Informationsteknik, kontorsutrustning

Kommittébeteckning: SIS/TK 255 (Vägtrafikinformatik)
Källa: ISO
Svarsdatum: den 27 okt 2017
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An ITS architecture is a tool for use in parts of the implementation process that enables ITS to deliver one or more services. It is a high level description of the major elements and the interconnections among them that are needed for the service(s) to be provided to stakeholders. It provides the framework around which the interfaces, specifications and detailed ITS designs can be defined. An ITS architecture is not a product design, nor a detailed specification for physical deployment, and it is not normally specific to any one location.

The purpose of an ITS architecture is to maximise efficiency, interoperability and multimodality of multiple interacting ITS services in a complex and developing sector. It also enables the ITS stakeholders to be made aware of how the services will be delivered.

This International Standard defines

(a) The requirement that aspects of ITS architecture are to be documented and described in ITS standards.

(b) Terminology to be used when documenting or referencing aspects of ITS architecture description in ITS standards.

In compiling this standard, the authors have assumed that contemporary systems engineering practices are used. Such practices are not defined within this standard.

Kommittébeteckning: SIS/TK 255 (Vägtrafikinformatik)
Källa: ISO
Svarsdatum: den 27 okt 2017
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This International Standard contains the basic control strategy, minimum functionality requirements, basic driver interface elements, minimum requirements for diagnostics and reaction to failure, and performance test procedures for Adaptive Cruise Control (ACC) systems.

ACC systems are realised as either Full Speed Range Adaptive Cruise Control (FSRA) systems or Limited Speed Range Adaptive Cruise Control (LSRA) systems. LSRA systems are further distinguished into two types, requiring manual or automatic clutch. Adaptive cruise control is fundamentally intended to provide longitudinal control of equipped vehicles while travelling on highways (roads where non-motorized vehicles and pedestrians are prohibited) under free-flowing and for FSRA-type systems also for congested traffic conditions. ACC can be augmented with other capabilities, such as forward obstacle warning. For FSRA-type systems the system will attempt to stop behind an already tracked vehicle within its limited deceleration capabilities and will be able to start again after the driver has input a request to the system to resume the journey from standstill. The system is not required to react to stationary or slow moving objects.

Kommittébeteckning: SIS/TK 255 (Vägtrafikinformatik)
Källa: ISO
Svarsdatum: den 27 okt 2017
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This International Standard specifies the "Fast Networking & Transport Protocol" (FNTP) of the ITS-S networking & transport layer.

FNTP is in support of efficient localized communications distinguishing networking related features and transport related features. FNTP is extendible in the future without breaking binary backward compatibility.

This International Standard specifies

— message formats and related basic protocol procedures by reference to ISO TS 16460:2016, and

— further requirements for operation of FNTP in the context of an ITS station specified in ISO 21217:2014.

Kommittébeteckning: SIS/TK 255 (Vägtrafikinformatik)
Källa: CEN
Svarsdatum: den 31 okt 2017
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This document specifies the application interface in the context of electronic fee collection (EFC) systems using the dedicated short-range communication (DSRC).

The EFC application interface is the EFC application process interface to the DSRC application layer, as can be seen in Figure 1 below. This document comprises specifications of:

 EFC attributes (i.e. EFC application information) that can also be used for  other applications and/or interfaces,

 the addressing procedures of EFC attributes and (hardware) components (e.g. ICC and MMI),

 EFC application functions, i.e. further qualification of actions by definitions of the concerned services, assignment of associated ActionType values and content and meaning of action parameters, the EFC transaction model, which defines the common elements and steps of any EFC transaction, the behaviour of the interface so as to ensure interoperability on an EFC-DSRC application interface level.

This is an interface standard, adhering to the open systems interconnection (OSI) philosophy (see ISO/IEC 7498-1), and it is as such not primarily concerned with the implementation choices to be realised at either side of the interface.

This document provides security-specific functionality as place holders (data and functions) to enable the implementation of secure EFC transactions. Yet the specification of the security policy (including specific security algorithms and key management) remains at the discretion and under the control of the EFC operator, and hence is outside the scope of this document.

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This International Standard specifies conceptual schemas for describing the spatial characteristics of geographic entities, and a set of spatial operations consistent with these schemas. It treats "vector" geometry and topology. It defines standard spatial operations for use in access, query, management, processing and data exchange of geographic information for spatial (geometric and topological) objects.

Because of the nature of geographic information, these geometric coordinate spaces will normally have up to three spatial dimensions, one temporal dimension and any number of other spatially dependent parameters as needed by the applications. In general, the topological dimension of the spatial projections of the geometric objects will be at most three.

Kommittébeteckning: SIS/TK 334 (Hälso- och sjukvårdsinformatik)
Källa: CEN
Svarsdatum: den 10 nov 2017
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1.1 Main purposes

The main purpose of this International Standard is to formally represent the content and hierarchical structure of healthcare classification systems in a markup language for the safe exchange and distribution of data and structure between organizations and dissimilar software products.

The scope of healthcare classifications systems covered in this International Standard encompasses terminologies, and is constrained to traditional paper-based systems (like ICD-10) and systems built according to categorial structures and a cross thesaurus (like ICNP). (2) This International Standard is intended for representation of healthcare classification systems in which classes have textual definitions, hierarchical ordering, named hierarchical levels (such as "chapter", "section"), inclusion- and exclusion criteria, and codes. It is not intended to cover any formal representation, either for definition or composition, of concepts, or for specification of classification rules. Systems with such formal specifications can at best be partially represented using this International Standard, and are hence out of scope. The reader of this document will recognize that most of the notes and examples in this standard relate to ICD-10. This is due to the fact that that ICD-10 is the most common classification system in the scope of this standard. As a highly complex classification system it is an inexhaustible source for examples of nearly any kind. But all these notes and examples represent also any other similar classification systems, if applicable, which are usually less complex. An overview of currently known classification systems using ClaML is provided in a separate document attached to the standard in the section resources.

1.2 Topics considered outside the scope of this International standard

This International Standard is not intended to:

a)provide a normative syntax on how a healthcare classification system is to be constructed;

b)define link types between elements in a healthcare classification system; this is left to thedevelopers of healthcare classification systems;

c)provide a representation for direct viewing or printing.

Kommittébeteckning: SIS/TK 448 (Teknik och stödsystem för personlig identifiering)
Källa: ISO
Svarsdatum: den 29 nov 2017
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This part of ISO/IEC 10373 defines test methods for characteristics of integrated circuit cards with contacts and related interface devices according to the definition given in ISO/IEC 7816. Each test method is cross-referenced to one or more base standards, which can be ISO/IEC 7810 or one or more of the supplementary International Standards that define the information storage technologies employed in identification card applications.

NOTE Criteria for acceptability do not form part of this part of ISO/IEC 10373 but will be found in the International Standards mentioned above.

This part of ISO/IEC 10373 defines test methods which are specific to integrated circuit technology with contacts. ISO/IEC 10373-1 defines test methods which are common to one or more card technologies and other parts define other technology-specific tests.

Test methods defined in this part of ISO/IEC 10373 are intended to be performed separately and independently. A given card is not required to pass through all the tests sequentially. The test methods defined in this part of ISO/IEC 10373 are based on ISO/IEC 7816-3.

Conformance of cards and IFDs determined using the test methods defined in this part of ISO/IEC 10373 does not preclude failures in the field. Reliability testing is outside the scope of this part of ISO/IEC 10373.

This part of ISO/IEC 10373 does not define any test to establish the complete functioning of integrated circuit cards. The test methods require only that the minimum functionality be verified. Minimum functionality is defined as follows.

 - Any integrated circuit present in the card continues to show an Answer to Reset response which conforms to the base standard.

- Any contacts associated with any integrated circuit present in the card continue to show electrical resistance which conforms to the base standard.

Kommittébeteckning: SIS/TK 448 (Teknik och stödsystem för personlig identifiering)
Källa: ISO
Svarsdatum: den 29 nov 2017
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ISO/IEC 10373 defines test methods for characteristics of identification cards according to the definition given in ISO/IEC 7810. Each test method is cross-referenced to one or more base standards, which can be ISO/IEC 7810 or one or more of the supplementary standards that define the information storage technologies employed in identification card applications.

Criteria for acceptability do not form part of ISO/IEC 10373, but will be found in the International Standards mentioned above.

Test methods defined in this part of ISO/IEC 10373 are intended to be performed separately. A given proximity card or object, or proximity coupling device, is not required to pass through all the tests sequentially.

This part of ISO/IEC 10373 defines test methods which are specific to proximity cards and objects, and proximity coupling devices and proximity extended devices, defined in ISO/IEC 14443-1, ISO/IEC 14443-2, ISO/IEC 14443-3, and ISO/IEC 14443-4.

ISO/IEC 10373-1 defines test methods which are common to one or more integrated circuit card technologies and other parts deal with other technology-specific tests.

The conformance test plan defined in Annex O specifies the list of tests applicable for each part of ISO/IEC 14443.

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The scope of this standard is to provide the minimum requirements for the knowledge, skills and effectiveness requirements of individuals performing testing activities for a conformance scheme using the ISO/IEC 19790 and ISO/IEC 24759 standards.

Kommittébeteckning: SIS/TK 434 (Grafisk teknik)
Källa: ISO
Svarsdatum: den 6 dec 2017
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This International Standard is based on ISO 15076‐1, and describes an expanded profile specification and profile connections that permit a greater flexibility and functionality than ISO 15076‐1. All definitions and requirements in ISO 15076‐1 are therefore in force unless otherwise specified by this document. This document defines minimum structural and operational requirements for writing and reading ICC profiles. Additional workflow requirements and restrictions are defined in domain specific Interoperability Conformance Specification (ICS) documents approved and registered by the ICC.

In this document, some 15076‐1 types have been removed, and others have been added. An ISO 20677 capable CMM should have backwards compatibility with profiles conforming to ISO 15076‐1.

Where the name of a type in this document is the same as a type in ISO 15076‐1, the type definition is based on the ISO 15076‐1 definition. The exception is the definition of the MPE type, which has been expanded.

Where the extensions described in this International Standard are not required in a particular workflow, users should continue to use ISO 15076‐1 as the basis for colour management profiles and architectures.

Kommittébeteckning: SIS/TK 448 (Teknik och stödsystem för personlig identifiering)
Källa: ISO
Svarsdatum: den 8 dec 2017
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This part of ISO/IEC 18745 provides a set of instructions for evaluation of Machine Readable Passports (MRPs) which may incorporate contactless integrated circuits. This evaluation is an instrument to establish the ability in principle of a specific type of document to fulfil the requirements of use. It supplies a structured approach to evaluate Machine Readable Passports by:

— defining reproducible stress methods to submit the document(s) under evaluation to specific stress or environmental conditions;

— defining reproducible evaluation methods to measure numerical values for specific document properties;

— defining test sequences that specify the order in which stress methods and evaluation methods are to be performed;

— defining test plans to link specific user requirements to test sequences and related parameters. It specifies the minimum criteria to be achieved in order to meet ICAO’s expectations for durability of fully personalized MRPs.

Kommittébeteckning: SIS/TK 110 (Akustik och buller)
Källa: ISO
Svarsdatum: den 11 dec 2017
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This document specifies procedures for measuring and reporting the noise emission of information technology and telecommunications equipment.

NOTE 1 This document is considered part of a noise test code (see 3.1.2) for this type of equipment, and is based on basic noise emission standards (see 3.1.1) ISO 3741, ISO 3744, ISO 3745, ISO 9295 and ISO 11201.

The basic emission quantity is the A-weighted sound power level which may be used for comparing equipment of the same type but from different manufacturers, or for comparing different equipment.

Three basic noise emission standards for determination of the sound power levels are specified in this document in order to avoid undue restriction on existing facilities and experience. ISO 3741 specifies comparison measurements in a reverberation test room; ISO 3744 and ISO 3745 specify measurements in an essentially free field over a reflecting plane. Any one of these three basic noise emission standards can be selected and used exclusively in accordance with this document when determining sound power levels of a machine.

The A-weighted sound power level is supplemented by the A-weighted emission sound pressure level determined at the operator position(s) or the bystander positions, based on basic noise emission standard ISO 11201. This sound pressure level is not a worker's immission rating level, but it can assist in identifying any potential problems that could cause annoyance, activity interference, or hearing damage to operators and bystanders.

Methods for determination of whether the noise emission includes prominent discrete tones or is impulsive in character are specified in Annexes D and E, respectively.

This document is suitable for type tests and provides methods for manufacturers and testing laboratories to obtain comparable results.

The methods specified in this document allow the determination of noise emission levels for a functional unit (see 3.1.4) tested individually.

The procedures apply to equipment which emits broad-band noise, narrow-band noise and noise which contains discrete-frequency components, or impulsive noise.

The sound power and emission sound pressure levels obtained can serve noise emission declaration and comparison purposes (see ISO 9296).

NOTE 2 The sound power levels and emission sound pressure levels obtained are not to be considered as installation noise immission levels; however, they can be used for installation planning (see ECMA TR/27[5]).

If sound power levels obtained are determined for a number of functional units of the same production series, they can be used to determine a statistical value for that production series (see ISO 9296).

Kommittébeteckning: SIS/TK 228 (Lantbruksmaskiner)
Källa: ISO
Svarsdatum: den 11 dec 2017
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ISO 11783 as a whole specifies a serial data network for control and communications on forestry or agricultural tractors and mounted, semi‐mounted, towed or self‐propelled implements. Its purpose is to standardize the method and format of transfer of data between sensors, actuators, control elements, and information‐storage and ‐display units, whether mounted on, or part of, the tractor or implement. It is intended to provide open system interconnect (OSI) for electronic systems used by agricultural and forestry equipment. This part of ISO 11783 describes the data link layer and the use of CAN classical data frames by the network.

Ämnesområden: Kodning av information
Kommittébeteckning: SIS/TK 166 (Förpackningslogistik och spårbarhet)
Källa: ISO
Svarsdatum: den 11 dec 2017
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This international standard defines the crypto suite for SPECK for the ISO/IEC 18000 air interfaces standards for radio frequency identification (RFID) devices. Its purpose is to provide a common crypto suite for security for RFID devices that may be referred by ISO committees for air interface standards and application standards. The crypto suite is defined in alignment with existing air interfaces.

SPECK is a symmetric block cipher that is parameterized in both its block length and key length. In this standard a variety of block/key length options are supported.

This international standard defines various methods of use for the cipher.

A Tag and an Interrogator may support one, a subset, or all of the specified options, clearly stating what is supported.

Kommittébeteckning: SIS/TK 255 (Vägtrafikinformatik)
Källa: ISO
Svarsdatum: den 13 dec 2017
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This International Standard provides specifications of a communication interface (CI) named "ITS-M5".

The name "ITS-M5" indicates microwave frequency bands in the range of 5 GHz.

ITS-M5 CIs are based on the wireless LAN technology standardized at IEEE. This International Standard specifies the additions to and deviations from IEEE Std 802.11™-2016 required to make ITS-M5 CIs compatible with the ITS station and communication architecture specified in ISO 21217.

Kommittébeteckning: SIS/TK 255 (Vägtrafikinformatik)
Källa: ISO
Svarsdatum: den 14 dec 2017
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This International Standard specifies general technical details related to the access layer of the ITS station reference architecture specified in ISO 21217:2014 including

— the service access point (SAP) of a communication interface (CI) as provided by the communication adaptation layer (CAL) for communication, named IN-SAP, and related service primitives and service primitive functions,

— the SAP provided by the CI management adaptation entity (MAE) for management of the communication interface, named MI-SAP, and related service primitives by reference to ISO 24102-3:2017, and service primitive functions.

Kommittébeteckning: SIS/TK 302 (Multimedia, kodning och representation)
Källa: ISO
Svarsdatum: den 19 dec 2017
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The scope of this part of ISO/IEC 23005 covers definitions of data types and tools, which are used in other parts of ISO/IEC 23005, but not specific to a single part of ISO/IEC 23005.

This part of ISO/IEC 23005 specifies syntax and semantics of the data types and tools common to the tools defined in the other parts of ISO/IEC 23005, such as basic data types which are used as basic building blocks in more than one of the tools in ISO/IEC 23005, colour-related basic types which are used in light and colour-related tools to help in specifying colour-related characteristics of the devices or commands, and time stamp types which can be used in device commands, and sensed information to specify timing related information.

Classification schemes, which provide semantics of words or terms and normative way of referencing them, are also defined in Annex A of this part of ISO/IEC 23005, if they are used in more than one part of ISO/IEC 23005.

The tools defined in this part are not intended to be used alone, but to be used as a part or as a supporting tool of other tools defined in other parts of ISO/IEC 23005, except for the profile and level definitions.

Finally, this part of ISO/IEC 23005 contains standard profiles and levels to be used in specific application domains. The profile and level definitions include collection of tools from Control information [ISO/IEC 23005-2] and Data format for interaction devices [ISO/IEC 23005-5] with necessary constraints.

Kommittébeteckning: SIS/TK 448 (Teknik och stödsystem för personlig identifiering)
Källa: ISO
Svarsdatum: den 20 dec 2017
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