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This part of ISO 17438 specifies the indoor navigation system architecture including additional components that are added to the existing ITS system and use cases in providing indoor navigation to various types of users including drivers, passengers, and pedestrians using personal and vehicle ITS stations. For the purposes of this document, personal and vehicle ITS stations are limited to nomadic devices used for indoor navigation. Accordingly, indoor navigation functions and services provided by nomadic devices are within the scope of this document, and indoor navigation provided by devices installed in vehicles is outside the scope of this document. The personal and vehicle ITS station in the role of end user terminal running indoor navigation functionality. — Indoor map containing indoor geometry, network topology, and POI data reflecting characteristics of indoor space. — Indoor positioning reference data containing information of positioning infrastructure: WiFi AP, RFID Reader, Bluetooth AP, etc. — Data providers to provision the indoor map or indoor positioning reference data. — Indoor data registry server to provision the information of indoor data server. — Indoor positioning functionality in the personal and vehicle ITS station using indoor positioning reference data. — Indoor positioning functionality in the central ITS station using indoor positioning reference data. — Interface between the P/V ITS station and central ITS station to communicate indoor map data and indoor positioning reference data. This part of ISO 17438 includes “General Information”, which provides a general overview and structure of each part of ISO 17438. It also specifies “Use Cases” related to the indoor navigation for personal and vehicle ITS stations.

 

This document provides a taxonomy for the levels of automation of flight control subsystems for uncrewed aircraft systems (UAS) based on the considerations for automated flight control capability, and provides the human-machine roles under different flight functions. This document is intended to support the implementation and evaluation of the flight control subsystems, but does not describe the methods for designing the functions of these systems, nor does it constrain the number or types of functions which a flight control subsystem may contain.

 

This document specifies the dimensions of, and additional requirements for, fork carriers (as defined in ISO 5053-3) and hook-on type fork arms (as described in ISO 2331), to permit the interchangeability of fork arms (as defined in ISO 5053-2) or other attachments, relative to the truck-rated capacity and fork arm type, on fork-lift trucks up to and including a rated capacity of 10 999 kg.

 

This part of EN 843 specifies methods for determining the elastic moduli, specifically Young’s modulus, shear modulus and Poisson’s ratio, of advanced monolithic technical ceramics at room temperature. This European Standard prescribes four alternative methods for determining some or all of these three parameters: A The determination of Young’s modulus by static flexure of a thin beam in three- or four-point flexure. B The determination of Young’s modulus by forced longitudinal resonance, or Young’s modulus, shear modulus and Poisson’s ratio by forced flexural and torsional resonance, of a thin beam. C The determination of Young’s modulus, shear modulus and Poisson’s ratio from the time-of-flight of an ultrasonic pulse. D The determination of Young’s modulus from the fundamental natural frequency of a struck bar (impulse excitation method). All the test methods assume the use of homogeneous test pieces of linear elastic materials. NOTE 1 Not all ceramic materials are equally and linearly elastic in tension and compression, such as some porous materials and some piezoelectric materials. With the exception of Method C, the test assumes that the test piece has isotropic elastic properties. Method C may be used to determine the degree of anisotropy by testing in different orientations. NOTE 2 An ultrasonic method for dealing with anisotropic materials (ceramic matrix composites) can be found in ENV 14186 (see Bibliography). An alternative to Method D for isotropic materials using disc test pieces is given in Annex A. NOTE 3 At high porosity levels all of the methods except Method C can become inappropriate. The methods are only suitable for a maximum grain size (see EN 623-3), excluding deliberately added whiskers, of less than 10 % of the minimum dimension of the test piece. NOTE 4 The different methods given in this European Standard can produce slightly different results on the same material owing to differences between quasi-isothermal quasi-static an

 

This document defines terms for microlens arrays. It applies to arrays of very small lenses formed inside or on one or more surfaces of a common substrate. This document also applies to systems of microlens arrays.

 

This part of this European Standard defines performance requirements which are specified as lighting classes for road lighting aiming at the visual needs of road users, and it considers environmental aspects of road lighting. NOTE Installed luminous intensity classes for the restriction of disability glare and control of obtrusive light and installed glare index classes for the restriction of discomfort glare are defined in the informative Annex A. Lighting of pedestrian crossings is discussed in the informative Annex B. Disability glare evaluation for conflict areas (C classes) and pedestrian and pedal cyclists (P classes) is discussed in the informative Annex C.

 

This part of EN 820 describes methods for determining the elastic moduli, specifically Young's modulus, shear modulus and Poisson's ratio, of advanced monolithic technical ceramics at temperatures above room temperature. The standard prescribes three alternative methods for determining some or all of these three parameters: A the determination of Young's modulus by static flexure of a thin beam in three- or four-point bending. B the determination of Young's modulus by forced longitudinal resonance, or Young's modulus, shear modulus and Poisson's ratio by forced flexural and torsional resonance, of a thin beam. C the determination of Young's modulus from the fundamental natural frequency of a struck bar (impulse excitation method). This part of EN 820 extends the above-defined room-temperature methods described in EN 843-2 to elevated temperatures. All the test methods assume the use of homogeneous test pieces of linear elastic materials. The test assumes that the test piece has isotropic elastic properties. At high porosity levels all of the methods can become inappropriate. The maximum grain size (see EN 623-3), excluding deliberately added whiskers, should be less than 10 % of the minimum dimension of the test piece. NOTE 1 Method C in EN 843-2 based on ultrasonic time of flight measurement has not been incorporated into this part of EN 820. Although the method is feasible to apply, it is specialised, and outside the capabilities of most laboratories. There are also severe restrictions on test piece geometries and methods of achieving pulse transmission. For these reasons this method has not been included in EN 820-5. NOTE 2 The upper temperature limit for this test depends on the properties of the test pieces, and can be limited by softening within the timescale of the test. In addition, for method A there can be limits defined by the choice of test jig construction materials.

 

This European Standard specifies the conventions and mathematical procedures to be adopted in calculating the photometric performance of road lighting installations designed in accordance with the parameters described in EN 13201-2 to ensure that every lighting calculation is based on the same mathematical principles. The design procedure of a lighting installation also requires the knowledge of the parameters involved in the described model, their tolerances and variability. These aspects are not considered in this part of EN 13201 but a procedure to analyse their contribution in the expected results is suggested in EN 13201-4 and it can also be used in the design phase.

 

The proposed standard will specify the terms and definitions, technological process, technical requirements, environmental protection requirements, and safety requirements, for short loop recycling of recyclable bulk neodymium iron boron (Nd-Fe-B) sintered permanent magnets. This document is applicable to recyclable bulk Nd-Fe-B sintered magnet resources from end of life (EOL) products and manufacturing process.

 

This document specifies the dimensions, the method of sampling, the preparation of the test specimens and the conditions for performing the tensile test in order to determine the short-term tensile welding factor. A tensile test can be used in conjunction with other tests (e.g. bend, tensile creep, macro) to assess the performance of welded assemblies, made from thermoplastics materials. The test is applicable to welded semi-finished products made from thermoplastics materials filled or unfilled, but not reinforced, irrespective of the welding process used.

 

This document specifies the geometries and proposed finishing procedures of the inner surface of hollow test piece of metallic materials, filled with a high-pressure gaseous medium. The document specifies a tensile testing procedure to evaluate the effect of high-pressure gaseous medium compared to a high-pressure inert gas or air. The document can be used for the screening of metallic materials by evaluating mechanical property changes due to the effects of various test gases, including hydrogen. NOTE          Temperature range and pressure range depend on the materials to be tested and test gas to be used.

 

This document specifies the requirements and their test methods applicable to all elastomeric auxiliaries used for orthodontics both inside and outside the mouth, in conjunction with fixed and removable appliances.

 

 

ISO 25237:2017 contains principles and requirements for privacy protection using pseudonymization services for the protection of personal health information. This document is applicable to organizations who wish to undertake pseudonymization processes for themselves or to organizations who make a claim of trustworthiness for operations engaged in pseudonymization services. ISO 25237:2017

- defines one basic concept for pseudonymization (see Clause 5),

- defines one basic methodology for pseudonymization services including organizational, as well as technical aspects (see Clause 6),

- specifies a policy framework and minimal requirements for controlled re-identification (see Clause 7),

- gives an overview of different use cases for pseudonymization that can be both reversible and irreversible (see Annex A),

- gives a guide to risk assessment for re-identification (see Annex B),

- provides an example of a system that uses de-identification (see Annex C),

- provides informative requirements to an interoperability to pseudonymization services (see Annex D), and

- specifies a policy framework and minimal requirements for trustworthy practices for the operations of a pseudonymization service (see Annex E).

 

The primary purpose of ISO/IEC 19788 is to specify metadata elements and their attributes for the description of learning resources. This includes the rules governing the identification of data elements and the specification of their attributes. ISO/IEC 19788 provides data elements for the description of learning resources and resources directly related to learning resources.

 

ISO/IEC 19788-3:2011 is designed to help implementers with a starting point for adopting ISO/IEC 19788, defining an application profile that specifies, through adding constraints to the use of some data elements, how the ISO/IEC 19788-2 element set can be used.

 

This document specifies cybersecurity requirements and associated assessment requirements for identity management systems that qualify as products within the meaning of Regulation (EU) 2024/2847. Such products are classified as important products (class 1) according to the implementing regulation Commission Implementing Regulation (EU) 2025/2392.

 

This document covers:
- general description of the product belonging to that category and the product and/or components such product with digital elements; 
- description of their use case; 
- security analysis; 
- definition of applicable risk profiles to be considered for these product with digital elements; 
- applicable cybersecurity requirements for each risk profile; 
- applicable cybersecurity assessment and test requirements for each risk profile.

 

Product not in the scope of this document:
- chip, Embedded OS, Applets; 
- PKI products; 
- cyber security products needed for securing IT infrastructures (VPN, SIEM….); 
- all products that are classified as default such as the anti-fire detectors products. 

 

This document defines cyber security requirements for products with digital elements belonging to product category “Hardware Device with Security Boxes” (hereinafter called “Product” or “HWSB product”).

 

The technical description of “Hardware Devices with Security Boxes” can be found in Annex II of [CRA].

 

The Hardware Devices with Security Boxes in scope are designed for deployment in a range of environments and where the threat landscape includes attackers with various attack potential.

 

HWSB are hardware-based systems intended to provide secure storage, processing and use of sensitive data, including cryptographic assets, within a protected hardware boundary (envelope).

 

This document applies to the HWSB part of the product. The applicability of this document to specific products is determined based on their intended purpose, use case and risk assessment.

 

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