The document discusses cyber engineering objects (CEOs) and their role in future engineering. It envisions CEOs as digital representations of products that can be used for planning, simulation, and customized production. The document outlines various requirements for CEOs, including supporting human aspects of engineering, ensuring quality, enabling commercial applications, and providing functional planning capabilities. It also presents concepts for a CEO ecosystem where different providers contribute CEOs and tools to enable collaborative engineering.
This document discusses a workshop held in January 2017 focused on Cyber Engineering Objects (CEOs). The workshop brought together various stakeholders from the engineering and brewing industries. Participants discussed how CEOs could help with planning breweries and addressed questions around the human, quality, commercial, and functional requirements for CEOs and their ecosystem. The workshop resulted in concepts for a CEO ecosystem and aggregation that would allow planning tools and hardware suppliers to provide reusable engineering objects.
The document discusses digital architecture, which uses computer modeling, programming, and simulation to create virtual forms and physical structures. Key software used includes Rhino and Google SketchUp. Digital architecture allows complex calculations and a diverse range of complex forms to be created. Zaha Hadid was a pioneering digital architect known for her fluid, topographic designs like the Heydar Aliyev Cultural Centre in Baku and the BMW Central Building in Germany.
The document discusses Industry 4.0 and its impacts on production management. Industry 4.0 refers to the increasing digitization and connectivity of manufacturing through technologies like the Internet of Things. This fourth industrial revolution will allow for greater integration of humans, machines, and data across manufacturing supply chains. The document outlines several trends driving Industry 4.0 like advanced sensors, cloud computing, and big data analytics. German industry is well positioned to benefit from Industry 4.0 due to existing strengths in manufacturing, though continued investment and cooperation will be needed to capture opportunities from new digital business models.
The document discusses a presentation on Industrie 4.0 given by Matthias Barbian in June 2016. The presentation covers an overview of Industrie 4.0, digitalization, standards and norms, smart factories, and disruptive business models. It also discusses realizing a smart factory, components, implementation for small and medium businesses, and IT security considerations like cloud security and data usage. Finally, the presentation addresses disruptive business models through individualized low-cost production, sustainability through resource optimization and closed-loop production, and Germany-China cooperation on finding the right Industrie 4.0 partners.
Workplace-based Learning in Industry 4.0 -- Multi-perspective approaches and ...Carsten Ullrich
Keynote at the 3rd Annual International Conference of the Immersive Learning Research Network, iLRN 2017
Today’s shop floor, the area of a factory where operatives assemble products, is a complex and demanding work environment. The employed and produced technology becomes ever more complex, and employees are responsible for an increasing amount of tasks. As a consequence, the employee is under constant pressure to solve problems occurring on the shop floor as fast as possible, and simultaneously to improve his work-related knowledge, skills, and capabilities. This keynotes presents the outcome of the APPsist project, which investigated how adaptive technology can support the employee on the shop floor in this challenging environment.
Industry 5.0 recognizes the power of industry to achieve societal goals like prosperity while respecting planetary boundaries and prioritizing worker well-being. It aims to make production resilient by transforming manufacturing through new technologies like cyber-physical systems, product lifecycle management, and artificial intelligence to become sustainable, human-centric and adaptable to changing skills. Research examples show how these technologies may improve circular manufacturing, examine future impacts on jobs and business, and enable harmonious human-automation cooperation in factories.
The document discusses cyber engineering objects (CEOs) and their role in future engineering. It envisions CEOs as digital representations of products that can be used for planning, simulation, and customized production. The document outlines various requirements for CEOs, including supporting human aspects of engineering, ensuring quality, enabling commercial applications, and providing functional planning capabilities. It also presents concepts for a CEO ecosystem where different providers contribute CEOs and tools to enable collaborative engineering.
This document discusses a workshop held in January 2017 focused on Cyber Engineering Objects (CEOs). The workshop brought together various stakeholders from the engineering and brewing industries. Participants discussed how CEOs could help with planning breweries and addressed questions around the human, quality, commercial, and functional requirements for CEOs and their ecosystem. The workshop resulted in concepts for a CEO ecosystem and aggregation that would allow planning tools and hardware suppliers to provide reusable engineering objects.
The document discusses digital architecture, which uses computer modeling, programming, and simulation to create virtual forms and physical structures. Key software used includes Rhino and Google SketchUp. Digital architecture allows complex calculations and a diverse range of complex forms to be created. Zaha Hadid was a pioneering digital architect known for her fluid, topographic designs like the Heydar Aliyev Cultural Centre in Baku and the BMW Central Building in Germany.
The document discusses Industry 4.0 and its impacts on production management. Industry 4.0 refers to the increasing digitization and connectivity of manufacturing through technologies like the Internet of Things. This fourth industrial revolution will allow for greater integration of humans, machines, and data across manufacturing supply chains. The document outlines several trends driving Industry 4.0 like advanced sensors, cloud computing, and big data analytics. German industry is well positioned to benefit from Industry 4.0 due to existing strengths in manufacturing, though continued investment and cooperation will be needed to capture opportunities from new digital business models.
The document discusses a presentation on Industrie 4.0 given by Matthias Barbian in June 2016. The presentation covers an overview of Industrie 4.0, digitalization, standards and norms, smart factories, and disruptive business models. It also discusses realizing a smart factory, components, implementation for small and medium businesses, and IT security considerations like cloud security and data usage. Finally, the presentation addresses disruptive business models through individualized low-cost production, sustainability through resource optimization and closed-loop production, and Germany-China cooperation on finding the right Industrie 4.0 partners.
Workplace-based Learning in Industry 4.0 -- Multi-perspective approaches and ...Carsten Ullrich
Keynote at the 3rd Annual International Conference of the Immersive Learning Research Network, iLRN 2017
Today’s shop floor, the area of a factory where operatives assemble products, is a complex and demanding work environment. The employed and produced technology becomes ever more complex, and employees are responsible for an increasing amount of tasks. As a consequence, the employee is under constant pressure to solve problems occurring on the shop floor as fast as possible, and simultaneously to improve his work-related knowledge, skills, and capabilities. This keynotes presents the outcome of the APPsist project, which investigated how adaptive technology can support the employee on the shop floor in this challenging environment.
Industry 5.0 recognizes the power of industry to achieve societal goals like prosperity while respecting planetary boundaries and prioritizing worker well-being. It aims to make production resilient by transforming manufacturing through new technologies like cyber-physical systems, product lifecycle management, and artificial intelligence to become sustainable, human-centric and adaptable to changing skills. Research examples show how these technologies may improve circular manufacturing, examine future impacts on jobs and business, and enable harmonious human-automation cooperation in factories.
Meetup #3 - Cyber-physical view of the Internet of EverythingFrancesco Rago
The Internet of Everything (IoE) is built on the connections among people, processes, data, and internet of things. However, it is not about these four dimensions in isolation. Each amplifies the capabilities of the other three. It is in the intersection of all of these elements that the true power of Internet of Everything is realized.
We will examine the Cyber-physical view to explore Specification, Hybrid and Heterogeneous Models, Conceptual frameworks, Multiform Time, and much more.
An introduction to Industrie 4.0(Internet of Things), and its Potential impact on Supply Chain. Industrie 4.0, touted as the Game changer and a seed for next industrial revolution. Funded by German Bundes Ministerium fur Education & Technologie.
This document discusses Industry 4.0 and its six design principles: interoperability, virtualization, decentralization, real-time capability, service orientation, and modularity. It outlines opportunities of Industry 4.0 such as improved manufacturing processes, increased efficiency, new products and services, changed value chains, reduced risk, new growth opportunities, and improved sustainability. Examples of connected and smart products that have evolved are presented. The document asks what a smart factory is and provides options that it could involve robots replacing people, factories operating without human interaction, or factories organizing with human interaction.
Industry 4.0 technologies and their applications in fighting COVID-19 pandemicMileyJames
Industry 4.0 technologies such as wireless connectivity, sensors, artificial intelligence, and 3D printing can help address problems related to the COVID-19 pandemic. These technologies allow for smart manufacturing of medical supplies, remote treatment of patients to reduce risk to doctors, and virtual training. They also enable flexible working environments and provide innovations to identify misinformation. Industry 4.0 provides benefits like planning pandemic activities, manufacturing precautions, and assessing risks. It offers telemedicine for remote areas using sensors to monitor patients. These digital technologies support remote learning and share health guidance during lockdowns.
The Challenges of model based and traditional plmJos Voskuil
1) The document discusses the themes of digital transformation and product lifecycle management (PLM) from 2014 to 2020, focusing on the evolution from coordinated to connected systems.
2) It describes how connected systems using unified product structures and connected datasets can provide actual information to anyone connected in any context.
3) The document argues that digital transformation requires new ways of working involving different processes, people, and data, and that disruption is needed from governments, individuals, investors, businesses, and people to address sustainability challenges through system-level thinking.
The document describes the trend2ability method, a 5-step process for identifying trends relevant to a company and developing a roadmap. Step 1 involves identifying trends from various sources. Step 2 prioritizes trends based on their impact. Step 3 maps trends to business levels. Step 4 derives skills needs as user stories. Step 5 creates a roadmap ordering capabilities by priority and dependencies. The method was developed by Patrick Müller, Christina Rode-Schubert, and Uwe Fischer to help companies transform based on trends.
This document discusses the future of industry and robotics in Europe. It outlines the progression from Industry 1.0 through 4.0, highlighting key developments such as the first industrial robot in 1961. The document notes that 178,000 robots were shipped globally in 2013, with over 1.3 million in industrial use. It introduces collaborative robots that can work directly with humans. Examples of collaborative robots like Universal Robots, KUKA, and ABB models are provided. The European Commission has funded over €700 million for robotics innovation through 2020 to support developments towards Industry 4.0.
Requirements and challenges to employees and managers in the era of industry ...Martin Wolpers
The document summarizes a presentation on the requirements and challenges for employees and managers in the era of Industry 4.0. It discusses how digitalization and networked systems are changing workplace learning and industrial production. Specifically, it presents examples of new approaches to vocational training needed to address skills shortages. Key missing skills like creativity, problem solving and collaboration are identified. While new types of collaborative, self-reflective and on-the-job learning may help, the best combinations for Industry 4.0 vocational training remain unclear given the lack of experiences in this area.
Digital Architecture - Modern Technologies in ArchitectureÇelik Nimani
In today's economy, technology is part of every single aspect of our life. Digital architecture uses computer aided design, programming, simulation and images to create virtual forms and physical structures. The same can be said to refer to other aspects of architecture that are defined by digital technologies.
The document discusses how building information modeling (BIM) and structured product data can help improve building safety based on lessons from the Grenfell Tower fire. It emphasizes getting ready for upcoming compliance requirements, better information management across the building lifecycle using a "golden thread" approach, and understanding motivations to help manufacturers prepare. Structured and interoperable product data can provide living information to help avoid building safety tragedies.
ASAP meeting, University of Brescia 24 September 2019
Industry 4.0 can be a difficult concept to understand – where should we start?
… to describe use cases from both large and small industrial firms
… to provide a short set of lessons learnt to help others beginning their digitalisation transformation
Using actual cases from large and small firms to provide short case book of lessons learnt for other business who are starting their digital transformation
The workshop "Platforms for connected Factories of the Future" took place on 5 and 6 of October 2015 in Brussels. Main objective on the first workshop day was to give an overview on existing activities in industries and research regarding platforms for the manufacturing area.
This document discusses augmented reality (AR) technologies that can help small and medium enterprises (SMEs) adopt Industry 4.0 capabilities. It introduces enabling AR technologies like markers, displays, mobile devices and cloud computing. It presents case studies of companies using AR for applications like equipment training, maintenance and production monitoring. The document concludes that AR has high potential to help SMEs add value through supporting processes, though many are hesitant to invest in new technologies currently. Case studies provided may help SMEs understand how to leverage AR in their business under Industry 4.0 visions.
The MIDIH project aims to provide opportunities for SMEs in manufacturing through digital innovation hubs and reference architectures. It has a budget of over 8 million Euros from the EU and involves partners across Europe. The project focuses on developing edge computing, interoperability, data solutions, and experiments in areas like smart factories, products, and supply chains. It recently opened a call for proposals worth 960,000 Euros for SMEs to conduct technological or experimental projects using the MIDIH reference architecture.
A chamada Indústria 4.0 é uma das fronteiras da mudança tecnológica no mundo. A Alemanha é um dos países mais dinâmicos nesse processo. A própria expressão "Indústria 4.0" foi cunhada naquele país, onde ela representa, mais do que palavras, uma estratégia nacional. Para abordar os desafios que a Indústria 4.0 coloca para a Alemanha e também para o Brasil, a Fundação FHC recebe o chefe global de tecnologia e inovação da Siemens, Norbert Luetke-Entrup.
NORBERT LÜTKE-ENTRUP
Mestre e PhD em Física pela Universidade de Bonn (Alemanha) e pela Université Pierre et Marie Curie (Paris), é chefe do Departamento de Tecnologia Corporativa e Gestão da Inovação do Grupo Siemens. Atuou como consultor, líder de projeto e vice-presidente na sede da Siemens Management Consulting (SMC) em Munique, entre 2000 a 2008, e como vice-presidente administrativo do escritório da empresa em Pequim (China).
E-Commerce in einem Direktvertriebsmodell - Alexander T. Stampfl, HiltiUnic
This document discusses Hilti's approach to embedding e-business into its direct sales model. Hilti is a global leader in providing innovative products and services to construction professionals. It has a presence in over 120 countries and realizes over $4 billion in annual sales through its direct sales model. The document outlines how Hilti manages over 200,000 customer contacts per day across its account manager, customer service, retail, and e-business channels. It also discusses how Hilti's e-business platform addresses the needs of different customer groups through features that support transactions, service, and information access. Finally, the document concludes with an agenda that includes a live demo of Hilti's e-business capabilities.
Disruption extinction or still evolution - 2021Jos Voskuil
Presentation related to the PLM Road Map & PDT Spring 2021 conference addressing new technologies providing the needs to transform PLM trying to avoid disruption
Continuous Intelligence: Moving Machine Learning into Production ReliablyDr. Arif Wider
A workshop by Danilo Sato, Christoph Windheuser, Emily Gorcenski, and Arif Wider, given at Strata Data Conference 2019 in London.
Abstract:
So you want to include a machine learning component in your IT systems? The process is a little more involved than clicking through an AI tutorial on your laptop. It’s not just the first working model you run that you need to consider; you also need to think about things like integration, scaling, and testing. What’s more, postlaunch, you’ll want to continuously adapt your model to respond to the changing environment.
ThoughtWorks pioneered continuous delivery—a set of tools and processes that ensure that software under development can be reliably released to production at any time and with high frequency.
Danilo Sato and Christoph Windheuser demonstrate how to apply continuous delivery to machine learning—what’s known as continuous intelligence. In a live scenario, you’ll change a machine learning model in a development environment, test its new performance, and, depending on the outcome, automatically deploy the new model into a production environment. The tech stack for this scenario will be Python, DVC (Data Science Version Control), and GoCD.
The document announces a workshop to define Cyber Engineering Objects (CEOs) which will enable engineering for future production. CEOs will comprehensively and openly describe engineering processes while remaining lightweight. The workshop will bring together process engineers, automation engineers, computer scientists, and artists. The key aspects of CEOs will be outlined and an initial prototype developed. Presentation of initial CEO ideas is planned for March 2017 with realization of CEOs targeted for July 2017.
Whitepaper: "Construction Lifecycle Management – a necessary business strateg...Ionel GRECESCU
Historically, Product Lifecycle Management vendors have supported AEC solutions while Enterprise Resource Planning vendors have been focusing on the EPC side of the AEC/EPC ecosystem.
It is time to adopt a holistic approach to Construction Lifecycle and both, PLM and ERP vendors, must provide new technologies and solutions to promote efficient collaboration between Construction disciplines and streamline Business Practices that result in increased profitability and significant savings for their customers.
Construction Lifecycle Management promotes new ways of thinking and doing business, aiming to achieve Lean by delivering an innovative Construction Process Integration framework to manage holistically all the phases of the Lifecycle of a Capital Asset: design, build, operate and retirement.
Meetup #3 - Cyber-physical view of the Internet of EverythingFrancesco Rago
The Internet of Everything (IoE) is built on the connections among people, processes, data, and internet of things. However, it is not about these four dimensions in isolation. Each amplifies the capabilities of the other three. It is in the intersection of all of these elements that the true power of Internet of Everything is realized.
We will examine the Cyber-physical view to explore Specification, Hybrid and Heterogeneous Models, Conceptual frameworks, Multiform Time, and much more.
An introduction to Industrie 4.0(Internet of Things), and its Potential impact on Supply Chain. Industrie 4.0, touted as the Game changer and a seed for next industrial revolution. Funded by German Bundes Ministerium fur Education & Technologie.
This document discusses Industry 4.0 and its six design principles: interoperability, virtualization, decentralization, real-time capability, service orientation, and modularity. It outlines opportunities of Industry 4.0 such as improved manufacturing processes, increased efficiency, new products and services, changed value chains, reduced risk, new growth opportunities, and improved sustainability. Examples of connected and smart products that have evolved are presented. The document asks what a smart factory is and provides options that it could involve robots replacing people, factories operating without human interaction, or factories organizing with human interaction.
Industry 4.0 technologies and their applications in fighting COVID-19 pandemicMileyJames
Industry 4.0 technologies such as wireless connectivity, sensors, artificial intelligence, and 3D printing can help address problems related to the COVID-19 pandemic. These technologies allow for smart manufacturing of medical supplies, remote treatment of patients to reduce risk to doctors, and virtual training. They also enable flexible working environments and provide innovations to identify misinformation. Industry 4.0 provides benefits like planning pandemic activities, manufacturing precautions, and assessing risks. It offers telemedicine for remote areas using sensors to monitor patients. These digital technologies support remote learning and share health guidance during lockdowns.
The Challenges of model based and traditional plmJos Voskuil
1) The document discusses the themes of digital transformation and product lifecycle management (PLM) from 2014 to 2020, focusing on the evolution from coordinated to connected systems.
2) It describes how connected systems using unified product structures and connected datasets can provide actual information to anyone connected in any context.
3) The document argues that digital transformation requires new ways of working involving different processes, people, and data, and that disruption is needed from governments, individuals, investors, businesses, and people to address sustainability challenges through system-level thinking.
The document describes the trend2ability method, a 5-step process for identifying trends relevant to a company and developing a roadmap. Step 1 involves identifying trends from various sources. Step 2 prioritizes trends based on their impact. Step 3 maps trends to business levels. Step 4 derives skills needs as user stories. Step 5 creates a roadmap ordering capabilities by priority and dependencies. The method was developed by Patrick Müller, Christina Rode-Schubert, and Uwe Fischer to help companies transform based on trends.
This document discusses the future of industry and robotics in Europe. It outlines the progression from Industry 1.0 through 4.0, highlighting key developments such as the first industrial robot in 1961. The document notes that 178,000 robots were shipped globally in 2013, with over 1.3 million in industrial use. It introduces collaborative robots that can work directly with humans. Examples of collaborative robots like Universal Robots, KUKA, and ABB models are provided. The European Commission has funded over €700 million for robotics innovation through 2020 to support developments towards Industry 4.0.
Requirements and challenges to employees and managers in the era of industry ...Martin Wolpers
The document summarizes a presentation on the requirements and challenges for employees and managers in the era of Industry 4.0. It discusses how digitalization and networked systems are changing workplace learning and industrial production. Specifically, it presents examples of new approaches to vocational training needed to address skills shortages. Key missing skills like creativity, problem solving and collaboration are identified. While new types of collaborative, self-reflective and on-the-job learning may help, the best combinations for Industry 4.0 vocational training remain unclear given the lack of experiences in this area.
Digital Architecture - Modern Technologies in ArchitectureÇelik Nimani
In today's economy, technology is part of every single aspect of our life. Digital architecture uses computer aided design, programming, simulation and images to create virtual forms and physical structures. The same can be said to refer to other aspects of architecture that are defined by digital technologies.
The document discusses how building information modeling (BIM) and structured product data can help improve building safety based on lessons from the Grenfell Tower fire. It emphasizes getting ready for upcoming compliance requirements, better information management across the building lifecycle using a "golden thread" approach, and understanding motivations to help manufacturers prepare. Structured and interoperable product data can provide living information to help avoid building safety tragedies.
ASAP meeting, University of Brescia 24 September 2019
Industry 4.0 can be a difficult concept to understand – where should we start?
… to describe use cases from both large and small industrial firms
… to provide a short set of lessons learnt to help others beginning their digitalisation transformation
Using actual cases from large and small firms to provide short case book of lessons learnt for other business who are starting their digital transformation
The workshop "Platforms for connected Factories of the Future" took place on 5 and 6 of October 2015 in Brussels. Main objective on the first workshop day was to give an overview on existing activities in industries and research regarding platforms for the manufacturing area.
This document discusses augmented reality (AR) technologies that can help small and medium enterprises (SMEs) adopt Industry 4.0 capabilities. It introduces enabling AR technologies like markers, displays, mobile devices and cloud computing. It presents case studies of companies using AR for applications like equipment training, maintenance and production monitoring. The document concludes that AR has high potential to help SMEs add value through supporting processes, though many are hesitant to invest in new technologies currently. Case studies provided may help SMEs understand how to leverage AR in their business under Industry 4.0 visions.
The MIDIH project aims to provide opportunities for SMEs in manufacturing through digital innovation hubs and reference architectures. It has a budget of over 8 million Euros from the EU and involves partners across Europe. The project focuses on developing edge computing, interoperability, data solutions, and experiments in areas like smart factories, products, and supply chains. It recently opened a call for proposals worth 960,000 Euros for SMEs to conduct technological or experimental projects using the MIDIH reference architecture.
A chamada Indústria 4.0 é uma das fronteiras da mudança tecnológica no mundo. A Alemanha é um dos países mais dinâmicos nesse processo. A própria expressão "Indústria 4.0" foi cunhada naquele país, onde ela representa, mais do que palavras, uma estratégia nacional. Para abordar os desafios que a Indústria 4.0 coloca para a Alemanha e também para o Brasil, a Fundação FHC recebe o chefe global de tecnologia e inovação da Siemens, Norbert Luetke-Entrup.
NORBERT LÜTKE-ENTRUP
Mestre e PhD em Física pela Universidade de Bonn (Alemanha) e pela Université Pierre et Marie Curie (Paris), é chefe do Departamento de Tecnologia Corporativa e Gestão da Inovação do Grupo Siemens. Atuou como consultor, líder de projeto e vice-presidente na sede da Siemens Management Consulting (SMC) em Munique, entre 2000 a 2008, e como vice-presidente administrativo do escritório da empresa em Pequim (China).
E-Commerce in einem Direktvertriebsmodell - Alexander T. Stampfl, HiltiUnic
This document discusses Hilti's approach to embedding e-business into its direct sales model. Hilti is a global leader in providing innovative products and services to construction professionals. It has a presence in over 120 countries and realizes over $4 billion in annual sales through its direct sales model. The document outlines how Hilti manages over 200,000 customer contacts per day across its account manager, customer service, retail, and e-business channels. It also discusses how Hilti's e-business platform addresses the needs of different customer groups through features that support transactions, service, and information access. Finally, the document concludes with an agenda that includes a live demo of Hilti's e-business capabilities.
Disruption extinction or still evolution - 2021Jos Voskuil
Presentation related to the PLM Road Map & PDT Spring 2021 conference addressing new technologies providing the needs to transform PLM trying to avoid disruption
Continuous Intelligence: Moving Machine Learning into Production ReliablyDr. Arif Wider
A workshop by Danilo Sato, Christoph Windheuser, Emily Gorcenski, and Arif Wider, given at Strata Data Conference 2019 in London.
Abstract:
So you want to include a machine learning component in your IT systems? The process is a little more involved than clicking through an AI tutorial on your laptop. It’s not just the first working model you run that you need to consider; you also need to think about things like integration, scaling, and testing. What’s more, postlaunch, you’ll want to continuously adapt your model to respond to the changing environment.
ThoughtWorks pioneered continuous delivery—a set of tools and processes that ensure that software under development can be reliably released to production at any time and with high frequency.
Danilo Sato and Christoph Windheuser demonstrate how to apply continuous delivery to machine learning—what’s known as continuous intelligence. In a live scenario, you’ll change a machine learning model in a development environment, test its new performance, and, depending on the outcome, automatically deploy the new model into a production environment. The tech stack for this scenario will be Python, DVC (Data Science Version Control), and GoCD.
The document announces a workshop to define Cyber Engineering Objects (CEOs) which will enable engineering for future production. CEOs will comprehensively and openly describe engineering processes while remaining lightweight. The workshop will bring together process engineers, automation engineers, computer scientists, and artists. The key aspects of CEOs will be outlined and an initial prototype developed. Presentation of initial CEO ideas is planned for March 2017 with realization of CEOs targeted for July 2017.
Whitepaper: "Construction Lifecycle Management – a necessary business strateg...Ionel GRECESCU
Historically, Product Lifecycle Management vendors have supported AEC solutions while Enterprise Resource Planning vendors have been focusing on the EPC side of the AEC/EPC ecosystem.
It is time to adopt a holistic approach to Construction Lifecycle and both, PLM and ERP vendors, must provide new technologies and solutions to promote efficient collaboration between Construction disciplines and streamline Business Practices that result in increased profitability and significant savings for their customers.
Construction Lifecycle Management promotes new ways of thinking and doing business, aiming to achieve Lean by delivering an innovative Construction Process Integration framework to manage holistically all the phases of the Lifecycle of a Capital Asset: design, build, operate and retirement.
Introduction – OPEN DEI Webinar "The role of the Reference Architectures in D...OPEN DEI
Introduction – OPEN DEI Webinar "The role of the Reference Architectures in Data-oriented Digital Platforms"
28 May 2020
Angelo Marguglio (Head of Smart Industry & Agri-food, Engineering)
Digital construction for integrated project deliveryStephen Au
The industrial challenges and the value proposition, how and what are the Digital Construction with some case studies are discussed in the presentation.
Sandro Maciocia from ABB presented on ABB's journey to digital transformation. He discussed ABB's new digital platform called ABB Ability, which uses common technologies like cloud, edge computing, and connected devices. This platform allows ABB to deliver new digital solutions and services to customers across utilities, industry, and transport & infrastructure. Maciocia provided two examples of digital projects - an advanced service concept for a large commercial building and a maintenance-free waste water pump solution. He also described ABB's Digital Collaboration Lab, which brings together customers, domain experts, and designers to co-innovate new digital products and solutions using methods like design thinking.
IRJET- Application of Revit as Building Information Modeling (BIM) for Integr...IRJET Journal
This document provides a review of applying Revit as a Building Information Modeling (BIM) tool for Integrated Project Delivery (IPD) on building construction projects. It discusses BIM and IPD, describing how BIM can facilitate collaboration and information sharing between project stakeholders in IPD. The document also reviews several research papers on topics like the benefits of BIM for design, construction, and facility management, challenges of implementing BIM and IPD, and best practices for BIM usage in commercial construction. It concludes that while BIM enables improvements in IPD, its full benefits require changes to traditional project delivery methods.
Lean Construction – Construction Process Integration framework, London Novemb...Ionel GRECESCU
Historically, Product Lifecycle Management vendors have supported AEC solutions while Enterprise Resource Planning vendors have been focusing on the EPC side of the AEC/EPC ecosystem.
It is time to adopt a holistic approach to Construction Lifecycle and both, PLM and ERP vendors, must provide new technologies and solutions to promote efficient collaboration between Construction disciplines and streamline Business Practices that result in increased profitability and significant savings for their customers.
Construction Lifecycle Management promotes new ways of thinking and doing business, aiming to achieve Lean by delivering an innovative Construction Process Integration framework to manage holistically all the phases of the Lifecycle of a Capital Asset: design, build, operate and retirement.
BOS - Industrie 4.0 – die Evolution der Fertigung am Beispiel des Fujitsu Wer...Fujitsu Central Europe
Breakout Session - Frank L. Blaimberger und Christof Schleidt
Wie entwickelte sich eine Fabrik in Richtung Industrie 4.0? Wie bindet man ein Ökosystem von Kunden und Partnern ein? Welche Rolle spielen dabei unterschiedliche Plattformen?
Fujitsu verfügt über ein innovatives Portfolio an Services und Technologien, um Industrie 4.0 zu ermöglichen. Sie sind im eigenen Werk in Augsburg bereits im Einsatz. Wir zeigen Ihnen, wie neue IoT-Technologien in die verschiedenen Fachbereiche effizient und mit Mehrwert implementiert werden können.
This document provides information about the "Internet of Manufacturing North America" conference happening on March 7-8, 2017 in Chicago. The two-day conference and pre-event workshop will focus on how manufacturers can capitalize on opportunities presented by the Internet of Things. It will include over 25 case studies from various manufacturers, presentations from industry leaders, and opportunities for networking and business meetings. Attendees will gain knowledge on using IoT to improve processes, products, and business performance. A pre-conference workshop and tour of a manufacturing facility will also be provided.
This document provides information about the "Internet of Manufacturing North America" conference happening on March 7-8, 2017 in Chicago. The two-day conference and pre-event workshop will focus on how manufacturers can capitalize on opportunities presented by the Internet of Things. It will include over 25 case studies from various manufacturers, presentations from industry leaders, and opportunities for networking and business meetings. Attendees will gain knowledge on using IoT to improve processes, products, and business performance. A pre-conference workshop and tour of a manufacturing facility will also be provided.
This document provides information about the "Internet of Manufacturing North America" conference happening on March 7-8, 2017 in Chicago. The two-day conference and pre-event workshop will focus on how manufacturers can capitalize on opportunities presented by the Internet of Things. It will include over 25 case studies from various manufacturers, presentations from industry leaders, and opportunities for networking and business meetings. Attendees will gain knowledge on using IoT to improve processes, products, and business performance. A pre-conference workshop and tour of a manufacturing facility will also be provided.
DrupalDay 2014 - Ecology of value and DRUPAL@Engineering: the experience of a...SpagoWorld
The presentation supported the speech given by Gabriele Ruffatti -Head of Engineering Group’s Open Source Competency Center- at DrupalDay, taking place in Milan (Italy) on 14th and 15th November 2014. www.spagoworld.org
About the IPD using BIM by Pisut Aunwong . It shows the description about the BIM with respect to Integrated Project Delivery IPD. IPD has been a hot topic and with respect to BIM has been the most research part of this decade.
This document discusses Building Information Modeling (BIM) and its benefits throughout the different phases of a building's lifecycle. BIM is a process that involves creating and managing digital representations of physical and functional characteristics of buildings. The document outlines the history of BIM and explains how it supports integrated project teamwork and decision making from design through construction, operations, and management. Key software that supports BIM implementation is also mentioned.
IRJET- 4D Simulation of MEP using Bim for Residential Building ProjectIRJET Journal
This document discusses 4D simulation of mechanical, electrical, and plumbing (MEP) systems using building information modeling (BIM) for a residential building project. It begins with an introduction to BIM and its benefits for project planning, design, and construction. Software used includes Autodesk Revit for the 3D building model, Autodesk Revit MEP for MEP modeling, and Autodesk Navisworks for 4D simulation and clash detection. A sample residential building project is modeled in these programs to demonstrate linking the 3D model to a schedule in Navisworks for 4D visualization and analysis of the construction process. The conclusions state that 4D BIM is an effective tool for construction scheduling,
Similar to Engineering2050 CYBER ENGINEERING OBJECTS (20)
Katalog zur Ausstellung Zentrifuge, 2009
Der Blick dieser Ausstellung richtete sich auf den Menschen und seine nähere gestaltete Umwelt: Werke Bildender Kunst traten in Dialog mit Objekten der Technik. Inwieweit steckt Kunst im Hardware-Zusatz eines Home-Computers - und überhaupt: Welche Analogien und Parallelen lassen sich zwischen Kunst und Computertechnik herstellen bzw. finden? In der Zentrifuge präsentierte der Sammler Wilfried Appelt eine ungewöhnliche, höchst subjektive Zusammenstellung seiner Sammlung: Beispiele von der Entwicklung mechanischer Rechenmaschinen bis zu den Anfängen der Home-Computer trafen auf ausgewählte Werke zeitgenössischer bildender Kunst. Nur auf den ersten Blick unvereinbare Bereiche traten in lebendige Beziehung zueinander.
ERFAHRUNGsPRODUKTion
Zentrifuge Nürnberg
Zeitgenössische Kunst im Zwischenraum industrieller Produktion
ERFARUNGsPRODUKTion zitiert Werke zeitgenössischer Kunst, die an einem Ort den man nicht als Kunstort kennt bereits vorhanden sind. Kunst, ihrem Wesen nach immer ein Fragment, erscheint als das Medium der Kommunikation von Kernideen. Sind wir erst einmal diesen Kernideen begegnet, stellt sich die Erfahrung des Wiedererkennens und Neuentdeckens an jeglichen Orten ein. Aufgrund unserer permanenten Erfahrungsproduktion sind die Dinge in ihrer Abwesenheit immer anwesend.
Maria Eichhorn / Bruce Naumann / Marcel Duchamp / Cy Twombly / So LeWitt / Roni Horn / Katharina Grosse / Olafur Eliasson / Candida Höfer / Kasimir Malewitsch / Gordon Matta Clark / Donald Judd / Frank Stella / Charlotte Posenenske / Franz West / Gerhard Richter / Lee Ufan / Dieter Roth / Henry Matisse / Günter Uecker / Lucio Fontana / Anselm Kiefer / Casper David Friedrich / Joseph Beuys / Otto Piene / Francois Morellet / Edward Hopper / Laszlo Moholy Nagy / Gerhard Merz / Georg Winter / Ilya Kabakow
Forschung mit Mitteln und aus Perspektiven der Kunst
"Forschende Kunst" ist ein grenzüberschreitendes, ästhetisch und gesellschaftlich ambitioniertes Projekt der Zentrifuge. Mit Partnern aus Kunst, Wissenschaft und Wirtschaft arbeitet die Zentrifuge über einen längeren Zeitraum heraus, wie „Neues“ durch die Kunst in die Welt kommt - und zwar geschieht dies auf fundamental andere Weise als durch herkömmliche, rein betriebswirtschaftliche bzw. unternehmerische oder serviceorientierte Denkweisen. Die Modellierung und Anwendung dieses Prozesses fördert interdisziplinäres Arbeiten in innovativer und ganzheitlicher Absicht.
https://forschendekunst.weebly.com/
Forschung mit Mitteln und aus Perspektiven der Kunst
"Forschende Kunst" ist ein grenzüberschreitendes, ästhetisch und gesellschaftlich ambitioniertes Projekt der Zentrifuge. Mit Partnern aus Kunst, Wissenschaft und Wirtschaft arbeitet die Zentrifuge über einen längeren Zeitraum heraus, wie „Neues“ durch die Kunst in die Welt kommt - und zwar geschieht dies auf fundamental andere Weise als durch herkömmliche, rein betriebswirtschaftliche bzw. unternehmerische oder serviceorientierte Denkweisen. Die Modellierung und Anwendung dieses Prozesses fördert interdisziplinäres Arbeiten in innovativer und ganzheitlicher Absicht.
https://forschendekunst.weebly.com/
Ort für Mensch, Natur und Kunst
wundersam schafft einen innovativen Kreativraum für die
Begegnung von Mensch und Natur. Es ist zugleich ein Ort
der Stille, der Wahrnehmung und der Achtsamkeit.
In dieser offenen, transkulturellen Begegnungsstätte wird
das Thema „Mensch und Natur“ im urbanen Raum erforscht
und herausgearbeitet.
Es finden u.a. Workshops, Vorträge, Natur-Exkursionen und
Gesprächsrunden statt. Die sich daraus entwickelnden
künstlerisch-kreativen Aktivitäten sowie dem Projekt nahe
stehende Künstler*innen und Engagierte werden u.a. in
Ausstellungen und Aufführungen vorgestellt.
Vortrag auf dem 2. Markt &Technik Summit „Industrie 4.0“, 14./15. Oktober 2015.
Matthias Barbian
VDI Bayern Nordost / VDE Nordbayern
Dr. Ronald Künneth
IHK Nürnberg für Mittelfranken
Prof. Dr. Kathrin Möslein, Sascha Oks
Friedrich-Alexander-Universität Erlangen-Nürnberg
Mittwoch, 15. Oktober 2015
2. Markt &Technik Summit „Industrie 4.0“, München
Die Zentrifuge ist im Zuge der postindustriellen Transformation Auf AEG entstanden. Im Jahr 2008 begann die Zentrifuge Kunstausstellungen in einer verlassenen Industriehalle auf dem stilllgelegten Gelände zu realisieren. Die Zentrifuge war damit einer der ersten kulturellen Nutzer auf dem Gelände.
Die Zentrifuge agiert heute als eine weit über die Region hinaus wirkende Entwicklungs- und Kreativplattform.
Batteries -Introduction – Types of Batteries – discharging and charging of battery - characteristics of battery –battery rating- various tests on battery- – Primary battery: silver button cell- Secondary battery :Ni-Cd battery-modern battery: lithium ion battery-maintenance of batteries-choices of batteries for electric vehicle applications.
Fuel Cells: Introduction- importance and classification of fuel cells - description, principle, components, applications of fuel cells: H2-O2 fuel cell, alkaline fuel cell, molten carbonate fuel cell and direct methanol fuel cells.
Discover the latest insights on Data Driven Maintenance with our comprehensive webinar presentation. Learn about traditional maintenance challenges, the right approach to utilizing data, and the benefits of adopting a Data Driven Maintenance strategy. Explore real-world examples, industry best practices, and innovative solutions like FMECA and the D3M model. This presentation, led by expert Jules Oudmans, is essential for asset owners looking to optimize their maintenance processes and leverage digital technologies for improved efficiency and performance. Download now to stay ahead in the evolving maintenance landscape.
Design and optimization of ion propulsion dronebjmsejournal
Electric propulsion technology is widely used in many kinds of vehicles in recent years, and aircrafts are no exception. Technically, UAVs are electrically propelled but tend to produce a significant amount of noise and vibrations. Ion propulsion technology for drones is a potential solution to this problem. Ion propulsion technology is proven to be feasible in the earth’s atmosphere. The study presented in this article shows the design of EHD thrusters and power supply for ion propulsion drones along with performance optimization of high-voltage power supply for endurance in earth’s atmosphere.
Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
as Design technique: Modeling, abstraction, The Three models. Class Modeling: Object and Class Concept, Link and associations concepts, Generalization and Inheritance, A sample class model, Navigation of class models, and UML diagrams
Building the Analysis Models: Requirement Analysis, Analysis Model Approaches, Data modeling Concepts, Object Oriented Analysis, Scenario-Based Modeling, Flow-Oriented Modeling, class Based Modeling, Creating a Behavioral Model.
Redefining brain tumor segmentation: a cutting-edge convolutional neural netw...IJECEIAES
Medical image analysis has witnessed significant advancements with deep learning techniques. In the domain of brain tumor segmentation, the ability to
precisely delineate tumor boundaries from magnetic resonance imaging (MRI)
scans holds profound implications for diagnosis. This study presents an ensemble convolutional neural network (CNN) with transfer learning, integrating
the state-of-the-art Deeplabv3+ architecture with the ResNet18 backbone. The
model is rigorously trained and evaluated, exhibiting remarkable performance
metrics, including an impressive global accuracy of 99.286%, a high-class accuracy of 82.191%, a mean intersection over union (IoU) of 79.900%, a weighted
IoU of 98.620%, and a Boundary F1 (BF) score of 83.303%. Notably, a detailed comparative analysis with existing methods showcases the superiority of
our proposed model. These findings underscore the model’s competence in precise brain tumor localization, underscoring its potential to revolutionize medical
image analysis and enhance healthcare outcomes. This research paves the way
for future exploration and optimization of advanced CNN models in medical
imaging, emphasizing addressing false positives and resource efficiency.
3. ENGINEERING 2050 III_2017
DIPL.-ING. MATTHIAS BARBIAN
STRATEGY & PROJECT MANAGEMENT
E NGINEERING CONSULTING
MICHAEL SCHELS
PUBLIC RELATIONS
CREATIVE INDUSTRIES
DIPL.-ING. RAINER OHNMEISS
ENGINEERING CONSULTING
AUTOMATION
RONALD ZEHMEISTER, MBA
FUTURE STUDIES
EMBEDDED SOFTWARE DEVELOPMENT
DIPL.-ING. FRANK WOLTER
AUTOMATION
R&D
IGNAZIO TOLA
II_2014
VORSPRUNG
3
4. I_2013
World Creativity Café
Concept finding for engineering and
the production of the future
II_2014
Ignazio Tola VORSPRUNG
Interdisciplinary inspiration, competition
of artists and international networking
III_2017
WORKSHOP
Cyber Engineering Objects
January 2017
IV_2017
HACKATHON_EN2050
Cyber Engineering Objects
November 2017
ENGINEERING 2050 III_20174
5. WELCOME
Benjamin Bauer,
ZOLLHOF – Entrepreneurship Centre
WORKSHOP INTRODUCTION
by ENGINEERING 2050-Team
Matthias Barbian, Michael Schels, Rainer Ohnmeiss,
Ronald Zehmeister, Frank Wolter
ART OF BREWERY!
Stefan Stretz, Schanzenbräu
VISION OF PLANT ENGINEERING
Klaus Indefrey,
Siemens AG
ENGINEERING AND AESTHETICS
Prof. Dr. Stefanie Voigt,
Business Aesthetics Academy +
Universität Augsburg +
Memorial University of Newfoundland
III_2017
CYBER ENGINEERING OBJECTS
JANUARY 2017
ENGINEERING 2050 III_20175
6. BREWER
AUTHORITIES
CONSUMER
PUBLIC
PLANT ENGINEER
EDUCATION
BUSINESSMAN
SUPPLIER
CREATIVE PERSON
SOFTWARE ARCHITECT
ENGINEERING 2050 III_20176
III_2017
WORKSHOP QUESTIONS
CYBER ENGINEERING OBJECTS
JANUARY 2017
How can a brewery
planned with CEOs
help the brewer?
What must a CEO
fulfill to be usefull
for authorities?
How do CEOs
support the
beer drinker as
consumer?
How can CEOs
be used as base
for democratic
evaluation of the
planning process?
Which are the CEO
requirements for
planning a brewery?
How do we
prepare our children
for CEOs?
How can a CEO also
support
businessmen?
Why should a
supplier provide
CEOs for
his product?
What are the wishes
of creative people
towards CEOs?
What will be the
software architecture
for a CEO?
7. HUMAN ASPECTS
Wish-fulfillment
Appreciate and stimulation
of creativity
Learning,
Playful connection to the
working world
Networking,
Contribution to project
Tie knowledge and creativity
Democratic production
Turning away from estranged work
Pay attention to human
Freedom and varied work
Working with pleasure
Awareness raising model
Awareness raising and perception
In tune with nature
QUALITY
REQUIREMENTS
Consistency of planning
aspects
Public processes
Know How Protection
Collaboration, cooperation
and co-creation
Clear planning result,
well documented and consistent
Printed/Archived documentation
Indelible documentation
Open Source
Block Chain
Open Eco System Network
Product Know How must be protected
Generate ideas for better planning,
self learning
Simple and easy to use
human machine interface
COMMERCIAL ASPECTS
CEO as sales promotion
CEO as showcase/advertisement
Win|Win:
Cooperative collaboration
Protection of the individual
contribution
Generating revenue from using
my Engineering Objects (EO)
Concurrent calculation
Legal Frame
FUNCTIONAL
REQUIREMENTS
Reusable planning
Information! Alternatives!
Support creative processes
Simulation of production plant
Holistic education
Transfer planning results
to operation|maintenance
Efficient planning, fast, correct
Variants
Agile planning process:
Easy modification
The planned shall be of
outstanding quality, shall be
adaptable and shall allow
efficient and flexible production
Visual presentation of planning
Transparent cost calculation
Validation, simulation of planning
results
Visualization for non technical
experts
ENGINEERING 2050 III_20177
III_2017
CONSOLIDATED RESULTS OF THE WORKSHOP
CYBER ENGINEERING OBJECTS
JANUARY 2017
9. ENGINEERING 2050 III_20179
III_2017
CONCEPT FOR CEO ECOSYSTEM II
CYBER ENGINEERING OBJECTS
JANUARY 2017
CEO PROVIDER
HARDWARE SUPPLIER
Provide EOs for their products:
» Motors/Drives
» Bubblers
» Sensors
» Wires, Cables, Terminals
EO PROVIDER
MÜLLER DRIVE
TECHNOLOGIES
CADEFIX
2D AND 3D
PLANNING
EO PROVIDER
MAIER BEST
BUBBLERS
INSTRUMENTATION
AND CONTROL
PLANNING
EO PROVIDER
SENSORS OF ALL KINDS
SIMUFIX
CEO COMMUNITY
PLANNING
BEST BREWERIES IN
THE WORLD
» Provides CEO and EO specifications
» Maintains CEO definition
» Maintains/Adds interface specifications
» Maintains CEO engineering model
Planning office providing planning
for breweries of all types and sizes.
USES
CEO from EO Providers and
Tools from Tool Providers
TOOL PROVIDER
APPLICATIONS:
Provide Engineering Tools
using CEO
and its object model
10. ENGINEERING 2050
CY B ER EN GIN EERIN G OBJECTS
INDUSTRIAL INTERNET CONSORTIUM INDUSTRIE DU FUTUR FABBRICA INTELLIGENTEHIGH VALUE MANUFACTURING CATAPULT ROBOT REVOLUTION INITIATIVEMADE IN CHINA 2025
INDUSTRIE 4.0
ENGINEERING 2050 III_201710
11. AND STRENGTHENS THE COOPERATION BETWEEN
(INTER)REGIONAL PLAYERS.
THE PROJECT ADDRESSES ENTREPRENEURS AND SCIENTISTS
IV_2017
HACKATHON_EN2050
Cyber Engineering Objects
November 2017
ENGINEERING 2050 III_201711