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This document provides guidance and recommendations for assurance of a selected claim about the system-of-interest by achieving the claim and showing the achievement. The guidance and recommendations are given in a system assurance process view on top of ISO/IEC/IEEE 15288 and a software assurance process view on top of ISO/IEC/IEEE 12207.

 

This document specifies principles, requirements, recommendations and other provisions for preparing and presenting instructions for the assembly of self-assembly products intended for a non-skilled target audience assembling a product without help from a trainer or supervisor. This document is applicable to instructions for: This document does not apply to: This document is applicable to all parties involved in the preparation of instructions for self-assembly, including: This document is supplementary to IEC/IEEE 82079-1, which specifies provisions applicable to the preparation of all information for use of products – including self-assembly and all other phases (such as operation, maintenance and disposal).

 

This document specifies homomorphic encryption mechanisms for arithmetic based on look-up table evaluation. This document also specifies parameter selection for various security levels.

 

ISO 7886-1:2017 specifies requirements and test methods for verifying the design of empty sterile single-use hypodermic syringes, with or without needle, made of plastic or other materials and intended for the aspiration and injection of fluids after filling by the end-users. This document does not provide requirements for lot release. The syringes are primarily for use in humans. Sterile syringes specified in this document are intended for use immediately after filling and are not intended to contain the medicament for extended periods of time. It excludes syringes for use with insulin (see ISO 8537), single-use syringes made of glass, syringes for use with power-driven syringe pumps, syringes pre-filled by the manufacturer, and syringes intended to be stored after filling (e.g. in a kit for filling by a pharmacist). Hypodermic syringes without a needle specified in this document are intended for use with hypodermic needles specified in ISO 7864.

 

ISO 8537:2016 specifies requirements and test methods for empty, sterile, single-use syringes, with or without needles, made of plastic materials and intended solely for the injection of insulin, with which the syringes are filled by the end user. This International Standard covers syringes intended for single-use only in humans and with insulins of various concentrations. The insulin syringes specified in this International Standard are intended for use (i.e. insulin injection) immediately after filling and are not intended to contain insulin for extended periods of time. ISO 8537:2016 excludes single-use syringes made of glass, syringes for use with power-driven syringe pumps, syringes that are pre-filled by the manufacturer, and syringes intended to be stored after filling (e.g. in a kit intended for filling by a pharmacist).

 

This document contains performance requirements and recommendations for electrical lighting systems in the interiors of conventional main line passenger railway vehicles, under all operating and emergency conditions. This document includes requirements for lighting installed for effect purposes (also referred to as decorative lighting). This document also defines the requirements for testing and conformity assessment. This document includes options for verification via modelling (also referred to as simulation). This document applies only to new units. This document does not apply retrospectively to existing railway vehicles for reasons of refurbishment or renewal unless stated otherwise in the Technical Specification. This document does not address lighting installed in instruments or control devices (for example backlit buttons). This document does not address requirements for the lighting of boarding aids, for example, moveable steps, bridging plates, or lifts. This document does not address indicator lights (for example access door indicators, which are addressed in other Standards). This document does not address requirements for display screens.

 

This document provides guidelines, methodology and techniques for deriving securely information from real activities denoted to as provenance metadata about data assets from multiple sources, intermediaries or users.

 

This document defines key establishment mechanisms based on weak secrets, i.e. secrets that can be readily memorized by a human, and hence, secrets that will be chosen from a relatively small set of possibilities. It specifies cryptographic techniques specifically designed to establish one or more secret keys based on a weak secret derived from a memorized password, while preventing offline brute-force attacks associated with the weak secret. This document is not applicable to the following aspects of key management:

 

The following is in scope of this document: - business specification for long term archiving and retrieval of CAD 3D explicit geometry (see Clause 5); - essential information of CAD 3D explicit geometry (solids, curves, surfaces, and points) to be preserved (see Clause 6); - data structures detailing the main fundamentals and concepts of CAD 3D explicit geometry (see Clause 7); - verification rules to check CAD 3D explicit geometry for consistency and data quality (see Clause 8); - validation rules to be stored with the CAD 3D explicit geometry in the archive to check essential characteristics after retrieval (see Clause 9). NOTE 1 This document includes the geometrical external shape resulting from CAD 3D domain elements (e.g. 3D Structural components, 3D Tubing, 3D electrical harness, 3D composite, etc.). The following is outside the scope of this document: - the formal definition of validation and verification rules to check 3D explicit geometry for consistency and data quality using a machine-readable syntax; - implicit or parametric geometry; - Geometric Dimensioning and Tolerancing (GD&T), Product and Manufacturing Information (PMI); N0TE 2 For long term archiving of the GD&T and PMI see EN 9300 120, EN 9300 121 and EN 9300 125. - assembly structures and PDM product structures; NOTE 3 For long term archiving of assembly structure see EN 9300 115 and for product structure see EN 9300 2xx series. - model styling and organization of explicit geometry.

 

This document specifies the measurement method for the determination of total activity concentration of uranium isotopes in non-saline waters by extraction and liquid scintillation counting. This method covers the measurement of soluble uranium isotopes in water in activity concentrations between approximately 2·10-3 Bq/kg and 10 Bq/kg when analysing a 1 l test sample volume with a 60 000 s counting time with a typical alpha LSC instrument. The ratio 234U/238U can also be determined. This method has not been tested for the measurement of other uranium isotopes.

 

This document specifies the requirements for solid wall pipes with smooth internal and external surfaces, extruded from the same formulation throughout the wall, fittings and the piping system of unplasticized poly(vinyl chloride) (PVC-U) intended for soil and waste discharge applications (low and high temperature) - buildings, above ground inside the building, or outside buildings fixed onto the wall; which is reflected in the marking by “B” - for both inside buildings and buried in ground within the building structure, which is reflected in the marking by “BD”. This intended use is only applicable for components with nominal outside diameters equal to or greater than 75 mm. NOTE 1 Multilayer pipes with different formulations throughout the wall and foamed core pipes are covered by EN 1453-1 [1]. PVC-U pipes, fittings and the system complying with this document are suitable for the following purposes: - ventilating part of the pipework in association with discharge applications; - rainwater pipework within the building structure. This document covers a range of nominal sizes, a range of pipes and fittings series and gives recommendations concerning colours. Pipes, fittings and other components conforming to any of the plastics product standards listed in Annex B can be used with pipes and fittings conforming to this document, provided they conform to the requirements for joint dimensions given in Clause 7 and to the requirements of Table 26. NOTE 2 EN 476 [2] specifies the general requirements for components used in discharge pipes, drains and sewers for gravity systems. Pipes and fittings conforming to EN 1329-1 fully meet the EN 476 requirements.

 

This Part of this European Standard specifies the requirements for inspection and testing of industrial piping as defined in EN 13480-1:2017 to be performed on individual spools or piping systems, including supports, designed in accordance with EN 13480-3:2017 and EN 13480-6:2017 (if applicable), and fabricated and installed in accordance with EN 13480-4:2017.

 

This document specifies test methods for the determination of the technical characteristics of underlays under laminate floor coverings. It includes minimum performance requirements for the underlay-flooring system to give satisfactory service and to encourage the consumer to make an informed choice. It also specifies requirements for marking and packaging. Underlays pre-attached to the laminate flooring coverings are not covered by this document. Underlays for laminate floor coverings intended for use in electrostatically sensitive areas such as computer rooms, etc., are not covered by this document.

 

This document specifies the requirements for development and use of a reference architecture (RA), for a field of application, domain of activity or area of concern. An RA can apply to several kinds of entities, such as, enterprises, missions, organizations, systems, subsystems, components, processes, businesses, data, applications, information technologies, products, services, software items, hardware items, product lines, families of systems, systems of systems, collections of systems, and collections of applications. This document specifies the requirements to be satisfied by a reference architecture description (RAD). An RAD captures common or generalized architectural information for a category of entities or for a field of application, a domain of activity or an area of concern. This document is intended for: The applicability of this document includes, but is not limited to, fields such as the following: artificial intelligence (AI), machine learning (ML), internet of things (IoT), cloud computing, cybersecurity, big data, smart cities, smart manufacturing, digital twins, telecommunications, aerospace, defence, banking, finance, insurance, energy, automotive, logistics, hospitality, healthcare, supply chains, transportation, manufacturing and production, agriculture and infrastructure. This document offers guidance for architects developing or using an RA and its RAD that draws from various general purpose, architecture-specific standards such as ISO/IEC/IEEE 42024, 42010, 42020 and 42030 and related standards, such as ISO 15704, 19439 and 19440, ISO/IEC/IEEE 15288, 12207, 24748-1 and 24641 for enterprise, systems and software modelling, respectively.

 

This document gives guidance for pro-rata multi-habitat sampling of benthic macroinvertebrates in rivers and streams. The term "pro-rata" reflects the intention to sample all the main riverine habitats present at a monitoring site according to the proportion of the site that it covers. It is an objective way to divide sampling effort among the different habitats. This document is applicable to all flowing waters, both artificial, modified and natural. It enables comparable samples to be collected from any type of river, regardless of the habitats present. This document gives guidance on an overall approach rather than a specific method. This document is applicable to: - supporting environmental and conservation agencies, water boards, and water agencies to meet the monitoring requirements of the WFD (Article 8, Annex II, and Annex V) [1]; - generating data sets appropriate for monitoring and reporting of sites designated under the Habitats Directive and the Birds Directive to ensure that samples for comparing the overall composition of invertebrates from different stream types are comparable; - ensuring samples for environmental quality assessments across different stream types are comparable even when sampled by different people; - supporting river management and restoration initiatives; - sampling sites in a consistent way that is not dependent on the presence of particular types of habitat; a user-friendly strategy for collecting biological data depending on the distribution of habitats; - understanding the distribution of biological community types across different physical river types; and - assessing quality based on deviation from reference, as adopted in the European Water Framework Directive [1].

 

 

This document specifies a method for measurement of the viscosity of a ceramic slurry using a rotational viscometer. The method only involves rotations with a monotonic angle variation. Measurements using an oscillating rotation are excluded from the scope of this document. Ceramic slurry is used in ceramic processes such as dip coating, spray coating, screen printing, slip casting, tape casting, spray drying and polishing. Dispersion of fillers in molten thermoplastic polymers are excluded from the scope of this document.

 

This document describes a test method for the determination of the resistance of vitreous and porcelain enamelled articles to attack by alkaline liquids at temperatures between 25 °C and 95 °C. The apparatus used is a cylindrical vessel with a volume-surface ratio 20:1 cm in which only one enamelled specimen is tested. NOTE 1 The test method was initially set up for determination of the resistance of vitreous and porcelain enamels to a hot sodium hydroxide solution. Within the scope of this part of ISO 28706, the resistance of other alkaline liquids can be tested. NOTE 2 This part of ISO 28706, which uses a cylindrical vessel, is generally used for tests carried out on vitreous and porcelain enamel coatings for the chemical industry.

 

This document specifies a test method for the determination of the resistance of flat surfaces of vitreous and porcelain enamels to boiling acids, boiling neutral liquids, alkaline liquids and/or their vapours. This method allows the determination of the resistance of vitreous and porcelain enamels to the liquid and vapour phases of the corrosive medium simultaneously.

 

This document describes the considerations for inclusion of toxicokinetic evaluation in the biological evaluation of medical devices and provides principles on designing and performing toxicokinetic evaluation relevant to medical devices.