ISO
ISO
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Technical committeeTypeAcronymISO/IEC 14543-3-4CommitteePublished year2007Description
Home electronic system (HES) standards describe the architecture of home control systems including communication and interoperability aspects. This International Standard specifies the general principles for network device management.
Technology -
Technical committeeTypeAcronymISO/FDIS 23247-4CommitteePublished year2020Description
This part of ISO 23247 identifies technical requirements for information exchange between entities within the reference architecture.
The ISO 23247 series defines a framework to guide the creation of Digital Twins of observable manufacturing elements including personnel, equipment, materials, processes, facilities, environment, products, and supporting documents.
The requirements for information exchange in the following networks are within the scope of this part of ISO 23247:
— User network that connects the User entity and Core entity;
— Service network that connects sub-entities within the Core entity;
— Access network that connects the Data collection and device control entity to the Core entity and to the User entity;
— Proximity network that connects the Data collection and device control entity to the observable manufacturing elements.
The following are described in other parts of ISO 23247:
— overview and general principles (Part 1);
— reference architecture (Part 2);
— digital representation of manufacturing elements (Part 3).
The following are outside of the scope of ISO 23247, but will be identified as use cases in technical reports.
— selection of the manufacturing devices and other resources to be represented by Digital Twins;
— selection of the manufacturing processes to be represented by Digital Twins;
— selection of the manufacturing products to be represented by Digital Twins. -
Technical committeeTypeAcronymISO/DIS 23247-4CommitteePublished year2020Description
This part of ISO 23247 identifies technical requirements for information exchange between entities within the reference architecture.
The ISO 23247 series defines a framework to guide the creation of Digital Twins of observable manufacturing elements including personnel, equipment, materials, processes, facilities, environment, products, and supporting documents.
The requirements for information exchange in the following networks are within the scope of this part of ISO 23247:
— User network that connects the User entity and Core entity;
— Service network that connects sub-entities within the Core entity;
— Access network that connects the Data collection and device control entity to the Core entity and to the User entity;
— Proximity network that connects the Data collection and device control entity to the observable manufacturing elements.
The following are described in other parts of ISO 23247:
— overview and general principles (Part 1);
— reference architecture (Part 2);
— digital representation of manufacturing elements (Part 3).
The following are outside of the scope of ISO 23247, but will be identified as use cases in technical reports.
— selection of the manufacturing devices and other resources to be represented by Digital Twins;
— selection of the manufacturing processes to be represented by Digital Twins;
— selection of the manufacturing products to be represented by Digital Twins. -
Technical committeeTypeAcronymISO/DIS 23247-3CommitteePublished year2020Description
This part of ISO 23247 provides a list of basic information attributes for the observable manufacturing elements.
The ISO 23247 series defines a framework to guide the creation of Digital Twins of observable manufacturing elements including personnel, equipment, materials, processes, facilities, environment, products, and supporting documents.
The following are within the scope of this part of ISO 23247:
— digital representation of observable manufacturing elements.
The following are described in other parts of ISO 23247:
— overview and general principles (Part 1);
— reference architecture (Part 2);
— Information exchange requirements for Digital Twins (Part 4).
The following are outside of the scope of ISO 23247, but will be identified as use cases in technical reports.
— selection of the manufacturing devices and other resources to be represented by Digital Twins;
— selection of the manufacturing processes to be represented by Digital Twins;
— selection of the manufacturing products to be represented by Digital Twins. -
Technical committeeTypeAcronymISO/DIS 23247-2CommitteePublished year2020Description
This part of ISO 23247 provides a reference architecture for the Digital Twin in manufacturing.
The ISO 23247 series defines a framework to guide the creation of Digital Twins of observable manufacturing elements including personnel, equipment, materials, processes, facilities, environment, products, and supporting documents.
The following are within the scope of this part of ISO 23247:
— reference architecture goals and objectives;
— reference model;
— functional view.
The following are described in other parts of ISO 23247:
— overview and general principles (Part 1);
— digital representation of manufacturing elements (Part 3);
— information exchange requirements for Digital Twins (Part 4).
The following are outside of the scope of ISO 23247, but will be identified as use cases in technical reports.
— selection of the manufacturing devices and other resources to be represented by Digital Twins;
— selection of the manufacturing processes to be represented by Digital Twins;
— selection of the manufacturing products to be represented by Digital Twins. -
Technical committeeTypeAcronymISO 9847CommitteePublished year1992KeywordsDescription
Specifies two preferred methods: the outdoor calibration (with the pyranometer in a horizontal position, in a tilted position, or at normal incidence) and the indoor calibration (using an integrating sphere with shaded or unshaded lamp, or at normal incidence). Applicable to most types of field pyranometers regardless of the type of radiation receptor employed.
Technology -
Technical committeeTypeAcronymISO 9846CommitteePublished year1993KeywordsDescription
Its use is mandatory for the calibration of secondary standard pyranometers according to ISO 9060, and is recommended for the calibration of pyranometers which are used as reference instruments in comparisons. Is intended for use by test institutions or test laboratories equipped with well-maintained pyrheliometers and is applicable to all pyranometers. The object is to promote the uniform application of reliable methods to calibrate pyranometers, since accurate calibration factors are the basis of accurate hemispherical solar radiation data which are needed for solar energy test applications or simulations.
Technology -
Technical committeeTypeAcronymISO 9461CommitteePublished year1992Description
Specifies rules for the identification. Applies in particular to valves which will be developed in future with two and three ports, where today's practice of marking valve ports is different. The identification rules apply to those ports which provide the connection between two valves or between a valve and a pipe.
Technology -
Technical committeeTypeAcronymISO 9110-2CommitteePublished year2020Description
This document establishes procedures for measuring the average steady-state pressure in a hydraulic fluid power conduit.
It is applicable to the measurement of average steady-state pressure in closed conduits with inside diameters greater than 3 mm, transmitting hydraulic fluid power with average fluid velocities less than 25 m/s and average steady-state static pressures less than 70 MPa.
It is not applicable to sensors which are flush mounted with, or an integral part of, the closed fluid conduit wall.
It provides the formulae for estimating the total uncertainty in a given pressure measurement.
Technology -
Technical committeeTypeAcronymISO 9110-1CommitteePublished year2020Description
This document establishes general principles for the measurement of performance parameters under static or steady-state conditions.
This document provides guidance on the sources and magnitudes of uncertainty to be expected in the calibration of and measurements using hydraulic fluid power components. It describes practical requirements for assessing the capability of the measuring system, and hence the level of uncertainty of the measurement system, or for assisting in developing a system which will meet a prescribed level of uncertainty.
Technology