Suomen Standardisoimisliitto SFS

This document specifies entity authentication mechanisms using authenticated encryption algorithms. Four of the mechanisms provide entity authentication between two entities where no trusted third party is involved; two of these are mechanisms to unilaterally authenticate one entity to another, while the other two are mechanisms for mutual authentication of two entities. The remaining mechanisms require an on-line trusted third party for the establishment of a common secret key, and realize mutual or unilateral entity authentication. Annex A defines Object Identifiers for the mechanisms specified in this document.

The RFID tag location, tag data content and functional requirements have been developed for application on the main line railway networks. Other networks (such as metro) may apply this standard but are outside of its scope.This document contains:- a description of the RFID tag installation location;- a description of the RFID tag data content;- a description of the functional requirements in relation to the RFID tag track side reading performance.

This international standard provides a guidance for innovation partnerships. It describes the innovation partnership framework (see Clauses 4 to 8) and the corresponding tools (see Annexes from A to D) to: The guidance provided by this international standard is relevant for any type of partnerships and collaborations and it is intended to be applicable to any organizations, regardless of its type, size, product/service provided, such as: Innovation partnership start with a gap analysis, followed by the identification, and engagement, of potential innovation partners and the governance of their interaction. This standard is not applicable to organizations seeking innovation by merger or acquisition.

This European Standard specifies the procedure for testing particle filter penetration for respiratory protective devices.

This document specifies the requirements for compatibility and connectability assessment of components of fire detection and fire alarm system or voice alarm system as a subsystem of fire detection and fire alarm system. The components comply either with the requirements of EN 54 or with a manufacturer’s specification where there is no EN 54 standard. This document only includes system requirements when these are necessary for compatibility assessment.This document covers transmission path only between components. However ,requirements for TP between components of a function which is distributed are covered by the relevant EN 54 standard and not by this document.This document also specifies requirements for the integrity of the fire detection and fire alarm system when connected to other systems.This document does not specify the manner in which the system is designed, installed and used in any particular application.This document recognizes that it is not practical to assess the compatibility or connectability of components in all possible configurations. Methods of assessment are specified to reach an acceptable degree of confidence within pre-determined operational and environmental conditions.This document specifies requirements related to compatibility and connectability assessment methods and tests for the components belonging to FDAS or connecting FDAS. This document does not cover components or functions which are not included in a FDAS.This document is applicable to systems where the components are interconnected by electrical wires or optical fibre or by radio frequency links or by any combination. For other interconnection technology between components , this standard may be used as a guidance.NOTE Other European Standards are expected to cover the requirements of the other systems to which the fire detection and fire alarm system may be connected.

This International Standard specifies a methodology for the evaluation of non-deterministic or deterministic random bit generators intended to be used for cryptographic applications. The guidelines given herein shall enable the vendor of an RBG to submit well-defined claims of security to an evaluation authority and shall enable an evaluator or a tester, for instance a validation authority, to test, certify or reject these claims. This International Standard is implementation-agnostic. Hence, it offers no specific guidance on design and implementation decisions for random bit generators. However, design and implementation issues influence the evaluation of an RBG under document, for instance because it requires the use of a stochastic model of the random source and because any such model must be supported by technical arguments pertaining to the design of the device at hand. Random Bit Generators as evaluated under the present International Standard will aim to output bit strings that appear evenly distributed. Depending on the distribution of random numbers required by the consuming application, however, it is worth noting that additional steps may have to be taken (and may well be critical to security) by the consuming application to transform the random bit strings produced by the RBG into random numbers of a distribution suitable to the application requirements. Such subsequent transformations are outside the scope of evaluations performed under this document.

This European Standard specifies the conversion of raw data from an automated measuring system (AMS) to reported data by a data acquisition and handling system (DAHS). This specification includes:- requirements for the handling of data,- requirements for the reporting of data,- calculation procedures required.The main items covered by this European Standard are given by, but not limited to raw data acquisition, raw data validation, data correction and data averaging.This European Standard supports the requirements of EN 14181 and legislation such as the IED and E-PRTR. It does not preclude the use of additional features and functions provided the minimum requirements of this European Standard are met and that these features do not adversely affect data quality, clarity or access.