SFS Suomen Standardit

 

This document provides guidance for organizations to address security threats and failures specific to artificial intelligence (AI) systems. The guidance in this document aims to provide information to organizations to help them better understand the consequences of security threats specific to AI systems, throughout their life cycle, and descriptions of how to detect and mitigate such threats. This document is applicable to all types and sizes of organizations, including public and private companies, government entities, and not-for-profit organizations, that develop or use AI systems.

 

The document specifies doctype, namespace and a set of data elements for digital UAS or drone licences (or training certificates) supporting mdoc data model specified in ISO/IEC 18013-5 and ISO/IEC TS 23220-2. This document is also applicable for any remote pilot licencees or training certificates issued by aviation authorities. This document does not specify either licence categories and licence conditions and is designed to define any domestic licences and training certificates by defining domestic namespaces in accordance with each region and/or state’s regulations. The digital UAS or drone licence data specified in this document is applicable to mdoc application as defined in ISO/IEC 23220-1 and transmission protocol specified in ISO/IEC 18013-5, ISO/IEC TS 18013-7 and ISO/IEC TS 23220-4.

 

This document specifies the requirements and test methods for components of condensed aerosol firefighting systems. It gives recommendations for the design, installation, testing, maintenance and safety of said systems as well as their application in buildings, plants or other structures. The characteristics of the extinguishants in the condensed aerosol firefighting systems are also specified, as well as the types of fire for which they are a suitable extinguishing medium. It covers total flooding systems primarily related to buildings, plants and other specific applications, utilizing electrically non-conducting condensed aerosol fire extinguishants for which there are sufficient data currently available to enable validation of performance characteristics by an appropriate independent authority. Local applications of condensed aerosol extinguishing systems are not covered by this document. Any local applications require a pre-engineered and pre-designed system which has been tested and approved for a specific application by a relevant authority.

 

This document applies to decorative, automatically controlled fireplaces for domestic use, producing a flame using liquid alcohol, hereafter referred to as fuel, for decoration. NOTE 1 The requirements outlined in this document can be applied even outside domestic settings. In that case additional or different rules on the use of the fireplaces can apply. This document applies to decorative fireplaces that do not require manual user interaction during normal operation. These fireplaces include electric or electronic components that control the basic operation (incl. automatic filling system). NOTE 2 These components control the safe operation and avoid hazards such as: - Fuel spillage while filling - Overfilling - Fuel explosion while igniting - Accidental ignition while refilling - Overheating - Unsuccessful extinguishing The document applies only to fireplaces for use in indoor areas. This document applies to free-standing, wall-mounted and built-in fireplaces. This document applies to fireplaces ready for use, whose burner is an integral component of the fireplace. This document does not apply to fireplaces specifically designed for heating food or keeping food warm (rechauds), as well as to fireplaces for use in boats, caravans, other. This document does not apply to fireplaces with declared heating function. This document does not apply to fireplaces, that are connected to a flue. NOTE 3 Because of the safety component of automatically operated fireplaces this scope is not limited to a specific heat output or fuel consumption. Regarding heat output limits, national legislation can apply.

 

This document specifies the design and operational characteristics, the safety requirements, test methods and the marking of regulators and automatic change-over devices having a maximum regulated pressure of 4 bar, with a maximum capacity of 150 kg/h, for use with butane, propane and their mixtures in the vapour phase. The maximum supply pressures for devices covered by this standard are 7,5 bar for butane and 16 bar for propane and LPG. This document also applies to the safety devices which are included within regulating devices covered by this document. This document also includes requirements for: - adaptors for connecting to self-closing valves; - integral or auxiliary safety devices. This document covers devices used in locations where the temperature likely to be reached during use is between -20 °C and +50 °C Additional requirements for devices to be used at temperatures down to -30 °C and/or up to +80 °C are defined in Annex C. This document gives special requirements for: - devices intended to be used in caravans and motor caravans (Annex D); - devices intended to be used in boats (Annex M); - specific connections which are not defined in other standards (e.g. EN 15202:2019 for cylinder valve connections). NOTE Boats considered in this document are recreational crafts covered by European Directive 2013/53/EU.

 

This standard would provide general requirements and guidance for the development and application of LAMP-based methods for the detection of microorganisms and associated genetic markers sampled along the food chain (e.g., ingredients, human food, animal food, and the production environment), and includes sample preparation, isothermal amplification, signal detection, data interpretation, and performance criteria. This standard would also define laboratory and data management practices to ensure that LAMP methods are performed accurately, and data are reported clearly for end users and stakeholders. Out of scope - LAMP methods applied for non-food (medical/veterinary) use.

 

This document specifies a procedure that can be used to determine the HADH activity in poultry meat samples by spectrophotometry. The results can provide an indication whether poultry breast meat has been previously frozen based on the ratio of relative HADH activity, and can be used to verify the labelling of poultry breast meat sold as chilled poultry. When meat is frozen and thawed, the muscle mitochondria are damaged and the HADH enzyme is released into the intracellular fluid. The relative increase in a result above a value of 0,5 for the amount ratio of HADH found in fluid pressed activity from a sample before and after laboratory freezing can be used to indicate whether it freezing, indicates that the sample has been previously frozen. The HADH activity is determined using a spectrophotometric procedure. This protocol document is applicable specifically to chicken and turkey breast meat but can be used for other cuts and/or species with appropriate limit values. Additional validation can be required. The method document is not applicable to minced meat or to poultry preparations. The compliance assessment process is not part of this document.

 

 

ISO 14024:2018 establishes the principles and procedures for developing Type I environmental labelling programmes, including the selection of product categories, product environmental criteria and product function characteristics, and for assessing and demonstrating compliance. ISO 14024:2018 also establishes the certification procedures for awarding the label.

 

 

 

This method is applicable to woven fabrics which may or may not have been given an anti-contamination to particulate matter finish. It is especially suitable for measuring apparel fabrics. It is not intended for use in fabrics that react to UV light or allow particulate matter to penetrate into the structure of the fabric. It is not applied to fabrics for personal protective equipment.

 

 

This document gives guidance on how to promote and implement gender equality and women’s empowerment. It provides guidelines for organizations to develop the capabilities to achieve a culture of gender equality and women’s empowerment. The guidelines include the framework, resources, policies, tools and good practices for contextualizing, promoting and implementing gender equality. This document focuses on the inequality resulting from the gender specific roles assigned to women, girls, men and boys and is applicable to all types of organizations (public or private), regardless of their size, location or field of activity. This document does not address the specific aspects of relations with labour unions or work councils, nor the country-specific regulations and compliance relating to gender diversity.

 

This document establishes governing principles and guidelines for plain science writing. It builds upon the foundation for plain language established in ISO 24495-1. It is organized according to the four principles presented in ISO 24495-1. This guidance focuses on science writing: writing intended for readers with varying education levels, backgrounds and interests. These readers can range from young students to decision-makers in industry and government. The guidance does not explicitly address scientific writing: expert-to-expert writing such as that found in scientific journal articles or academic documents, where experts communicate with others in their field. However, many experts prefer reading documents that follow plain language guidance. The principles found in this guidance and in ISO 24495-1 can help any author who seeks to create a plain language document. This document applies to printed or digital information that is primarily in the form of text and images. The guidance in this document applies to most written languages.

 

This document specifies the method of testing the adsorption efficiency of activated carbon fibres such as nonwoven fabric or fibrous felt with a thickness of less than 20 mm for adsorption and removal of iodine isotopes (I131) included in air or gas flow (exhaust).

 

This document establishes principles, specifies requirements and gives guidance for self-declared environmental claims about products and their programmes, including claims that also cover related social and economic aspects that are affected by environmental conditions or the environmental performance of the product. This document also defines selected terms commonly used in self-declared environmental claims and provides qualifications for their use, as well as describing the documentation and methodologies required for assessing self-declared environmental claims. This document is applicable to self-declared environmental claims that are predominantly take the form of words, but can also be used for symbols and graphics on product or package labels, or in product literature, technical bulletins, advertising and publicity, including on digital platforms.

 

ISO 14021:2016 specifies requirements for self-declared environmental claims, including statements, symbols and graphics, regarding products. It further describes selected terms commonly used in environmental claims and gives qualifications for their use. This International Standard also describes a general evaluation and verification methodology for self-declared environmental claims and specific evaluation and verification methods for the selected claims in this International Standard. ISO 14021:2016 does not preclude, override, or in any way change, legally required environmental information, claims or labelling, or any other applicable legal requirements.

 

Statistical process control (SPC) concerns the use of statistical techniques and statistical or stochastic control algorithms to achieve one or more of the following objectives: These guidelines give the elements for implementing an SPC system to achieve these objectives. The common economic objective of statistical process control is to increase good process outputs produced for a given amount of resource inputs. This part of ISO 11462 specifies SPC system guidelines for use This part of ISO 11462 considers the complete industrial supply chain. It describes some essential statistical methods that can be used to continuously improve capability or performance and stability of production processes. The bottom line is that production processes are controlled economically, promptly and effectively. As a result, a predefined level of quality can be realised. The improvement of stability and performance or capability of the production processes effectively reduces waste and machine downtime or increases productivity. If defective production parts are found in a random sample, they can be sorted out and, if necessary, further measures can be initiated.

 

This document specifies the characteristics, performance requirements and test methods for portable fire extinguishers. Reference to the suitability of an extinguisher for use on gaseous fires (Class C fires) are at the manufacturer’s discretion but are applied only to powder type extinguishers which have gained a Class B or Class A and Class B rating. Suitability of extinguishers for use on Class D fires (fires involving flammable metals) is outside the scope of this document in respect of test fires. However, extinguishers claiming Class D suitability are covered in all other respects by the requirements in this document for powder extinguishers. It is considered hazardous for powder and carbon dioxide fire extinguishers to be used on Class F fires. For this reason, powder and carbon dioxide fire extinguishers are excluded for conformance with regard to Class F in this document. NOTE The extinction of a metal fire presents a situation so specific (in terms of the metal itself, its form, the configuration of the fire etc.) that it is not possible to define a representative standard fire for the purposes of testing. The efficiency of extinguishers on Class D fires is established on a case by case basis.