SFS Suomen Standardit

 

 

This part of ISO/IEC 19770 provides This part of ISO/IEC 19770 is applicable to all types of organizations (e.g., commercial enterprises, government agencies, and non-profit organizations).

 

Tiedoksi lausunnonantajalle:

Lausunnon ensisijaisena tarkoituksena on vastaanottaa kommentteja ja kannanottoja suomalaisilta yksityishenkilöiltä ja organisaatioilta standardiluonnoksen teknistä sisältöä ja hyväksymistä koskien. Vastaa kohdassa ’Ota kantaa’ tulisiko tämä standardiluonnos hyväksyä maailmanlaajuiseksi ISO-standardiksi. Kantasi ja kommenttisi otetaan huomioon Suomen kannan muodostamisessa lausunnon eräännyttyä.

Yllä olevan lisäksi keräämme tällä lausunnolla kannanottoja standardiluonnoksen vahvistamiseksi kansalliseksi SFS-ISO-standardiksi. Jätä kommenttisi tätä koskien kohdassa ’Lue ehdotus’ — tulisiko tämä ISO-standardiluonnos vahvistaa kansalliseksi SFS-ISO-standardiksi*.

*SFS:n tehtävänä on ylläpitää suomalaista SFS-standardikokoelmaa. Maailmanlaajuisten standardien kohdalla ISO vahvistaa standardin ensin, ja Suomi päättää sen jälkeen, vahvistaako se standardin vai ei. Vahvistamispäätökseen vaikuttaa alan suomalainen näkemys ja kiinnostus vahvistettavaan standardiin.

 

 

This document contains simulation software for the MPEG-H 3D audio standard as defined in ISO/IEC 23008-3.

 

This document These Common Template Tables describe an order for all characters encoded in the current and past ISO/IEC 10646 editions, including amendments. They allow for a specification of a fully deterministic ordering. These tables enable the specification of a string ordering adapted to local ordering rules, without requiring an implementer to have knowledge of all the different scripts already encoded in the Universal Coded Character Set (UCS). All these Common Template Tables have reference names which are related to a particular stage of development of the ISO/IEC 10646 Universal coded character set or a particular version of the Unicode Standard. These names and their relationship with ISO/IEC 10646 or the Unicode Standard repertoire are specified by an externally referenced document: Unicode Technical Standard, UTS #10, Unicode Collation Algorithm. This document does not

 

Tätä standardia sovelletaan dieselöljylle ja kevyelle polttoöljylle tarkoitettuihin metallisiin, maanpäällisiin, sylinterimäisiin, kattavan vuotojen keräysjärjestelmän säiliöihin, joiden koko on yli 450 l ja alle 10 000 l. Standardia sovelletaan työkoneissa, vesikulkuneuvoissa tai laitteissa käytettävien polttoaineiden varastosäiliöihin rakennus-, tie-, metsätyömailla, maatalouskiinteistöissä sekä muissa vastaavissa kohteissa. Tätä standardia sovelletaan normaaleissa käyttölämpötiloissa (-40 oC … 50 oC). HUOM. Liitteen A taulukossa A.1 on verrattu tässä standardissa ja standardissa SFS-EN 12285-2 esitettyjä vaatimuksia. Taulukossa esitettyjen tietojen pohjalta standardin käyttäjä voi arvioida omaan käyttötarkoitukseensa sopivan standardin.

 

This part of ISO 2859 specifies sampling schemes indexed by acceptance quality limit (AQL) for inspection by attributes. Its purpose is to induce the producer through the economic and psychological pressure of lot non-acceptance to maintain a process average at least as good as the specified acceptance quality limit, while at the same time providing an upper limit for the risk to the consumer of accepting the occasional poor lot. Sampling schemes designated in this part of ISO 2859 are applicable, but not limited, to inspection of

 

This document specifies the syntax, semantics and decoding processes for MPEG immersive video (MIV), as an extension of ISO/IEC 23090-5. It provides support for playback of a three-dimensional (3D) scene within a limited range of viewing positions and orientations, with 6 Degrees of Freedom (6DoF).

 

This document defines terms used in the footwear industry. This document is intended to facilitate communication in the footwear sector.

 

This document establishes concepts for understanding and improving systems resilience. Systems resilience addresses the capabilities of systems under adversity. Broadly, systems resilience involves the capabilities of systems to avoid, withstand, and recover from adversity. Adversities can be known or unknown and can arise in many ways, such as security threats, dangers affecting safety, financial and business impacts from external system disruptions, from internal system faults and defects, and from adverse effects of disclosure or loss of data and information. Resilience goals are realized through application of techniques during requirements, architecture, design or operations processes of a system. This document is applicable to human-created systems that can be either physical or conceptual, or a combination of both. Systems include services and products. It is not intended to apply to naturally occurring systems.

 

 

This part of ISO/IEC 23090 specifies an architecture and data model for interchange of scene-based media for use in systems and applications that employ renderers for the presentation of immersive media, including audio, visual, tactile and other representations of media types. Clients of such systems and applications are referred to as render-based clients. At the core of the model is a vocabulary of terms and definitions that can be used to annotate a scene graph or scene asset with metadata, i.e., to facilitate the translation of media from one format to another. Such translation from one format to another format is a commonly encountered challenge in the distribution of scene-based media, as a number of formats have emerged to gain popularity in various application areas, e.g., gaming, social media, e-commerce, and content production. The corresponding vocabulary of terms and definitions describes nodes, media formats, media attributes, and render processing instructions of commonly-used scene graph formats and media representations. This collection of terms and definitions is referred to as the Independent Mapping Space (IMS). Elements from the Independent Mapping Space may be used to annotate a scene graph or media format so that its translation to another format is more straightforward and consistently performed. Thus, the IMS facilitates the distribution and interoperability of a variety of scene-based media into render applications that are limited in the types of formats that they are designed to support. Such render applications are anticipated to serve an essential role in the emerging Metaverse.

 

Tätä standardia sovelletaan ajoneuvojen ammattimaiseen pesu- ja huoltotoimintaan. Pesutoiminta sisältää konepesun, itsepalvelupesun ja ammattimaisen käsinpesun. Huoltotoiminta sisältää ajoneuvojen ammattimaisen huolto- ja korjaustoiminnan. Standardia voidaan käyttää soveltuvin osin ohjeena myös vastaavien pesu-, huolto- ja korjauspaikkojen, kuten automaalaamoiden toiminnassa sekä sellaisia suunniteltaessa ja rakennettaessa. Toimintoihin luetaan myös raskaan kaluston (kuten linja-autot ja kuorma-autot) ajoneuvojen pesu- ja huoltotoiminnat. Standardissa käsitellään erityisesti ympäristö- ja paloturvallisuuteen liittyviä erityispiirteitä. Toiminnoissa käytettäville laitteille ja laitteistoille on esitetty vaatimuksia säädöksissä ja standardeissa. Tilaluokitusten osalta vaatimuksia on esitetty SFS-käsikirjassa 59. Tämän standardin rakennevaatimuksia ei ole tarkoitettu sovellettavaksi taannehtivasti. Tehtäessä muutos- tai laajennustöitä näissä ajoneuvojen pesu- ja huoltopaikoissa voidaan standardissa annettuja ohjeita soveltaa muutos- ja laajennustöiden käsittämässä laajuudessa soveltuvin osin.

 

This document specifies a method for the determination of the time-weighted average mass concentration of soluble particulate fluorides and hydrofluoric acid (HF) in workplace air by collection of the particulate fluorides on a pre-filter and HF on an alkali-impregnated filter and analysis by ion chromatography. This method is only applicable to determination of particulate fluorides that are soluble using the sample preparation procedure specified. For aerosol sampling, this method is applicable to the personal sampling of the inhalable fraction of airborne particles, as defined in ISO 7708, and to static (area) sampling. The method is applicable to the determination of masses of 0,005 mg to at least 1,25 mg of particulate fluorides per sample and 0,015 mg to at least 1,2 mg of HF per sample. The concentration range of particulate fluorides and HF in air for which the measuring procedure is applicable is determined by the sampling method selected by the user. For a 120 l air sample, the measuring range is approximately 0,04 mg/m3 to at least 10 mg/m3 for particulate fluorides and approximately 0,13 mg/m3 to at least 10 mg/m3 for HF. HF can react with co-sampled particulate matter on the pre-filter, causing an interference on the measured concentration.

 

This part of ISO 9276 specifies guidelines and instructions for the graphical representation of particle size analysis data in histograms, distribution densities and cumulative distributions. It also establishes a standard nomenclature to be followed to obtain the distributions mentioned above from measured particle size data. This part of ISO 9276 applies to the graphical representation of particle size distributions of solid particles, droplets or gas bubbles covering all size ranges.

 

This document provides information on the implementation of the reference and conformance software associated with ISO/IEC 23090-31, "Coded representation of immersive media - Part 31: Haptics coding". The document specifies a set of tests and procedures designed to indicate whether encoders or decoders meet the requirements specified in ISO/IEC 23090-31.

 

This document is applicable to the evaluation of a substrate's resistance to absorption of a selected series of liquid hydrocarbons of different surface tensions. This document is intended to provide a guide to oil stain resistance. It can provide a rough index of oil stain resistance as, generally, the higher the oil repellency grade, the better resistance to staining by oily materials, especially liquid oil substances. This is particularly true when comparing various finishes for a given substrate. This International Standard can also be utilized in determining if washing and/or drycleaning treatments have any adverse effect on the oil repellency characteristics of a substrate. This document is not intended to give an absolute measure of the resistance of the substrate to staining by all oily materials. Other factors, such as composition and viscosity of the oily substances, substrate construction, fibre type, dyes and other finishing agents, also influence stain resistance. This International Standard is not intended to estimate the resistance to penetration of the substrate by oil-based chemicals.

 

This document specifies the abstract class of a media thing (MThing), a basic component to construct the Internet of media things. The MThing class contains the basic APIs to:

 

 

This document specifies requirements and includes guidance for the verification of declared sustainability information, including information presented in quantitative and qualitative formats.