Suomen Standardisoimisliitto SFS

This document specifies conformance testing procedures for implementations of ISO/IEC 15938-17 and provides conformance bitstreams. It also provides the reference software for ISO/IEC 15938-17 as an electronic attachment. The software is an integral part of this International Standard. Requirements established in ISO/IEC 15938-17 take precedence over the behaviour of the reference software. The use of this reference software is not required for making an implementation of an encoder or decoder in conformance to ISO/IEC 15938-17. The reference software is however required for the conformance testing procedures of decoders and bitstreams.

This document provides the specification of the Flow Allocator (FA). It is not strictly speaking a protocol specification. The protocol used here is the Common Distributed Application Protocol (CDAP).[1] This specification uses the objects required to create a flow between two IPC Processes and bind their endpoints to the applications that requested the flow. The contents of these documents include an overview of the Flow Allocator, its service definition, and its specification.

This document provides the specification of the Error and Flow Control Protocol (EFCP). EFCP provides an inter-process communication service to the Application Process, which may be a (N+1)-IPC Process, with the requested Quality of Service. One or more SDUs are passed on the (N)-port-id to the (N)-DIF to be sent to the destination application process. PDUs transferred by the (N)-DIF are delivered to the (N)-Port-id for the using Application Process. In the following pages it will be described the placement of EFCP within RINA, the components EFCP consists of, and the mechanisms and policies that are involved in EFCP’s work, and the timers and control mechanisms required to manage the connection. EFCP comprises two logical components, the Data Transfer Protocol (DTP), providing tightly bound mechanisms, as defined below, and the Data Transfer Control (DTCP) protocol, which provides loosely bound mechanisms. This document provides the following: the service definition, an overview of EFCP, a description of the placement of EFCP within RINA, the common elements of DTP and DTCP, DTP structure and functions, and DTCP structure and functions. An informative list of all policies in EFCP is provided as well.

This standard provides the reference model for the Recursive Inter-Network Architecture. It describes: the basic concepts of distributed systems, and distributed applications; introduction to distributed management systems; the fundamental structure of distributed Inter-Process Communications; and the Distributed Inter-Process Facility (DIF) operations.

This document provides the specification of the Common Application Connection Establishment Phase (CACEP). CACEP is a protocol exchange over a flow that serves to authenticate flow participants to their mutual satisfaction and to initialize the application naming information and information related to the application protocol that will be used by applications to exchange information (abstract and concrete syntaxes, object model versions, etc.). In case of RINA,[4],[5] the application protocol is CDAP. The main topics covered by this specification are the overview of CACEP, its Specification, the syntax of the PDUs, and the policies available

This standard provides the specification of the Common Distributed Application Protocol (CDAP). CDAP enables distributed applications to deal with communications at an object level, rather than forcing applications to explicitly deal with serialization and input/output operations. CDAP provides the application protocol component of a Distributed Application Facility (DAF).[3] CDAP provides a straightforward and unifying approach to sharing data over a network without having to create specialized protocols. This standard describes the following: an overview of CDAP; the specification of CDAP; a description of policies, in the specific sense introduced in the text; and some notes on CDAP context.

This document specifies requirements and test methods for the fire safety of candle accessories, as well as safety information ?and requirements on how safety information will be displayed.The safety requirements and test methods specified in this document are intended to cover the most common risks.This document does not specify requirements or test methods for uncommon risks arising from the unforeseen combination of accessories and candles.

This document specifies a test method for the determination of the content of chlorophenol-based preservative agents in textile materials and articles composed of textile products, by chromatography.

This document specifies the requirements, test methods and test conditions for the rating and performance calculation of gas-fired endothermic engine driven heat pumps for heating and/or cooling mode including the engine heat recovery, to be used outdoor.This document specifies the test conditions tests methods and seasonal performances calculation methods.This document is to be used in conjunction with:a) the terms and conditions, EN 16905 1:2017b) the safety, prEN 16905 2:2021c) the test conditions, EN 16905 3:2017d) the calculation of seasonal performances in heating and cooling mode, prEN 16905 5:2021e) the heat pump standards, EN 14511 2:2018, EN 14511 3:2018 and EN 14825:2022.This document only applies to appliances with a maximum heat input (based on net calorific value) not exceeding 70 kW at standard rating conditions.This document only applies to appliances under categories I2H, I2E, I2Er, I2R, I2E(S)B, I2L, I2LL, I2ELL, I2E(R)B, I2ESi, I2E(R), I3P, I3B, I3B/P, II2H3+, II2Er3+, II2H3B/P, II2L3B/P, II2E3B/P, II2ELL3B/P, II2L3P, II2H3P, II2E3P and II2Er3P according to EN 437:2021.This document only applies to appliances having:a) gas fired endothermic engines under the control of fully automatic control systems;b) closed system refrigerant circuits in which the refrigerant does not come into direct contact with the fluid to be cooled or heated;c) where the temperature of the heat transfer fluid of the heating system (heating water circuit) does not exceed 105 °C during normal operation;d) where the maximum operating pressure in the:1) heating water circuit (if installed) does not exceed 6 bar;2) domestic hot water circuit (if installed) does not exceed 10 bar.This document applies to GEHP appliances only when used for space heating or space cooling or for refrigeration, with or without heat recovery.This document is applicable to GEHP appliances that are intended to be type tested. Requirements for GEHP appliances that are not type tested would need to be subject to further consideration.

This document describes a procedure for the identification of meat and meat products derived from mammalia and poultry to the level of genus or species.The identification of meat species is carried out by PCR amplification of either a segment of the mitochondrial cytochrome b gene (cytb) [1] or the cytochrome c oxidase I gene (COI) [2], or both, followed by sequencing of the PCR products and subsequent sequence comparison with entries in databases [3], [4]. The methodology allows the identification of a large number of frequently used as well as exotic meat species in foodstuffs.The decision whether the cytb or COI gene segment or both are used for meat identification depends on the declared meat species, the applicability of the PCR method for the meat species and the availability of comparative sequences in the public databases.This method has been successfully validated on raw meat, however, laboratory experience is available that it can also be applied to processed meat products.This document is usually unsuitable for the analysis of highly processed foods with highly degraded DNA where the fragment lengths are not sufficient for amplification of the targets. Furthermore, it is not applicable for complex meat products containing mixtures of two or more meat species.

This document describes a procedure for the identification of single bivalves to the level of genus or species.The identification of bivalve species is carried out by PCR amplification of a segment of the mitochondrial 16S rRNA gene [1], [2] followed by sequencing of the PCR products and subsequent sequence comparison with entries in databases [5]. The methodology allows the identification of a large number of commercially important bivalve species.This method has been successfully validated on raw mussels, however, laboratory experience is available that it can also be applied to processed, e.g. cold smoked, hot smoked, salted, frozen, cooked, fried, deep-fried samples.This document is usually unsuitable for the analysis of highly processed foods, e.g. tins of mussels, with highly degraded DNA where the fragment lengths are not sufficient for amplification of the targets. Furthermore, it is not applicable for complex seafood products containing mixtures of two or more bivalve species.

ISO 37101:2016 establishes requirements for a management system for sustainable development in communities, including cities, using a holistic approach, with a view to ensuring consistency with the sustainable development policy of communities.The intended outcomes of a management system for sustainable development in communities include:· managing sustainability and fostering smartness and resilience in communities, while taking into account the territorial boundaries to which it applies;· improving the contribution of communities to sustainable development outcomes;· assessing the performance of communities in progressing towards sustainable development outcomes and the level of smartness and of resilience that they have achieved;· fulfilling compliance obligations.ISO 37101:2016 is intended to help communities become more resilient, smart and sustainable, through the implementation of strategies, programmes, projects, plans and services, and demonstrate and communicate their achievements.ISO 37101:2016 is intended to be implemented by an organization designated by a community to establish the organizational framework and to provide the resources necessary to support the management of environmental, economic and social performance outcomes. A community that chooses to establish the organizational framework by itself is considered to constitute an organization as defined in ISO 37101:2016.ISO 37101:2016 is applicable to communities of all sizes, structures and types, in developed or developing countries, at local, regional or national levels, and in defined urban or rural areas, at their respective level of responsibility.ISO 37101:2016 can be used in whole or in part to improve the management of sustainable development in communities. Claims of conformity to ISO 37101:2016, however, are not acceptable unless all its requirements are incorporated into an organization's management system for sustainable development in communities and fulfilled without exclusion.

This part of ISO 19901 provides requirements, guidance, and information for the design and, fabrication of topsides structure for offshore structures. It complements ISO 19902, ISO 19903, ISO 19904-1, ISO 19905-1 and ISO 19906, which provide requirements for various forms of substructure. The actions on topsides structure, and the action effects in the structural components are derived from this part of ISO 19901, where necessary in combination with other International Standards in the ISO 19901 series. The resistances of non-cylindrical structural components of the topsides structure can be determined by the use of national building standards, as specified in this part of ISO 19901. The resistance of cylindrical structural components are to be in accordance with ISO 19902 but may be according to national building standards, as specified in this part of ISO 19901. This part of ISO 19901 is applicable to the following: If any part of the topsides structure forms part of the primary structure of the overall structural system which resists global platform actions, the requirements of this part of ISO 19901 are supplemented with applicable requirements in ISO 19902, ISO 19903, ISO 19904-1, ISO 19905-1 and ISO 19906. This part of ISO 19901 does not apply to those aspects of topsides structure that form part of the overall structural system of floating offshore structures and mobile offshore units that are governed by the rules of a recognized certifying authority and which are within class rules. The fire and explosion provisions of this part of ISO 19901 can however be applied to those parts of the hulls of floating offshore structures and mobile offshore units that contain hydrocarbon processing, piping or storage. This part of ISO 19901 addresses the following aspects of topsides structure: This part of ISO 19901 applies to structural components including the following:

This document describes test methods for evaluating reflection colour photographic prints with regard to changes in image appearance resulting from exposure to high relative humidity. The observed changes relate to colour, tone and loss of sharpness caused by horizontal and vertical diffusion of colorants from exposure to elevated humidity levels. Other humidity-related factors, such as mould and mildew growth, and physical damage, such as curl, cockle, cracking or delamination due to humidity cycling, are outside the scope of this test method. Although the method and procedures described in this document can be used to test any colour hardcopy technology, it is particularly appropriate to systems where the colorants are applied by a mechanism involving the diffusion of colorant into image-receiving layers (for example inkjet or dye diffusion processes) or applied onto uncoated fibrous materials such as paper.