Toimialayhteisöt

 

This document defines basic terms, symbols, and units of measurement for the field of laser technology in order to unify the terminology and to arrive at clear definitions and reproducible tests of beam parameters and laser-oriented product properties. NOTE The laser hierarchical vocabulary laid down in this document differs from that given in IEC 60825?1. ISO and IEC have discussed this difference and agree that it reflects the different purposes for which the two standards serve. For more details, see informative Annex A.

 

ISO 14025:2006 establishes the principles and specifies the procedures for developing Type III environmental declaration programmes and Type III environmental declarations. It specifically establishes the use of the ISO 14040 series of standards in the development of Type III environmental declaration programmes and Type III environmental declarations. ISO 14025:2006 establishes principles for the use of environmental information, in addition to those given in ISO 14020:2000 Type III environmental declarations as described in ISO 14025:2006 are primarily intended for use in business-to-business communication, but their use in business-to-consumer communication under certain conditions is not precluded.

 

ISO/IEC 17024:2012 contains principles and requirements for a body certifying persons against specific requirements, and includes the development and maintenance of a certification scheme for persons.

 

 

This document contains principles and requirements for a body operating certification of persons and includes the development and maintenance of a scheme for certification of persons.

 

This International Standard establishes a system for the transliteration of Georgian characters into Latin characters in accordance with the principles of stringent conversion in order to permit international information exchange, particularly by electronic means.

 

This International Standard establishes a system for the transliteration of Armenian characters into Latin characters in accordance with the principles of stringent conversion in order to permit international information exchange, particularly by electronic means.

 

This document provides requirements and recommendations on user assistance, their nature, use and guidance on how to use them. This document is concerned with software components of interactive systems to make human-system interaction usable as far as the most basic interaction aspects are concerned. This document provides a list of generic user assistance guidelines regardless of a specific visualization and implementation technology. It gives guidance and recommendations on selection, usage and dependencies of user assistance and their applications in various contexts. It does not provide detailed coverage of the methods and techniques required for design and implementing of user assistance. The information in this document is intended for use by those responsible for developing user interfaces, but also for planning and managing platform specific aspects of user interface design. It therefore addresses technical issues only to the extent necessary to allow such individuals to understand the relevance and importance of a consistent interaction technique use in the design process. It also provides a framework for human factors and usability professionals involved in human-centred design. Detailed human factors, ergonomics, usability, and accessibility issues are dealt with more fully in a number of standards including other parts of ISO 9241 which sets out the broad principles of ergonomics (see Bibliography). Annex A provides a checklist that can be used to support claims of conformance to this standard.

 

This document specifies strategies for risk estimation and selection of biological harms identification tests with respect to the possibility of the following potentially irreversible biological effects arising as a result of exposure to medical devices: This document is applicable when the need to evaluate a medical device for potential genotoxicity, carcinogenicity, reproductive toxicity, and developmental toxicity has been established.

 

This document gives guidelines for the restoration of rivers, including their channels, riparian zones and floodplains. The word ‘river’ is used as a generic term to describe permanently flowing and intermittent watercourses of all sizes, with the exception of artificial water bodies such as canals. Some aspects of landscape restoration beyond the boundaries of what are often considered typical river processes are also considered. A clear framework of guiding principles to help inform the planning and implementation of river restoration work is provided. These principles are applicable to individuals and organizations wishing to restore rivers, and stress the importance of monitoring and appraisal. This document makes reference to existing techniques and guidance, where these are appropriate and within the scope of this document. This document gives guidelines on: - the core principles of restoration; - aims and overall outcomes of river restoration; - the spectrum of typical approaches to river restoration with a focus on those that are nature-based and restore both physical and ecological aspects; - identifying opportunities for restoration and possible constraints, with a focus on physical and natural rather than socio-economic aspects; - different scales of restoration and how restoration works across different catchments and landscapes; - the importance of monitoring and appraising restoration work across the range of approaches and scales.

 

This document provides guidelines on using zero-knowledge proofs (ZKP) to improve privacy by reducing the risks associated with the sharing or transmission of personal data between organisations and users by minimizing unnecessary information disclosure. It includes several ZKP functional requirements relevant to a range of different business use cases, then describes how different ZKP models can be used to meet those functional requirements securely.

 

This document specifies the general characteristics of grooved pins, made of steel and stainless steel, with nominal diameters 1 mm to 25 mm. These grooved pins are designed to fulfil the main following functions: — locking of two (or more) parts, — positioning or guiding, — relative rotation of the assembled parts.

 

This document specifies the characteristics of hexalobular socket button head screws with reduced loadability due to head design, in steel and stainless steel, with metric coarse pitch threads M3 to M12, and with product grade A. If, in certain cases, other specifications are requested, property classes and stainless steel grades can be selected from ISO 898-1 or ISO 3506-1, and the dimensional options from ISO 888 or ISO 4753.

 

This document specifies the characteristics of hexalobular socket button head screws with collar with reduced loadability due to head design, in steel and stainless steel, with metric coarse pitch threads M3 to M12, and with product grade A. If, in certain cases, other specifications are requested, property classes and stainless steel grades can be selected from ISO 898-1 or ISO 3506-1, and the dimensional options from ISO 888 or ISO 4753.

 

This document specifies the limits of sizes for major, pitch and minor diameters of ISO metric trapezoidal screw threads (Tr) conforming to ISO 2902 and having basic and design profiles in accordance with ISO 2901. This document is applicable to the metric trapezoidal screw threads with the seven tolerance classes (7H, 8H, 9H, 7e, 8e, 8c and 9c) recommended in ISO 2903.

 

This document specifies the transport and container formats for JPEG XL codestreams as specified in ISO/IEC 18181-1:2024. This document specifies how to add metadata and extensions to JPEG XL codestreams. A file as described by this document is called a JPEG XL file.

 

 

 

This document specifies a method for the determination of selected polybrominated diphenylethers (PBDE) (see Figure 1 and Table 1) in sediment, suspended particulate matter and biota using gas chromatography/mass spectrometry (GC-MS/MS or GC-HRMS) in the electron impact (EI), negative ion chemical ionization (NCI) or atmospheric pressure ionization (APCI) mode. The method is applicable to sediment and suspended particulate matter samples with limits of quantification of 0,2 µg/kg dry weight (dw) for BDE-28 to BDE-183, of 2 µg/kg dry weight (dw) for BDE-209. The method is applicable as well with lower limits of quantification (LOQ), if specific clean-up methods, described in Clause 10, Table 3, method 1 and method 2 in combination with measurement methods GC-MS/MS or GC-HRMS after electron impact ionization (El) or negative ion chemical ionization (NCI) for BDE-209 are used. Depending on the analytical capability of the instrument limits of quantification down to 0,003 µg/kg dw for BDE-28 to BDE-154 and 0,02 µg/kg dw for BDE-183 and 1 µg/kg dw for BDE-209 and lower are possible. The method is applicable to biota samples with limits of quantification down to 0,000 2 µg/kg fresh weight (fw) (BDE-28 to BDE-154) and 0,03 µg/kg fresh weight (fw) (BDE-183), if specific clean-up methods, described in Table 4 in combination with measurement methods GC-MS/MS or GC-HRMS after electron impact ionization (El) are used.

 

The purpose of this part of ISO 21175 is to specify a Reference Model and Process for Collaborative Modeling and Simulation Environment (CMSE), which establishes a general framework of CMSE to provide guidance for implementation of joint simulation projects. The CMSE which is based on the reference process and the reference model including neutral interfaces and meta-models can enable service-oriented share-use of the infrastructure, integration of the software and collaboration of the business to improve collaboration among all kinds of stakeholders involved in a joint simulation project which needs on-demand simulation at any time and any place upon different manufacturing platforms owned by different enterprises or by different departments within an enterprise. ISO 21175 can not only be applied to manufacturing enterprises but also be applied to other kinds of enterprises. It is intended for use by stakeholders who are concerned with developing and deploying solutions of the joint simulation project based on information and communication technology. It focuses on simulation activities related cross-platform simulation collaboration capability supporting business planning & logistics, manufacturing operations management and production control within or among enterprises, which can cover the levels from 2 to 4 of the functional hierarchy of manufacturing systems in IEC 62264-3. This part of ISO 21175 specifies the following: This part of ISO 21175 does not relate to the simulation irrelevant collaboration environment, and does not specify the specific approach to implement CMSE in the solution formulation of joint simulation projects.