Horizontal Integration, collaboration is key

Transcription

1 Horizontal Integration, collaboration is key Johannes Diemer, HPE Working Group Research & Innovation 2nd Czech-German Workshop on Industrie 4.0 December 12 th, 2016 in Berlin Copyright Hewlett Packard Enterprise Illustration Pedro Stoichita

2 Working Group Research & Innovation Objectives and emphases Scenarios Making Industrie 4.0 tangible Maintain and further develop the description of scenarios Explain the value of Industrie 4.0 for SMBs by using scenarios R&D-Foci and Innovation strategies Continuous development of the foci themes for research (PoV Industry) Presenting and discussion with Ministries of the federal government Alignment with Board of Academic Advisors 2

3 Mapping scenarios on processes in manufacturing companies Product Lifecycle Management (PLM) Product (product design) Development Product Line Planning Product Line Maintenance Discontinuation Management Production System Lifecycle Management (PSLM) (production planning) Factory and Production Planning Production Engineering Maintenance and Disposal Planning Service PSLM Erection (production engineering) Factory Operation Service Basis GMA 7.21 manufacturing company product(type) based production system based order based service based

4 Mapping scenarios on processes in manufacturing companies Customer Product Lifecycle Management (PLM) Product (product design) Development Product Line Planning Product Line Maintenance Discontinuation Management Production System Lifecycle Management (PSLM) (production planning) Factory and Production Planning Production Engineering Maintenance and Disposal Planning Service PSLM Erection (production engineering) Factory Operation Service Basis GMA 7.21 manufacturing company product(type) based production system based order based service based

5 Mapping scenarios on processes in manufacturing companies Customer Product Lifecycle Management (PLM) Product IPD (product design) Development Factory and Production Planning Production Engineering Product Line Planning Production System Lifecycle Management (PSLM) (production planning) SP2 Maintenance and Disposal Planning Product Line Maintenance SAL Discontinuation Management CRE Service TAP AF PSLM Erection (production engineering) Factory HTI Operation OCP VBS Service Basis GMA 7.21 manufacturing company product(type) based production system based order based service based

6 Application Scenarios OCP Order-Controlled Production AF Adaptable Factory SAL Self-organising Adaptive Logistics VBS Value Based Services TAP Transparency and Adaptability of delivered Products HTI Human-Technology-Interaction in the Production SP2 Smart Product Development for Smart Production IPD Innovative Product Development SDP Seamless and Dynamic Plant Engineering CRE Circular Economy

7 Horizontal Integration, collaboration is key Application Scenarios OCP Order-Controlled Production AF Adaptable Factory SAL Self-organising Adaptive Logistics VBS Value Based Services TAP Transparency and Adaptability of delivered Products HTI Human-Technology-Interaction in the Production SP2 Smart Product Development for Smart Production IPD Innovative Product Development SDP Seamless and Dynamic Plant Engineering CRE Circular Economy

8 Today Tomorrow Future Structure Examples, Scenarios, Testbeds Vision Paper Use Cases OCP Order- Controlled Production Application Scenario Demonstrator Testbed Showcase Product, Solution, Service Problem Space Conception Solution Space Implementation

9 Application Scenario OCP Order-Controlled Production Autonomous and automated interconnection of production capabilities beyond factory boundaries for portfolio optimisation according to customer and market demands Flexible manufacturing configuration: A network of production capabilities and capacities that extend beyond factory and company boundaries allows for a quick order-controlled adaption to changing market and order conditions Customer Client Contractor Broker Client Contractor Largely fragmented and dynamic value chain network that change as required by the individual order, and thereby make the best use of capabilities and capacities of existing production facilities. Need for standardisation of the individual process steps and the self-description of production facility capabilities Goal: Allow for automated order planning, allocation and execution, thereby considering all production steps and facilities required to facilitate linking external factories into a company s production process, as automated as possible. 9

10 Application Scenario HTI Human-Technology- Interaction in the Production Human-technology-human interaction for assisting humans as actors in the manufacturing process Industrie 4.0 supports humans in various aspects in their various production activities Physical assistance by using equipment to enhance physical capabilities (capability reinforcement) Context-related assistance provides support in analysis and decision-making during diagnosis of technical malfunctioning and in complex operational processes On-site maintenance and planning assistance Mobile, personalized and situation-specific learning systems 14

11 IMPORTANT RESEARCH TOPICS FOR IMPLEMENTING THE APPLICATION SCENARIOS

12 Semantics and models for Industrie 4.0 The application examples demonstrate the main challenge for objects involved in value added They must be capable of automatically interpreting each other s roles and understanding each other. New methods and processes are needed for creating and qualifying adaptive and agile semantics.

13 Negotiation and contract award in automated value networks Negotiation and contract award in automated value networks The application examples support the main proposition that, in the future, supply and demand will automatically find each other in value added processes and will automatically interconnect in creating value added process steps. Initiation and conclusion of business transactions must therefore also be automated.

14 Systems engineering for variable systems Systems engineering for variable systems Products and resources must be capable of being adjusted over their life cycles to changing requirements and needs not fore-seeable at the time the product was developed. This requires a new methodology for developing systems that goes beyond today s systems engineering.

15 Logistics 4.0 self-organizing and adaptive Logistics is a core element of horizontal connectivity along the value chain, from raw materials supply to supply and waste removal for production facilities, up to distribution of goods and delivery to the end user. An important focus of research in this regard is also resource management connectivity.

16 Organization of work, assistance systems and the human digital shadow The application scenarios describe how a fundamentally new form of interaction between humans and machines can influence not only production and logistics, but also engineering and service. Smart devices and smart wearables will increasingly make it possibly for humans to interact with so-called social machines, and powerful assistance systems will also guide engineers in increasingly complex decision-making processes.

17 Online Library Industrie 4.0 Publications of all Working Groups Knowledge Database The online library of the Plattform Industrie 4.0 is a constantly growing collection of knowledge of all topics of Industrie It contains all the work of the working groups of the platform, but also strategy papers of the Federal Government and studies of our partners.. Latest Paper of Working Group Research & Innovation: Aspects of the Research Roadmap in Application Scenarios

18 The betterment of our society is not a job to be left to a few. It is a responsibility to be shared by all David Packard

19 The betterment of our society is not a job to be left to a few. It is a responsibility to be shared by all David Packard Thank you