Toimialayhteisöt

 

This document specifies a common framework for audit trails for electronic health records (EHR), in terms of audit trigger events and audit data, to keep the complete set of personal health information auditable across information systems and domains. It is applicable to systems processing personal health information that create a secure audit record each time a user reads, creates, updates, or archives personal health information via the system. NOTE Such audit records at a minimum uniquely identify the user, uniquely identify the subject of care, identify the function performed by the user (record creation, read, update, etc.), and record the date and time at which the function was performed. This document covers only actions performed on the EHR, which are governed by the access policy for the domain where the electronic health record resides. It does not deal with any personal health information from the electronic health record, other than identifiers, the audit record only containing links to EHR segments as defined by the governing access policy. It does not cover the specification and use of audit logs for system management and system security purposes, such as the detection of performance problems, application flaw, or support for a reconstruction of data, which are dealt with by general computer security standards such as ISO/IEC 15408 [2] all parts. Annex A gives examples of audit scenarios. Annex B gives an overview of audit log services.

 

Tämä kansallinen standardi sisältää toimivuusvaatimukset sairaaloiden tai vastaavien hoitoyksiköiden potilaiden tai asukkaiden käyttöön tarkoitetuille pussilakanoille, lakanalle ja tyynyliinalle. Standardissa määritellään materiaalien oleelliset ominaisuudet ja minimi vaatimustaso sekä annetaan oleelliset tuotteiden mitat.

Huom. standardiehdotuksen taulukossa 5 on virhe. Oikeat mitat ovat: 
Leveys 160 cm (toleranssi 150...165 cm) x pituus 290 cm (toleranssi 280...300 cm).
Virhe korjataan ennen standardin vahvistamista SFS-standardiksi.

 

 

Tätä standardia sovelletaan F-kaasuasetuksen tai ODS-asetuksen soveltamisaloihin kuuluviin solumuovilevyihin ja laminoituihin levyihin. Tässä standardissa solumuovilevystä käytetään termiä eriste-elementti ja laminoidusta levystä termiä eristelevy. Standardia ei sovelleta F-kaasuja tai otsonikerrosta heikentäviä aineita sisältäviin tiivistys- tai asennusvaahtoihin, jotka eivät kuulu myöskään F-kaasuasetuksen tai ODS-asetuksen tätä koskevaan velvoitteeseen. On huomattava, että poikkeaminen asetusten velvollisuuksista on mahdollista vain onkaloissa ja rakenteiden sisällä sijaitsevien eristelevyjen osalta.

 

The System Package Data Exchange™ (SPDX®) specification defines an open standard for communicating bill of materials (BOM) information for different topic areas. SPDX defines an underlying data model as well as multiple serialization formats to encode that data model. SPDX metadata includes details about creation and distribution, including the following:

• software composition, for collections of software (Packages), individual Files, and portions of files (Snippets)

• software build information

• artificial intelligence (AI) models

• datasets

• creator, supplier and distributor identity information

• provenance and integrity

• licenses and copyrights, including a curated list of licenses and exceptions

• security vulnerabilities, defects, and other quality data

• relationships between system elements

• software usage and lifecycle

• mechanisms to enable annotating SPDX elements and linking between multiple SPDX Documents

 

This document defines quality measures for quantitatively evaluating product quality in terms of characteristics and subcharacteristics defined in ISO/IEC 25010 and is intended to be used together with ISO/IEC 25010. It can be used in conjunction with the ISO/IEC 2503n and the ISO/IEC 2504n standards or to more generally meet user needs concerning ICT products and software products quality. This document contains a basic set of quality measures for each characteristic and subcharacteristics. It includes, as informative annexes, considerations for the use of quality measures (Annex A), QMEs used to define product or system quality measures (Annex B), and a detailed explanation of measurement types (Annex C). This document does not provide the specific ranges of values of the measures to rated levels or grades of compliance because these values are determined based on the nature of the system, product, or a part of the product, and depending on factors such as the category of the software, integrity level, and users’ needs. Some attributes could have a desirable range of values, which does not depend on specific user needs but depends on generic factors; The proposed quality measures are primarily intended to be used for quality assurance and improvement of products during or post the development life cycle process. The main users of this document are people carrying out quality requirement specification and evaluation activities as part of the following: — development: including requirements analysis, design specification, coding, and testing through acceptance during the life cycle process; — quality management: systematic examination of the software product or computer system, for example, when evaluating system or software product quality as part of quality assurance, quality control, and quality certification; — supply: a contract with the acquirer for the supply of a system, software product, or software service under the terms of a contract, for example, when validating quality at qualification test; — acquisition: including product selection and acceptance testing, when acquiring or procuring a system, software product, or software service from a supplier; — maintenance: improvement of the software product or system based on quality measurement.

 

This document establishes general principles for the creation of symbols of physical quantities, coefficients, and parameters for metal springs. It specifies the presentation of basic characters, subscripts, and application symbols for use in the field of helical compression springs, helical extension springs, helical torsion springs, flat springs, leaf springs and disc springs. This document is applicable to technical product documentation, especially for describing and ordering.

 

This document specifies the requirements for devices which limit and/or indicate the loads, motions, performance and environment of jib cranes. The general requirements for limiting and indicating devices for cranes are given in ISO 10245-1. This document applies to jib cranes (except for cantilever crane) as defined in ISO 4306-4. This document does not apply to the mobile, tower, railway, floating and offshore cranes defined in ISO 4306-1.

 

This part of ISO 1268 specifies the general principles and procedures for the compression moulding of test plates from two types of fibre-reinforced thermosetting moulding compound: sheet moulding compound (SMC) and bulk moulding compound (BMC). The aim of this part of ISO 1268 is to ensure the preparation of flat test plates from which test specimens can be cut (for the relevant test methods, see Annex A). The plates are produced in such a way that specimens cut from them give representative results when used in these test methods.

 

This document specifies two methods for the determination of the density of glass fibre: — Method A: Gas pycnometer method; — Method B: Liquid pycnometer method.

 

This document specifies requirements for the design and operation of surface-based observing networks used for the determination of GHG emissions in urban environments. It establishes protocols for measurements of carbon dioxide (CO2), methane (CH4), and carbon monoxide (CO) in the atmosphere. This document does not address measurements of nitrous oxide (N2O) and fluorinated gases (HFCs). NOTE CO is included because of its use as a proxy indicator gas for some widely used combustion sources, such as automobiles. This document establishes requirements for GHG concentration measurements in the incoming and outgoing air streams associated with an urban environment. This document is aimed to inform local and regional governments about how to assess GHG emissions within their jurisdictions, and about how to assess the impact of mitigation efforts undertaken by governments and private sector organizations to reduce GHG emissions.

 

This document specifies secure two-party and outsourced multi-party computation mechanisms based on the garbled circuits technique, including garbled circuit generation, garbled circuit evaluation, requirements for input labels, result reconstruction, and garbled circuits security instantiation.

 

This document specifies a method for determining the flexural properties of rigid and semi-rigid plastics under defined conditions. A preferred test specimen is defined, but parameters are included for alternative specimen sizes for use where appropriate. A range of test speeds is included. The method is used to investigate the flexural behaviour of the test specimens and to determine the flexural strength, flexural modulus and other aspects of the flexural stress/strain relationship under the conditions defined. It applies to a freely supported beam, loaded at midspan (three-point loading test). The method is suitable for use with the following range of materials: — thermoplastic moulding, extrusion and casting materials, including filled and reinforced compounds in addition to unfilled types; rigid thermoplastics sheets; — thermosetting moulding materials, including filled and reinforced compounds; thermosetting sheets. In agreement with ISO 10350-1[5] and ISO 10350-2,[6] this document applies to fibre-reinforced compounds with fibre lengths =7,5 mm prior to processing. For long-fibre-reinforced materials (laminates) with fibre lengths >7,5 mm, see ISO 14125[7]. The method is not normally suitable for use with rigid cellular materials or sandwich structures containing cellular material. In such cases, ISO 1209-1[3] and/or ISO 1209-2[4] can be used. NOTE 1 For certain types of textile-fibre-reinforced plastic, a four-point bending test is used. This is described in ISO 14125. The method is performed using specimens which can be either moulded to the specified dimensions, machined from the central section of a standard multipurpose test specimen (see ISO 20753) or machined from finished or semi-finished products, such as mouldings, laminates, or extruded or cast sheet. The method specifies the preferred dimensions for the test specimen. Tests which are carried out on specimens of different dimensions, or on specimens which are prepared under different conditions, can produce results which are not comparable. Other factors, such as the test speed and the conditioning of the specimens, can also influence the results. NOTE 2 Especially for injection moulded semi-crystalline polymers, the thickness of the oriented skin layer, which is dependent on the moulding conditions, also affects the flexural properties. The method is not suitable for the determination of design parameters but can be used in materials testing and as a quality control test.

 

This test method covers the determination of the low-rate fracture toughness (JIc) of plastics exhibiting a ductile behaviour and characterized by a macroscopically stable crack growth during a fracture test. The application of standard LEFM tests to these materials typically fails due to the excessive non-linearity in the response. This test method, developed for the SEN(B) testing configuration, describes a single-specimen approach that does not require the measurement of ?a. Not intended to provide a method to construct the material JR curve, this test method allows checking a priori the applicability of the multi-specimen approach based on the ?a measurement for the construction of the material JR curve to a ductile polymer with given specimen geometry and dimensions. This is done by referring to a specially developed crack propagation parameter, which is labelled mS.

 

This document specifies the general requirements and test methods for steel and carbide rotary instruments used in dentistry, including designation, colour code and a quality control for these instruments. It applies to all types of steel and carbide rotary instruments independent of type and shape.

 

This document specifies requirements, test methods, and labeling for protective filtering devices intended for protection against retinal blue light exposure from powered polymerization activators in the scope of ISO 10650:2018, i.e., powered polymerization activators using quartz-tungsten halogen lamps or light emitting diodes (LED) to activate polymerization. This document does not apply to protective filtering devices for lasers or plasma arc devices.

 

This document defines terms that are used in the field of pigments, dyestuffs and extenders. For some terms, reference is made to ISO 4618 in which also terms and definitions for colourants are given, relating to their use in coating materials.

 

This document applies to the industry producing colouring materials and the consumer who uses the products of this industry. In this document, the colouring materials are classified in accordance with colouristic and chemical aspects. Some dyestuffs for use in the ceramics and food industries are listed as examples.

 

This document specifies a method for the measurement of 99Tc in all types of waters by liquid scintillation counting (LSC). The method is applicable to test samples of supply/drinking water, rainwater, surface and ground water, as well as cooling water, industrial water, domestic, and industrial wastewater after proper sampling and handling, and test sample preparation. A filtration of the test sample is necessary. The detection limit depends on the sample volume and the instrument used. The method described in this document, using currently available LSC instruments, has a detection limit of approximately 5 Bq·kg-1 to 20 Bq·kg-1, which is lower than the WHO criteria for safe consumption of drinking water (100 Bq l-1)[3]. These values can be achieved with a counting time of 30 min for a sample volume varying between 14 ml to 40 ml. The method presented in this document is not intended for the determination of ultra-trace amount of 99Tc. The activity concentration values in this document are expressed by sample mass unit instead of sample volume unit as it is usually the case in similar standards. The reason is that 99Tc is measured in various matrix types such as fresh water or sea water, which have significant differences in density. The activity concentration values can be easily converted to sample volume unit by measuring the sample volume. However, it increases the uncertainty on the activity concentration result. The method described in this document is applicable in the event of an emergency situation, but not if 99mTc is present at quantities that could cause interference and not if 99mTc is used as a recovery tracer. The analysis of Tc adsorbed to suspended matter is not covered by this method. It is the user's responsibility to ensure the validity of this test method for the water samples tested.

 

This document specifies a method for determining the flexural properties of rigid and semi-rigid plastics under defined conditions. A preferred test specimen is defined, but parameters are included for alternative specimen sizes for use where appropriate. A range of test speeds is included. The method is used to investigate the flexural behaviour of the test specimens and to determine the flexural strength, flexural modulus and other aspects of the flexural stress/strain relationship under the conditions defined. It applies to a freely supported beam, loaded at midspan (three-point loading test). The method is suitable for use with the following range of materials: — thermoplastic moulding, extrusion and casting materials, including filled and reinforced compounds in addition to unfilled types; rigid thermoplastics sheets; — thermosetting moulding materials, including filled and reinforced compounds; thermosetting sheets. In agreement with ISO 10350-1[5] and ISO 10350-2[6], this document applies to fibre-reinforced compounds with fibre lengths =7,5 mm prior to processing. For long-fibre-reinforced materials (laminates) with fibre lengths >7,5 mm, see ISO 14125[7]. The method is not normally suitable for use with rigid cellular materials or sandwich structures containing cellular material. In such cases, ISO 1209-1[3] and/or ISO 1209-2[4] can be used. NOTE 1 For certain types of textile-fibre-reinforced plastic, a four-point bending test is used. This is described in ISO 14125. The method is performed using specimens which can be either moulded to the specified dimensions, machined from the central section of a standard multipurpose test specimen (see ISO 20753) or machined from finished or semi-finished products, such as mouldings, laminates, or extruded or cast sheet. The method specifies the preferred dimensions for the test specimen. Tests which are carried out on specimens of different dimensions, or on specimens which are prepared under different conditions, can produce results which are not comparable. Other factors, such as the test speed and the conditioning of the specimens, can also influence the results. NOTE 2 Especially for injection moulded semi-crystalline polymers, the thickness of the oriented skin layer, which is dependent on the moulding conditions, also affects the flexural properties. The method is not suitable for the determination of design parameters but can be used in materials testing and as a quality control test.