DOCSLIB.ORG

D8.3 Report on the Standardization Landscape and Applicable Standards

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
D8.3 Report on the Standardization Landscape and Applicable Standards D8.3 Report on the standardization landscape and applicable standards Project ref. no. H2020-NMBP-FOF-2018 Nº 820807 Project title Safe and effective human-robot cooperation towards a better competiveness on current automation lack manufacturing processes. Project duration 1st November 2018 – 31st October 2022 (42 months) Website www.SHAREWORK-project.eu Related WP/Task WP8 / T8.3.1 Dissemination level CONFIDENTIAL Document due date 30/04/2019 (M6) Actual delivery date 30/04/2019 Deliverable leader UNE Document status Submitted This project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 820807 Revision History Version Date Author Document history/approvals 1.0 15/03/2019 Amanda Suo (UNE) First Draft version 1.0 24/04/2019 Lena Winkler Review (FRAUNHOFER) 1.0 30/04/2019 Jesús Pablo González Submission (EUT) D8.3. Report on the standardization landscape and applicable standards | Page 2 of 96 Executive Summary This deliverable D8.3 “Report on Standardization landscape and applicable standards” (M6) is the first deliverable for task T8.3 “Standardization activities” inside WP8 “Exploitation, Standardization, Dissemination and Communication”. The main objective of this task is to facilitate the acceptance and utilization by the market of the developed solutions. Other objectives are to provide starting information for other WPs, ensure compatibility and interoperability with what already exists in the market through standards, as well as to use the standardization system as a tool for dissemination of the project results and interaction with the market stakeholders. The standardization activities planned in this task to fulfil the above objectives will be considered under two specific activities, which are mutually linked: the identification and analysis of related existing standards and the contribution to the ongoing and future standardization developments from the results of the project. The participation of a Standardization Body, representing CEN and CENELEC, provides the relevance, knowledge and experience in the standardization system and its internal procedures. This first delivery provides, analysis of the available and applicable standardization landscape, starting from needs of other WPs about existing standards that can be related, as well as the related Standardization Committees and organizations involved, in order to ensure compatibility and interoperability of SHAREWORK and facilitate the acceptance and utilization by the market of the developed solutions. The Spanish Association for Standardization, UNE, (previous called AENOR), as National Standardization Body (NSB), member of CEN-CENELEC has been subcontracted by SHAREWORK (EURECAT – the coordinator) to provide support regarding the standardization tasks included in the project (WP8 - Exploitation, Standardization, Dissemination and Communication). D8.3. Report on the standardization landscape and applicable standards | Page 3 of 96 Table of Contents REVISION HISTORY ............................................................................................................ 2 EXECUTIVE SUMMARY ....................................................................................................... 3 LIST OF FIGURES ................................................................................................................ 5 LIST OF TABLES ................................................................................................................. 6 TERMINOLOGY AND ACRONYMS ..................................................................................... 7 1. INTRODUCTION ................................................................................................. 8 1.1 Summary and scope ............................................................................................... 8 1.2 Project presentation overview ................................................................................. 8 1.3 Short introduction about standardization ................................................................. 9 2. METHODOLOGY ...............................................................................................13 2.1 List of key concepts ................................................................................................13 2.2 Standards and standards under development ........................................................13 2.3 Draft of Technical Committees identified ................................................................14 2.4 Reference of the relevant standards to be considered as compliance requirements 14 2.5 Classification of identified standards ......................................................................14 3. RELEVANT STANDARDIZATION AREAS RELATED TO SHAREWORK ........16 3.1 Identified Standards related to the project ..............................................................16 3.1.1 Robot/Robotics.................................................................................................17 3.1.2 Automation Systems and Integration ...........................................................24 3.1.3 Artificial Intelligence .....................................................................................26 3.1.4 Ergonomics & Anthropometry ......................................................................28 3.1.5 Ergonomics of Human-System Interaction ...................................................33 3.1.6 Ethics in Robot Design ................................................................................38 3.1.7 Health and Safety ........................................................................................39 3.1.8 Industrial Automation System ......................................................................40 3.1.9 Industrial Process Measurement, Control and Automation...........................44 3.1.10 Interoperability .........................................................................................46 3.1.11 Internet of Things .....................................................................................48 3.1.12 Industrial Security .....................................................................................49 3.1.13 Learning, Education and Training .............................................................56 3.1.14 Lighting ....................................................................................................57 3.1.15 Personal Protective Equipment ................................................................58 3.1.16 Safety of Machinery .................................................................................59 3.1.17 Universal Accessibility and Design for All .................................................67 3.1.18 Vibration ...................................................................................................68 3.1.19 Virtual Reality (VR), Augmented/Mixed Reality (AR/MR) ..........................69 3.2 General information and Scopes for relevant standards identified ..........................72 4. CONCLUSIONS .................................................................................................94 5. REFERENCES ...................................................................................................96 D8.3. Report on the standardization landscape and applicable standards | Page 4 of 96 LIST OF FIGURES Figure 1.1 - Possible tracks of standards adoption ...............................................................11 Figure 1.2 – Example of identification of elements in the code of a standard ........................12 Figure 3.1 - Organization of ISO TC 299 ..............................................................................17 Figure 3.2 - Combination of Technical Measures and Processes .........................................49 Figure 3.3 - Structure of IEC 62443 Standards Series ..........................................................74 Figure 3.4 Attributes of IEC 61499. Topics addressed by compliance profiles ......................89 D8.3. Report on the standardization landscape and applicable standards | Page 5 of 96 List of Tables Table 1.1 – Characteristics of different standardization documents ......................................10 Table 2.1 – List of key concepts as a starting point for the identification of standardization areas .............................................................................................................................................13 Table 4.1 - Relevant Standardization Technical Committees to SHAREWORK ....................95 D8.3. Report on the standardization landscape and applicable standards | Page 6 of 96 Terminology and Acronyms AGV Automated Guided Vehicle AM Additive Manufacturing ANSI American National Standards Institute BSI British Standards Institution CEN European Committee for Standardization CENELEC (CLC) European Committee for Standardization in the Electrical field CWA CEN or CENELEC Workshop Agreement EN European Standard ETSI European Telecommunications Standards Institute FA Frankfurt Agreement HRI Human Robot Interaction ISO International Organization for Standardization; International Standard IEC International Electrotechnical Commission; International Standards ITU International Triathlon Union NSB National Standardization Body PAS Publicly Available Specification RIA Robotic Industries Association OPC Open Platform Communications SC Subcommittee TC Technical Committee TR Technical Report TS Technical Specification
Load more

Recommended publications
  • Master's Degree Thesis Report Implementation of IEC 61499
    Master’s Degree Thesis Report Karthik Gopinath Sharma [email protected] September 19, 2019 Implementation of IEC 61499 Applications for Centralized Power System Protection Platform SUPERVISORS Prof. Oriol Gomis Bellmunt(UPC) Tin Rabuzin (KTH) Escola Tecnica` Superior d’Enginyeria Industrial de Barcelona 1 Page No. 1 Acknowledgements To InnoEnergy Master’s School for giving me two years of free and superior edu- cation in the field of Smart Grids and Renewable Energy I could ever ask for. To UPC, Barcelona and KTH, Stockholm two of the finest universities along with the best professors and friends enabling me to enjoy the journey throughout my double master’s degree. To my supervisors, Oriol Gomis Bellmunt and Tin Rabuzin, for allowing me to pursue this project as part of my master thesis and being there with me throughout the dura- tion of the Master Thesis guiding me with their knowledge and experience. To Alois Zoitl, for taking his precious time out in helping me to understand a criti- cal issue during the project. To my family, for being my support always. Page No. 2 Abstract With the onset of distributed energy resources in the electricity generation, the sce- narios for protection and automation are becoming challenging. Even with guidelines like IEC61850 which focuses on digital substations there is a big issue in terms of inte- grating systems from different vendors. On the other hand IEC 61499 is moving ahead with enabling distributed automation and control in Industrial environment. This report aims to answer if it is possible to design an IED based on IEC61850 us- ing IEC61499.
    [Show full text]
  • Standards Action Layout SAV3533.Fp5
    PUBLISHED WEEKLY BY THE AMERICAN NATIONAL STANDARDS INSTITUTE 25 West 43rd Street, NY, NY 10036 VOL. 35, #33 August 13, 2004 Contents American National Standards Call for Comment on Standards Proposals ................................................ 2 Call for Comment Contact Information ....................................................... 6 Final Actions.................................................................................................. 8 Project Initiation Notification System (PINS).............................................. 10 International Standards ISO and IEC Newly Published Standards.................................................... 14 CEN/CENELEC ................................................................................................ 16 Registration of Organization Names in the U.S............................................ 19 Proposed Foreign Government Regulations................................................ 19 Information Concerning ................................................................................. 20 Standards Action is now available via the World Wide Web For your convenience Standards Action can now be down- loaded from the following web address: http://www.ansi.org/news_publications/periodicals/standards _action/standards_action.aspx?menuid=7 American National Standards Call for comment on proposals listed This section solicits public comments on proposed draft new American National Standards, including the national adoption of Ordering Instructions for "Call-for-Comment"
    [Show full text]
  • List of Published Standards
    Report Date : 2021-09-17 Cost Centre(s) : % LIST OF PUBLISHED STANDARDS Page No : 1 Of 3 Total Count: 41 Committee SANS Date Latest Reaffirmation Review/ Number Number Int Ed Ed Sansified Title Approved Amendment due Revision SABS/TC 165 SANS 60654-1:2017/IEC 60654-1:1993 2 1 Y Industrial-process measurement and control 2017-06-23 2022-06-23 equipment - operating conditions - Part 1: Climatic conditions SANS 61131-1:2017/IEC 61131-1:2003 2 Y Programmable controllers Part 1: General 2017-10-13 2022-10-13 information SANS 61131-2:2018/IEC 61131-2:2007 2 Y Programmable controllers Part 2: Equipment 2018-12-07 2023-12-07 requirements and tests SANS 61131-3:2018/IEC 61131-3:2013 2 Y Programmable controllers Part 3: 2018-07-20 2023-07-20 Programming languages SATR 61131-4:2017/IEC TR 61131-4:2004 1 Y Programmable controllers Part 4: User 2017-12-15 2022-12-15 guidelines SANS 61131-5:2018/IEC 61131-5:2000 1 Y Programmable controllers - Part 5: 2018-02-23 2023-02-23 Communications SANS 61131-6:2018/IEC 61131-6:2012 1 Y Programmable controllers - Part 6: Functional 2018-05-25 2023-05-25 safety SANS 61131-7:2018/IEC 61131-7:2000 1 Y Programmable controllers - Part 7:Fuzzy 2018-02-23 2023-02-23 control programming SATR 61131-8:2019/IEC TR 61131-8:2003 1 Y Programmable controllers - Part 8: Guidelines 2019-11-22 2024-11-22 for the application and implementation of programming languages SANS 61131-9:2020/IEC 61131-9:2013 1 Y Programmable controllers - Part 9: Single- 2020-05-29 2025-05-29 drop digital communication interface for small sensors and actuators (SDCI) SANS 61158-3-2:2021/IEC 61158-3-2:2019 2.1 1 Y Industrial communication networks - Fieldbus 2021-07-16 1 I A 2021-07-16 2026-07-16 specifications - Part 3-2: Data-link layer service definition - Type 2 elements.
    [Show full text]
  • System Manual Pdm360smart Monitor CR1070 CR1071 Codesys® V2.3 Target V05 English
    System Manual PDM360smart monitor CR1070 CR1071 CoDeSys® V2.3 Target V05 English 7390674_01_UK 2012-05-16 2012-05-16 7390674_01_UK ifm System Manual ecomatmobile PDM360smart (CR1070, CR1071) Target V05 2012-05-16 Contents Contents 1 About this manual 7 1.1 What do the symbols and formats mean? ......................................................................7 1.2 How is this manual structured?.......................................................................................8 2 Safety instructions 9 2.1 Important!........................................................................................................................9 2.2 What previous knowledge is required?.........................................................................10 3 System description 11 3.1 Information concerning the device................................................................................11 3.2 Information concerning the software.............................................................................11 3.3 PLC configuration .........................................................................................................12 4 Configurations 13 4.1 Set device parameters (setup)......................................................................................13 4.1.1 Start set-up ..............................................................................................................14 4.1.2 Show the current device settings.............................................................................15 4.1.3 Change
    [Show full text]
  • NORSOK STANDARD R-002 Edition 2, September 2012
    NORSOK STANDARD R-002 Edition 2, September 2012 Lifting equipment This NORSOK standard is developed with broad petroleum industry participation by interested parties in the Norwegian petroleum industry and is owned by the Norwegian petroleum industry represented by The Norwegian Oil Industry Association (OLF) and The Federation of Norwegian Industry. Please note that whilst every effort has been made to ensure the accuracy of this NORSOK standard, neither OLF nor The Federation of Norwegian Industry or any of their members will assume liability for any use thereof. Standards Norway is responsible for the administration and publication of this NORSOK standard. Standards Norway Telephone: + 47 67 83 86 00 Strandveien 18, P.O. Box 242 Fax: + 47 67 83 86 01 N-1326 Lysaker Email: [email protected] NORWAY Website: www.standard.no/petroleum Copyrights reserved Foreword 3 Introduction 3 1 Scope 4 2 Normative and informative references 4 2.1 Normative references 4 2.2 Informative references 8 3 Terms, definitions and abbreviations 8 3.1 Terms and definitions 8 3.2 Abbreviations 13 4 General safety requirements 13 4.1 Safety 13 4.2 Fitness for use 13 4.3 Reliability and availability 14 4.4 Principle of safety integration 14 4.5 Inherently safe design measures 14 4.6 Safeguarding and complementary protective measures 14 4.7 Information for use 14 4.8 Strength proportion 14 4.9 Maintenance 15 4.10 Quality management system 15 4.11 Risk assessment 15 4.12 Risk reduction 17 4.13 Documentation of risk assessment 17 4.14 Verification 18 4.15 Qualification
    [Show full text]
  • Smart Reconfiguration of Distribution Grids Using Agent-Based Technology
    FACULDADE DE ENGENHARIA DA UNIVERSIDADE DO PORTO Smart Reconfiguration of Distribution Grids using Agent-based Technology Matheus Macedo Lopes Dissertation conducted under the Master’s in Electrical and Computers Engineering Program - Major Energy Supervisor: Prof. Vladimiro Miranda , Ph.D. Co-Supervisor: Prof. Diego Issicaba , Ph.D. July 28, 2016 © Matheus Macedo Lopes, 2016 Resumo As manobras de isolamento para reconfiguração em redes de distribuição de média tensão são tradicionalmente manuais ou dependem de decisões tomadas pelos operadores de rede. A abor- dagem proposta assume uma arquitetura onde os agentes interagem em um ambiente de rede de distribuição simulado a partir do estabelecimento de metas projetadas seguindo o paradigma de orientação mulit-agente. A aplicação é implementada de tal forma que agentes AgentSpeak in- teragem entre eles através de uma comunicação baseada em ato de fala/comunicação, bem como com um ambiente desenvolvido em linguagem JAVA. Neste contexto, esta tese propõe a modelagem e verificação de soluções baseadas em agentes para apoiar as operações de reconfiguração em redes de distribuição em nível de média tensão. A metodologia foi utilizada para apoiar as actividades dos operadores de redes de distribuição por meio de planos de restabelecimento de energia para ajudar em casos de falhas permanentes. As abordagens empregadas para arquitetura de agentes para a reconfiguração foram baseadas em modelo hierárquico e uma abordagem totalmente descentralizada. A capabilidade dos agentes foram desenvolvidas prevendo as possiveis aplicações do sistema de distribuição com foco em procedimentos de gestão des interrupções de service. As abordagens foram testadas em um ali- mentador teste trifásico do IEEE de 123 nós.
    [Show full text]
  • Standards News Late August 2014 Volume 18, Number 16 Table of Contents Uno, Dos, Tres Documentos Para Revisión Pública
    PLASA Standards News Late August 2014 Volume 18, Number 16 Table of Contents Uno, dos, tres documentos para revisión pública.............................................................................................1 Please Donate to the TSP................................................................................................................................ 2 Fifteen Minutes and 36 Seconds of Fame........................................................................................................2 What's an American National Standard anyway?.............................................................................................2 WTO Technical Barrier to Trade Notifications...................................................................................................2 Chile Notification CHL/278............................................................................................................................ 2 Ecuador Notification ECU/71/ECU (ECU/71 , Add.1 , Add.2 , Add.3 , ).........................................................3 Ecuador Notification ECU/226/ECU (ECU/226 )...........................................................................................3 Taiwan Economy Notification TPKM/170.......................................................................................................3 ANSI Public Review Announcements...............................................................................................................4 Due 22 September 2014..............................................................................................................................
    [Show full text]
  • Foreword Introduction 1 Scope
    9/10/2016 ISO 6385:2016(en), Ergonomics principles in the design of work systems Foreword ISO (the International Organization for Standardization) is a worldwide federation of national standards bodies (ISO member bodies). The work of preparing International Standards is normally carried out through ISO technical committees. Each member body interested in a subject for which a technical committee has been established has the right to be represented on that committee. International organizations, governmental and non­governmental, in liaison with ISO, also take part in the work. ISO collaborates closely with the International Electrotechnical Commission (IEC) on all matters of electrotechnical standardization. The procedures used to develop this document and those intended for its further maintenance are described in the ISO/IEC Directives, Part 1. In particular the different approval criteria needed for the different types of ISO documents should be noted. This document was drafted in accordance with the editorial rules of the ISO/IEC Directives, Part 2 (see www.iso.org/directives). Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. ISO shall not be held responsible for identifying any or all such patent rights. Details of any patent rights identified during the development of the document will be in the Introduction and/or on the ISO list of patent declarations received (see www.iso.org/patents). Any trade name used in this document is information given for the convenience of users and does not constitute an endorsement. For an explanation on the meaning of ISO specific terms and expressions related to conformity assessment, as well as information about ISO's adherence to the WTO principles in the Technical Barriers to Trade (TBT) see the following URL: Foreword ­ Supplementary information.
    [Show full text]
  • Response Time for IEC 61499 Over Ethernet
    Response Time for IEC 61499 over Ethernet Per Lindgren, Johan Eriksson, Marcus Lindner and Andreas Lindner David Pereira and Luís Miguel Pinho Luleå University of Technology CISTER / INESC TEC, ISEP Email:{per.lindgren, johan.eriksson, marcus.lindner, andreas.lindner}@ltu.se Email: {dmrpe, lmp}@isep.ipp.pt Abstract—The IEC 61499 standard provides means to specify general purpose usage. Our results are safe to the worst case, distributed control systems in terms of function blocks. The while further improvements can be obtained if the Maximum execution model is event driven (asynchronous), where triggering Transmission Unit (MTU) of general purpose (best effort events may be associated with data (and seen as a message). traffic) is controlled. In this paper we propose a low complexity implementation technique allowing to assess end-to-end response time of event We can conclude that the presented approach reduces chains spanning over a set of networked devices. In this paper we complexity of distribution (in comparison to the traditional develop a method to provide safe end-to-end response time taking SCADA approach), reduces device and network complexity both intra- and inter-device delivery delays into account. As a (does neither require complex time triggered architectures use case we study the implementation onto (single-core) ARM- like scan based PLCs, nor any dedicated network compo- cortex based devices communicating over a switched Ethernet network. For the analysis we define a generic switch model and nents/protocols), and is highly flexible (allowing network shar- an experimental setup allowing us to study the impact of network ing between real-time and best-effort devices).
    [Show full text]
  • Building Functional Safety Into Industrial Robotics
    BUILDING FUNCTIONAL SAFETY INTO INDUSTRIAL ROBOTICS Rian Whitton Principal Analyst EXECUTIVE SUMMARY TABLE OF CONTENTS Functional safety is critical to many modern robotic applications and will become more so. In the near future, many robots will run in areas where they interact directly Executive Summary ................................1 and indirectly with workers, and the tasks they perform will disproportionately relate The Market for Industrial Robotics ...........2 The Potential of the Robotics Industry .....................2 to production logistics and moving goods for the general public. If a robot malfunctions, New Robots, New Demands ...................................4 there is a risk to the surrounding workers, to product safety, and to public safety. This Functional Safety Is Crucial for the Industry to Meet risk amplifies as robots are increasingly required to handle multiple tasks and navigate Its Potential ............................................................5 Regulations .............................................................6 crowded environments. So, mitigating safety risks under these conditions will become Embedded Systems for Robotics ..............7 a fundamental requirement that cannot be addressed without considering security as RTOS and the Benefits of Microkernel an integral part of robot design. Architecture ............................................................8 Hypervisors-as-a-Solution .......................................9 This is where functional safety of the underlying software and
    [Show full text]
  • Manufacturing Execution Systems (MES)
    Manufacturing Execution Systems (MES) Industry specific Requirements and Solutions ZVEI - German Electrical and Electronic Manufactures‘ Association Automation Division Lyoner Strasse 9 60528 Frankfurt am Main Germany Phone: + 49 (0)69 6302-292 Fax: + 49 (0)69 6302-319 E-mail: [email protected] www.zvei.org ISBN: 978-3-939265-23-8 CONTENTS Introduction and objectives IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII5 1. Market requirements and reasons for using MES IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII6 2. MES and normative standards (VDI 5600 / IEC 62264) IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII8 3. Classification of the process model according to IEC 62264 IIIIIIIIIIIIIIIIIIIIIIIIII 12 3.1 Resource Management IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII13 3.2 Definition Management IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII14 3.3 Detailed Scheduling IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII14 3.4 Dispatching IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII15 3.5 Execution Management IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII15 3.6 Data Collection IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII16 IMPRINT 3.7 Tracking IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII16 3.8 Analysis IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII17 Manufacturing Execution Systems (MES) 4. Typical MES modules and related terms IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII18
    [Show full text]
  • Catalog of GA Control Systems
    GA automation technology product catalog Contact information GEBHARDT Automation GmbH Thüngenfeld 3 D- 58256 Ennepetal Germany Tel.: +49 2333 7908 - 0 available during working hours, Mo to Fr, from 800 to 1700 (5 pm) central european time (CET, GMT+1). FAX: +49 2333 7908 - 24 Web: www.gebhardt-automation.de Support [email protected] Information [email protected] Date: 10/2012 GA catalog_Rev 02.01_2012-10-09 en.doc page 2 of 40 Contents GA BlueLine Systems ............................................................................................................4 Redundancy, fault tolerance and voting...............................................................................................5 Machinery Monitoring Systems............................................................................................................6 Monitoring Capabilities.........................................................................................................................7 GA TMR/10-S.......................................................................................................................................8 GA TMR SMART-S ..............................................................................................................................9 GA DUPLEX/7-S ................................................................................................................................10 GA DUPLEX SMART-S .....................................................................................................................11
    [Show full text]