Fraunhofer-Institut für Produktionsanlagen und Konstruktionstechnik IPK
Now showing 1 - 10 of 22
PublicationUnified information access in product creation with an integrated control desk( 2017)
;Wrasse, Kevin ; ;Hayka, HaygazunStark, RainerCustomers demand for individualized products leads to a large variety of different products in small series and single-unit production. A high flexibility pressure in product creation is one result of this trend. In order to counteract the pressure, the information steadily increasing by Industry 4.0 must be made available at the workplace. Additionally, a better exchange of information between product development, production planning and production is necessary. The improvement of individual systems, like CAD, PDM, ERP and MES, can only achieve this to a limited extent. Since they mostly use systems from different manufacturers, the necessary deeper integration of information is only feasible for SMEs to a limited extend. The presented control desk helps to ensure a more flexible product creation as well as information exchange. It captures information from different IT systems in the production process and presents them integrated, task-oriented and oriented to the user's mental model, e.g. information of the production combined with the 3D model of product parts, or information about product development on the 3D model of the production. The solution is a digital 3D model of the manufacturing environment, which is enriched by billboards for a quick information overview and web service windows to access detailed MES and PDM information. By this, the level of abstraction can be reduced and reacts to changed requirements in the short term, making informed decisions. The interaction with the control stands utilizes the touch skills of mobile and fixed systems such as smartphones, tablets and multitouch tables.
PublicationPersonenzertifizierung für PLM-Verantwortliche( 2016)
;Woll, Robert ;Hayka, HaygazunDie erfolgreiche Durchführung der Integration und Steuerung von Informationen aus dem Produktlebenszyklus - der Kernaufgaben des Product Lifecycle Managements - ist anspruchsvoll. Sie erfordert ein Verständnis der Fachprozesse entlang des Produktlebenszyklus, der Potentiale und Herausforderungen moderner IT-Technologien und -Managementansätze, sowie die Fähigkeit interdisziplinär zu arbeiten und in komplexen Interessennetzwerken anspruchsvolle Lösungsansätze zu kommunizieren und über die Umsetzung bis zur Einführung zu begleiten. In anderen Worten: ein PLM Verantwortlicher sollte idealerweise eine sehr umfangreiche Menge an Qualifikationen und Erfahrungen mit sich bringen.
PublicationModel integration for managing dependencies between heterogeneous engineering data( 2016)
;Woll, Robert ;Hayka, HaygazunStark, Rainer
PublicationProduct development in collaborative networks - An expert view on current challenges and future trends( 2016)
; ; ;Neumeyer, Sebastian ;Hayka, HaygazunStark, RainerCross-enterprise collaboration in product development has become a common practice in industry. Companies increasingly depend on collaborations with networks of partners from different tiers of value creation, various geographic locations and even from outside of their own sector. Moreover, there is a growing tendency to involve parties from later stages of the product's lifecycle in the product development phase. To face the challenges of the increasing complexity of collaborative product development a holistic approach of Product Lifecycle Management (PLM) has evolved. Although methods, processes and IT-systems of PLM proved to be beneficial in supporting the internal collaboration of industrial companies, they seem to have only little effect in the context of cross-company collaboration. Reasons and solution approaches for that were evaluated in an expert study with 40 experts from industry and academia. Results from that study and practical implications are presented in this paper.
PublicationZukunft der unternehmensübergreifenden Kollaboration(Fraunhofer IPK, 2016)
; ; ;Neumeyer, Sebastian ; ;Hayka, Haygazun ;Kirsch, Lucas ;Drewinksi, Roland ;Hayka, Haygazun ;Stark, Rainer
PublicationInformation management platform for the application of sustainable product development methods( 2016)
;Pförtner, Anne ;Buchert, Tom ; ;Stark, RainerHayka, HaygazunA multitude of information is required to address sustainability aspects in product design decisions. However, information required for applying methods in the field of sustainable product development often overlaps. Moreover, specific improvement measures can primarily be identified if method results can be traced back to data origin. This paper presents a concept and implementation of an information platform which is integrated into a PLM system and integrates an ontology based knowledge model and a semantic wiki. The information platform shall avoid double work, improve documentation of information and assist in understanding the data basis of method results. This paper discusses requirements and solution elements and presents findings from applying the methods Lifecycle Design Strategies (LiDS) Wheel and the Product Sustainability Index.
PublicationDie Zukunft der unternehmensübergreifenden Produktentwicklung( 2016)
;Neumeyer, Sebastian ;Hayka, HaygazunStark, Rainer
PublicationVirtual prototyping and validation of CPPS within a new software framework( 2016)
;Neumeyer, Sebastian ;Exner, Konrad ;Kind, Simon ;Hayka, HaygazunStark, RainerAs a result of the growing demand for highly customized and individual products, companies need to enable flexible and intelligent manufacturing systems. Such new production systems, so called ""Cyber Physical Productions Systems"" (CPPS) aim the vision of interlinked and autonomous production. The research project VIB-SHP envisions controller validation of manufacturing system covering aspects of asynchronous communicating, intelligent and autonomous acting production equipment and a service based production IT. To enable manufacturing system designers to validate CPPS, a software framework for virtual prototyping has been developed. A multi-disciplinary construction kit integrates discipline specific models and manages them in a PLM solution. The usage of the construction kit enables manufacturing designers to apply virtual technologies and ease the integration in the production-IT. The presented approach resolves the sequential design process for the development of mechanical, electric and software elements and ensures the consistency of these models. With the help of a BOM- and signal-based alignment of the discipline specific models in an integrated mechatronic product model, the communication of design status and changes is improved. The re-use of already specified and designed modules enable quick behavior modeling, code evaluation as well as tangible user interaction with the virtualized assembly system.
PublicationInnovationsabsicherung in der Produktentwicklung und Produktion( 2013)
;Damerau, Thomas ;Rothe, Manuel ;Ramm, ArneHayka, Haygazun
PublicationImproving the usability of collaboration methods and technologies in engineering( 2013)
;Wolter, Lars ;Hayka, HaygazunStark, RainerThis paper illuminates certain needs and solutions in collaborative engineering like the ability to initiate collaboration sessions without preparation steps, the acceptance of collaboration solutions due to heterogeneous IT landscapes and the protection of intellectual property rights. These problems are observed together with current solutions in commercial products and research projects. An overview of those solutions is presented, including their workings, problems and current state of development adding some in depth information about current research work conducted by the authors to address these problems.
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