SFS Suomen Standardit

 

ISO/IEC 29146:2024 defines and establishes a framework for access management (AM) and the secure management of the process to access information and Information and Communications Technologies (ICT) resources, associated with the accountability of a subject within some context. ISO/IEC 29146:2024 provides explanations about related architecture, components and management functions and concepts, terms and definitions applicable to distributed access management. The subjects involved in access management might be uniquely recognized to access information systems, as defined in ISO/IEC 24760.

 

This document gives guidance on developing, managing and implementing public warning before, during and after incidents. This document is applicable to any organization responsible for public warning. It is applicable at all levels, from local up to international. Before planning and implementing the public warning system, the risks and consequences of potential hazards are assessed. This process is not part of this document.

 

This document specifies a method of measuring the dimensions of conductors and cables. It is used together with EN 3475-100.

 

This document specifies a range of cable outlets, style K, 90°, shielded, sealed, self-locking (anti-rotational), for heat shrinkable boot, and/ or metallic bands for use under the following conditions: The mating connectors are listed in EN 3660-002. Temperature range, Class N: -65 °C to 200 °C; Class K: -65 °C to 260 °C; Class W: -65 °C to 175 °C; Class T: -65 °C to 175 °C (Nickel PTFE plating); Class Z: -65 °C to 175 °C (Zinc nickel plating). Class V: -65 °C to 175 °C (Tin zinc plating non reflective). Class D: -65 °C to 175 °C (Tin zinc plating dark non reflective). Associated electrical accessories are specified in EN 3660-033 Metallic band (for shield termination). These cable outlets are designed for termination of overall shielding braid and/or individual cable shields. They accommodate/permit the termination of heat shrinkable boots.

 

This document defines a range of cable outlets, style K, straight, shielded, sealed, self-locking (anti-rotational), heat shrinkable boot, and/or metallic bands for use under the following conditions: Associated electrical connector(s) EN 3660-002. Temperature range Class N: -65 °C to 200 °C; Class K: -65 °C to 260 °C; Class W: -65 °C to 175 °C; Class T: -65 °C to 175 °C (Nickel PTFE plating); Class Z: -65 °C to 175 °C (Zinc nickel plating). Class V: -65 °C to 175 °C (Tin zinc plating non reflective); Class D: -65 °C to 175 °C (Tin zinc plating dark non reflective). Associated electrical accessories: EN 3660-033 Metallic band (for shield termination). These cable outlets are designed for termination of overall shielding braid and/or individual cable shields. They accommodate/permit the termination of heat shrinkable boots.

 

This document gives guidance on the sample preparation of milk and milk products for physical and chemical analysis, including analysis by applying instrumental methods. This document describes the (sub)sampling, and sample preparation steps carried out after sampling according to ISO 707 | IDF 50 (1) and prior to method-specific sample preparations, e.g. as with analytical methods listed in References (2) to (21). NOTE Analysis on volatile substances, minor components or allergens can require additional precautionary measures in sample preparation in order to avoid loss of or contamination with one or more target analytes.

 

This document specifies requirements for lighters to ensure a reasonable degree of safety for normal use or reasonably foreseeable misuse of such lighters by users. This document applies to all flame-producing products commonly known as cigarette lighters, cigar lighters and pipe lighters. It does not apply to matches and flame-producing products intended solely for igniting materials other than cigarettes, cigars, and pipes.

 

 

This document supports interchangeability of digital signatures and the prevention of incorrect or illegal digital signatures by providing minimum requirements and formats for generating and verifying digital signatures and related certificates. This document describes the common technical, operational, and policy requirements to enable digital certificates to be used in protecting the exchange of healthcare information within a single domain, between domains, and across jurisdictional boundaries. The purpose of this document is to create a platform for global interoperability. It specifically supports digital certificate enabled communication across borders but can also provide guidance for the national or regional deployment of digital certificates in healthcare. This document defines the provable compliance with a public key infrastructure (PKI) policy necessary in the domain of healthcare. It specifies a method of adopting long-term signature formats to ensure integrity and non-repudiation in long-term electronic preservation of healthcare information. This document provides healthcare-specific PKI (HPKI) profiles of digital signature based on the ISO/ETSI standard profiles specified in CAdES (CMS Advanced Electronic Signature)[1], XAdES (XML Advanced Electronic Signature), PAdES (PDF Advanced Electronic Signature)[2] and the ETSI standard specified in JAdES (JSON Advanced Electronic Signature)[13].

 

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This document provides guidance on how to navigate the threats that can arise during the big data life cycle from the various big data characteristics that are unique to big data: volume, velocity, variety, variability, volatility, veracity and value, including when using big data for the design and implementation of AI systems. This document can help organizations build or enhance their big data security and privacy capabilities, including when using big data in the development and use of AI systems. This document is applicable to all organizations that develop or use big data systems, regardless of their type, size or purpose.

 

 

 

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

 

This document provides guidance for organizations to address privacy risks in artificial intelligence (AI) systems, including machine learning (ML) models. This document helps organizations identify privacy risks throughout the AI system lifecycle, and establishes mechanisms to evaluate the consequences and treatment of such risks. This document is applicable to all types and sizes of organizations that develop or use Ai system, including public and private companies, government entities, and not-for-profit organizations.

 

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 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 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.