course Industrial virtual engineering in the new century. Leading applied information technology. Virtual technology for product system. Informatics seeing and thinking in a model space. Generic contextual information content of product representation Coordinated contributions for multidisciplinary product. Understanding situation and event driven adaptive generic product model. Explanations and individual work in world leading industrial virtual environment Integrated learning of theory, methodolgy, and practice in a virtual space where treshold knowledge is enforced by the system László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
About the Laboratory Laboratory of Intelligent Engineering Systems (Óbuda University) Research in system level and high abstraction centered intelligent product modeling (2005-). Internationally recognized research. Course in virtual environment. Recent world wide achievements are included in courses. Laboratory system applies the representative Dassault Systémes new generation engineering modeling and management technology. Platforms in laboratory system Current: V5 (Reference: Boeing 787 Dreamliner) and V6 (Reference: Airbus A 350) Future plan: 3DEXPERIENCE in cloud. More information at the site of the laboratory. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Paradigm shifts for integration engineering activities Shape model and equipment control definition. (70s-80s). Parametric features and object model integration. (90s). Relics from our previous laboratory can be seen on ground floor of this building. Reusable knowledge driven generic contextual knowledge reusing purposed modeling for lifecycle of product (PLM). (2000-). V5 modeling system is available at our laboratory. Multidisciplinary modeling for product system (RFLP structure) using behavior representations. (2010-) V6 PLM system is available at our laboratory (CATIA, ENOVIA, DELMIA, SIMULIA). Organizing modeling capabilities by industry, discipline, and role. (2015-). 3DEXPERIENCE is available at our laboratory. Modeling for cyber-physical-biological systems including smart factory (2015-). 3DEXPERIENCE is available at our laboratory. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
From physical representations to RFLP structure Feature driven product definition Modification of affected features by contextual connections Integrated Product Information Model (IPIM). The ISO 10303 Integration of CAD, CAE, CAM, etc. in an object model. Lifecycle management of product information Product feature generation using embedded knowledge Requirements (R) functional (F), logical (L) and physical (P) structure from SE for multidisciplinary system model Knowledge driven definition of generic model Product definition in RFLP structure Modeling process and simulation structure in model Research in industrial modeling system: demand by changed products Disciplinary and role organized modeling capabilities for smart engineering LászlóHorváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
From physical representations to RFLP and PPR structures Requirements against product. Functional model for requirements. Logical model for functions. Physical level model. Process model for manufacturing Manufacturing system model Model of manufacturing resources LászlóHorváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
3DEXPERIENCE László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
3DEXPERIENCE László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
3DEXPERIENCE László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Communication with modeling procedures Viewport Provides sight into the model space. Serves communication with model generation procedures. No drawing, no editing, this is definition by control of model generation procedures. Shape model Mathematical representation constructed by control of mathematical procedures. It includes a set of contextual surface represenattion in topological structure. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features General information schema Model information schema Object Class (in taxonomy) Paramaters Relationships (contexts) Procedures Feature Properties Type with parameters Representation. In case of shape feature, topology structured geometry. Contextual chain for propagation of parameter changes. Contextual connection Parameter Parameter Feature driven model: feature acts on previously defined features though contextual connections of its parameters. Model must be contextually consistent. Real-time monitoring and simulation prevent the creation of erroneous results. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Theories and methods which are understood in the course of definition of model and experiments using active model. Cartesian coordinate system and transformations. Relating model space and plane in it. Definition of shape using dynamic navigator. Object and its parameters. Feature, its attributes and parameters. Context and contextual chain. Active and passive parameter. Constraint as context. Offset of a surface. Boundary representation at model definition. Function of the space pilot device at the definition of model. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Work in a preselected plane. Dynamic navigator recorded so many important constraints László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Mathematical definition of curve interpolating 5 predefined points László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Mathematical definition of surface in the context of the previously defined curve along a vector. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features List of parameters László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Definition of tabulated solid in the context of planar closed contour, spatial surface, direction, and thickness. In excess to the tabulation, ofszet surface is generated. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Complex edge fillet with continuity. Modeling is navigated along topological structure of the shape László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features By removal a topological face solid body is defined between boundary and its ofset. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features How contextual chains work in a generic model? New constraint is defined then its value changed. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Constraint active László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Shape change is possible but real time simulation reject this modification. Constraint inactive (changed parameter value) László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Object modeling of contextual features Parameter „activity” changed back to true. The active constraint enforced the original shape using contextual chain. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Work in laboratory Only actual task related activities are allowed on workstations. Thematic laboratory tasks are mandatory. Specially composed laboratory tasks do not require special skill in advance because teacher instruct actually. This is a contextual system in which model is active in accordance with modeled contexts. Unwanted contexts active: do not use unnecessary objects and procedures at laboratory work. Course program supposes continuous disciplined work. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Model name in the V6 model base (for propagation) CS00Sxxxx00 Course name Year SemesterS or F Student ID (four letters) Exercise No. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.1 Introduction to laboratory excercise environment. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.2 Development the model which was explained in the previous part of this presentation. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 Study and understand the model in subsequent slides. László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/
Product information in model – Exercise CS01.3 László Horváth UÓ-JNFI-IAM http://users.nik.uni-obuda.hu/lhorvath/