35.240.99 - IT applications in other fields
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IT applications in other fields
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This document specifies a Narrow AI Engine Framework including requirements for the Energy Management Agent (EMA) specified in ISO/IEC 15067-3. This standard includes specifications for an AI infrastructure to be embedded in an EMA serving a single structure (home or building) or community housing such as an apartment complex. The Narrow AI Engine specified in this standard for EMAs enables demand response functionality to be located in each EMA instead of an external energy management system. Thus, energy management can be adapted to local and customer needs. The Narrow AI Engine includes operational principles such as prediction, decision–making, and control. This standard builds upon the EMA functions of ISO/IEC 15067-3 and ISO/IEC 15067-3-3. The AI functions specified in this standard support complex decisions about energy management for devices attached to home and buildings networks. These AI specifications enable the EMA to allocate power from public sources (including conventional and nonconventional sources) and local sources (wind, solar, and storage) according to price, availability, appliance and electric vehicle demands, customer preferences, and the customer’s budget.
- Standard22 pagesEnglish languagesale 15% off
This document specifies logistics visibility data, data elements, interchange message, and framework of logistics information service providers (LISP) interconnection. This document is applicable to regional and inter-regional logistics data interchange services of transport means and goods management in maritime, road, air, and railway import/export transportation.
- Standard113 pagesEnglish languagesale 15% off
This standard gives guidance on establishing a decision-making framework for sharing data and information services in smart cities. It covers: a) types of data in smart cities; b) establishing a data sharing culture; c) data value chain – roles and responsibilities; d) purposes for data use; e) assessing data states; f) defining access rights for data; and g) data formats/format of transportation. This standard aims to support the sharing of data and information services within cities. For some cities there will also be a need to establish specific data sharing agreements, particularly where data is being shared by multiple organizations at once. This standard supports a transparent approach to making decisions and creating specific data sharing agreements in order to fully realise the benefits and value of data and information services in a city. Missing data or misinterpretation of data can lead to the wrong actions being taken by city decision-makers. A decision-making framework for sharing data can help ensure that they have the best overall data on which to base decisions. This standard does not cover: a) national security issues; b) good practice for use of data by the citizen; c) existing interoperability agreements between cities; d) defining application programming interfaces (API) networks; or e) any data sharing rules and regulations specific to a particular jurisdiction. It is assumed that a security-minded approach to data sharing is used by cities. NOTE 1 Further details on the areas not covered in this standard, including information on relevant standards publications, are given in Annex A. This standard is for use by decision-makers in smart cities from the public, private and third sectors. It is also of interest to any city organization wishing to share data.
- Standard46 pagesEnglish languagesale 15% off
This document defines an ontology for city-level concepts defined using terms specified in ISO/IEC 5087-1. City-level concepts are used to represent data that is shared across multiple services and stakeholders in the city. City-level concepts are distinguished by their data being read and updated by multiple city services and stakeholders.
- Standard48 pagesEnglish languagesale 15% off
This document identifies ergonomic or human-systems issues and guidance for the development and use of systems involving immersive environments, augmented reality and virtual reality. This includes: a) environments where the user is provided with a perception of being physically present in a virtually-created world; b) environments where the user is represented virtually and can interact in a real-world environment; c) environments involving artificial reality, augmented reality, virtual reality, mixed reality and similar simulated realities; d) computer-generated environments where the user interacts with simulated objects in a manner similar to how the user would interact with the real-world counterparts of these objects. This document is not an exploration of the philosophical, ethical or political issues surrounding the use of immersive environments. This document limits its treatment of the technologies used to create immersive environments to focusing on their interactions with users and does not investigate other aspects of these technologies. The target audience for this document is decision-makers, designers and engineers who would benefit from the consideration of human-systems issues of immersive environments. Futurists, researchers, technology developers, regulators and legislators could also find this document useful.
- Standard37 pagesEnglish languagesale 15% off
- Standard39 pagesFrench languagesale 15% off
This draft European standard is applicable to the physical and link layer parameters of baseband communication over twisted pair (M Bus) for meter communication systems. It is especially applicable to thermal energy meters, heat cost allocators, water meters and gas meters.
NOTE It is usable also for other meters (like electricity meters) and for sensors and actuators. For generic descriptions concerning communication systems for meters and remote reading of meters see EN 13757-1.
- Standard38 pagesEnglish languagesale 10% offe-Library read for1 day
This document specifies the general requirements for a city service platform for public health emergencies. It also specifies the requirements in terms of data, functions, security and privacy protection.
- Standard14 pagesEnglish languagesale 15% off
This document uses a set of models that describe the flows of different types of data between distributed ledger technologies (DLT) and related systems, as well as between different DLT nodes. It provides a descriptive analysis of data flows in the development of use cases, as well as the basis for understanding the characteristics of DLT data flows, to support DLT application design and system analysis. The models referenced are in accordance with ISO 23257:2022 and the use case analysis approach provided in ISO/TR 3242:2022.
- Technical report49 pagesEnglish languagesale 15% off
ISO 16484-1:2010 specifies guiding principles for project design and implementation and for the integration of other systems into the building automation and control systems (BACS).
ISO 16484-1:2010 specifies the phases required for the BACS project, including:
design (determination of project requirements and production of design documents including technical specifications),
engineering (detailed function and hardware design),
installation (installing and commissioning of the BACS), and
completion (handover, acceptance and project finalization).
ISO 16484-1:2010 also specifies the requirements for as-built documentation and training.
ISO 16484-1:2010 is not applicable to operation and maintenance, nor is it applicable to retro or continuous commissioning, including a commissioning authority.
- Standard30 pagesEnglish languagesale 10% offe-Library read for1 day
This document specifies guiding principles for project design and implementation and for the integration of other systems into the building automation and control systems (BACS).
This document specifies the phases required for the BACS project, including
— design (determination of project requirements and production of design documents including technical specifications),
— engineering (detailed function and hardware design),
— installation (installing and commissioning of the BACS), and
— completion (handover, acceptance and project finalization).
This document also specifies the requirements for as-built documentation and training.
This document is not applicable to operation and maintenance, nor is it applicable to retro or continuous commissioning, including a commissioning authority.
- Standard30 pagesEnglish languagesale 10% offe-Library read for1 day
This Technical Report contains additional information to the requirements determined in EN 13757-2, EN 13757-3 and EN 13757-7, in particular examples for the implementation, Datagram examples secured by security mechanism of part 7 and additional non-normative requirements beyond meter communication itself.
- Technical report90 pagesEnglish languagesale 10% offe-Library read for1 day
This document specifies the terminology and performance requirements for all sensor components of stationary equipment within a Road Weather Information System (RWIS).
- Standard15 pagesEnglish languagesale 10% offe-Library read for1 day
This document defines fundamental terminology for blockchain and distributed ledger technologies.
- Standard14 pagesEnglish languagesale 15% off
This draft European standard is applicable to the physical and link layer parameters of baseband communication over twisted pair (M Bus) for meter communication systems. It is especially applicable to thermal energy meters, heat cost allocators, water meters and gas meters.
NOTE It is usable also for other meters (like electricity meters) and for sensors and actuators. For generic descriptions concerning communication systems for meters and remote reading of meters see EN 13757-1.
- Standard38 pagesEnglish languagesale 10% offe-Library read for1 day
This Technical Report contains additional information to the requirements determined in EN 13757-2, EN 13757-3 and EN 13757-7, in particular examples for the implementation, Datagram examples secured by security mechanism of part 7 and additional non-normative requirements beyond meter communication itself.
- Technical report90 pagesEnglish languagesale 10% offe-Library read for1 day
This document specifies the test methods, the experimental set-up and result analysis for the laboratory qualification of stationary equipment within a RWIS.
- Technical specification42 pagesEnglish languagesale 10% offe-Library read for1 day
This document specifies the terminology and performance requirements for all sensor components of stationary equipment within a Road Weather Information System (RWIS).
- Standard15 pagesEnglish languagesale 10% offe-Library read for1 day
This document specifies the test methods, the experimental set-up and result analysis for the laboratory qualification of stationary equipment within a RWIS.
- Technical specification42 pagesEnglish languagesale 10% offe-Library read for1 day
The development of a European standard(s) on reporting by online gambling service operators and suppliers to the gambling regulatory authorities in the Member States for the purpose of supervision of online gambling services will specify the core data for reporting purposes, while ensuring integrity and security of the data as well as personal data protection.
The requested European standard(s) will provide a voluntary tool to the gambling regulatory authorities in the Member States without prejudice to the scope of competence of Member States in the regulation of online gambling and without imposing any obligation on them to introduce reporting requirements or to authorize or deny authorization to any operators or suppliers.
- Standard271 pagesEnglish languagesale 10% offe-Library read for1 day
This document specifies the concept phase of the development of safety-related parts of control systems (SRP/CS) on tractors used in agriculture and forestry and on self-propelled ride-on machines and mounted, semi-mounted and trailed machines used in agriculture. It can also be applied to mobile municipal equipment (such as street-sweeping machines).
This document is not applicable to:
— aircraft and air-cushion vehicles used in agriculture;
— lawn and garden equipment.
This document specifies the characteristics and categories required of SRP/CS for carrying out their safety-related functions. It does not identify performance levels for specific applications.
NOTE 1 Machine specific type-C standards can specify performance levels (AgPL) for safety-related functions in machines within their scope. Otherwise, the specification of AgPL is the responsibility of the manufacturer.
This document is applicable to the safety-related parts of electrical/electronic/programmable electronic systems (E/E/PES), as these relate to mechatronic systems. It covers the possible hazards caused by malfunctioning behaviour of E/E/PES safety-related systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy, and similar hazards., unless directly caused by malfunctioning behaviour of E/E/PES safety-related systems. It also covers malfunctioning behaviour of E/E/PES safety-related systems involved in protection measures, safeguards, or safety-related functions in response to non-E/E/PES hazards.
Examples included within the scope of this document:
— SRP/CS’s limiting current flow in electric hybrids to prevent insulation failure/shock hazards;
— electromagnetic interference with the SRP/CS;
— SRP/CS’s designed to prevent fire.
Examples not included within the scope of this document:
— insulation failure due to friction that leads to electric shock hazards;
— nominal electromagnetic radiation impacting nearby machine control systems;
— corrosion causing electric cables to overheat.
This document is not applicable to non-E/E/PES systems (such as hydraulic, mechanic or pneumatic).
NOTE 2 See also ISO 12100 for design principles related to the safety of machinery.
This document is not applicable to safety-related parts of control systems manufactured before the date of its publication.
- Standard63 pagesEnglish languagesale 10% offe-Library read for1 day
The development of a European standard(s) on reporting by online gambling service operators and suppliers to the gambling regulatory authorities in the Member States for the purpose of supervision of online gambling services will specify the core data for reporting purposes, while ensuring integrity and security of the data as well as personal data protection.
The requested European standard(s) will provide a voluntary tool to the gambling regulatory authorities in the Member States without prejudice to the scope of competence of Member States in the regulation of online gambling and without imposing any obligation on them to introduce reporting requirements or to authorize or deny authorization to any operators or suppliers.
- Standard271 pagesEnglish languagesale 10% offe-Library read for1 day
- Amendment9 pagesEnglish languagesale 10% offe-Library read for1 day
This document sets out general principles for the design and development of safety-related parts of control systems (SRP/CS) on tractors used in agriculture and forestry and on self-propelled ride-on machines and mounted, semi-mounted and trailed machines used in agriculture. It can also be applied to mobile municipal equipment (e.g. street-sweeping machines).
This document is not applicable to:
— aircraft and air-cushion vehicles used in agriculture;
— lawn and garden equipment.
This document specifies the characteristics and categories required of SRP/CS for carrying out their safety-related functions. It does not identify performance levels for specific applications.
NOTE 1 Machine specific type-C standards can specify performance levels (AgPL) for safety-related functions in machines within their scope. Otherwise, the specification of AgPL is the responsibility of the manufacturer.
This document is applicable to the safety-related parts of electrical/electronic/programmable electronic systems (E/E/PES), as these relate to mechatronic systems. It covers the possible hazards caused by malfunctioning behaviour of E/E/PES safety-related systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy, and similar hazards, unless directly caused by malfunctioning behaviour of E/E/PES safety-related systems. It also covers malfunctioning behaviour of E/E/PES safety-related systems involved in protective measures, safeguards, or safety-related functions in response to non-E/E/PES hazards.
Examples included within the scope of this document:
— SRP/CS limiting current flow in electric hybrids to prevent insulation failure/shock hazards;
— electromagnetic interference with the SRP/CS;
— SRP/CS designed to prevent fire.
Examples not included in the scope of this document:
— insulation failure due to friction that leads to electric shock hazards;
— nominal electromagnetic radiation impacting nearby machine control systems;
— corrosion causing electric cables to overheat.
This document is not applicable to non-E/E/PES systems (e.g. hydraulic, mechanic or pneumatic).
NOTE 2 See also ISO 12100 for design principles related to the safety of machinery.
This document is not applicable to safety related parts of control systems manufactured before the date of its publication.
- Standard38 pagesEnglish languagesale 10% offe-Library read for1 day
- Amendment9 pagesEnglish languagesale 10% offe-Library read for1 day
This document sets out general principles for the design and development of safety-related parts of control systems (SRP/CS) on tractors used in agriculture and forestry and on self-propelled ride-on machines and mounted, semi-mounted and trailed machines used in agriculture. It can also be applied to mobile municipal equipment (e.g. street-sweeping machines).
This document is not applicable to:
— aircraft and air-cushion vehicles used in agriculture;
— lawn and garden equipment.
This document specifies the characteristics and categories required of SRP/CS for carrying out their safety-related functions. It does not identify performance levels for specific applications.
NOTE 1 Machine specific type-C standards can specify performance levels (AgPL) for safety-related functions in machines within their scope. Otherwise, the specification of AgPL is the responsibility of the manufacturer.
This document is applicable to the safety-related parts of electrical/electronic/programmable electronic systems (E/E/PES), as these relate to mechatronic systems. It covers the possible hazards caused by malfunctioning behaviour of E/E/PES safety-related systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy, and similar hazards, unless directly caused by malfunctioning behaviour of E/E/PES safety-related systems. It also covers malfunctioning behaviour of E/E/PES safety-related systems involved in protective measures, safeguards, or safety-related functions in response to non-E/E/PES hazards.
Examples included within the scope of this document:
— SRP/CS's limiting current flow in electric hybrids to prevent insulation failure/shock hazards;
— electromagnetic interference with the SRP/CS;
— SRP/CS's designed to prevent fire.
Examples not included in the scope of this document:
— insulation failure due to friction that leads to electric shock hazards;
— nominal electromagnetic radiation impacting nearby machine control systems;
— corrosion causing electric cables to overheat.
This document is not applicable to non-E/E/PES systems (e.g. hydraulic, mechanic or pneumatic).
NOTE 2 See also ISO 12100 for design principles related to the safety of machinery.
This document is not applicable to safety related parts of control systems manufactured before the date of its publication.
- Standard75 pagesEnglish languagesale 10% offe-Library read for1 day
This document sets out general principles for the design and development of safety-related parts of control systems (SRP/CS) on tractors used in agriculture and forestry and on self-propelled ride-on machines and mounted, semi-mounted and trailed machines used in agriculture. It can also be applied to mobile municipal equipment (e.g. street-sweeping machines).
This document is not applicable to:
— aircraft and air-cushion vehicles used in agriculture;
— lawn and garden equipment.
This document specifies the characteristics and categories required of SRP/CS for carrying out their safety-related functions. It does not identify performance levels for specific applications.
NOTE 1 Machine specific type-C standards can specify performance levels (AgPL) for safety-related functions in machines within their scope. Otherwise, the specification of AgPL is the responsibility of the manufacturer.
This document is applicable to the safety-related parts of electrical/electronic/programmable electronic systems (E/E/PES), as these relate to mechatronic systems. It covers the possible hazards caused by malfunctioning behaviour of E/E/PES safety-related systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy, and similar hazards, unless directly caused by malfunctioning behaviour of E/E/PES safety-related systems. It also covers malfunctioning behaviour of E/E/PES safety-related systems involved in protective measures, safeguards, or safety-related functions in response to non-E/E/PES hazards.
Examples included within the scope of this document:
— SRP/CS limiting current flow in electric hybrids to prevent insulation failure/shock hazards;
— electromagnetic interference with the SRP/CS;
— SRP/CS designed to prevent fire.
Examples not included in the scope of this document:
— insulation failure due to friction that leads to electric shock hazards;
— nominal electromagnetic radiation impacting nearby machine control systems;
— corrosion causing electric cables to overheat.
This document is not applicable to non-E/E/PES systems (e.g. hydraulic, mechanic or pneumatic).
NOTE 2 See also ISO 12100 for design principles related to the safety of machinery.
This document is not applicable to safety related parts of control systems manufactured before the date of its publication.
- Standard39 pagesEnglish languagesale 10% offe-Library read for1 day
- Amendment8 pagesEnglish languagesale 10% offe-Library read for1 day
This document sets out general principles for the design and development of safety-related parts of control systems (SRP/CS) on tractors used in agriculture and forestry and on self-propelled ride-on machines and mounted, semi-mounted and trailed machines used in agriculture. It can also be applied to mobile municipal equipment (e.g. street-sweeping machines).
This document is not applicable to:
— aircraft and air-cushion vehicles used in agriculture;
— lawn and garden equipment.
This document specifies the characteristics and categories required of SRP/CS for carrying out their safety-related functions. It does not identify performance levels for specific applications.
NOTE 1 Machine specific type-C standards can specify performance levels (AgPL) for safety-related functions in machines within their scope. Otherwise, the specification of AgPL is the responsibility of the manufacturer.
This document is applicable to the safety-related parts of electrical/electronic/programmable electronic systems (E/E/PES), as these relate to mechatronic systems. It covers the possible hazards caused by malfunctioning behaviour of E/E/PES safety-related systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy, and similar hazards, unless directly caused by malfunctioning behaviour of E/E/PES safety-related systems. It also covers malfunctioning behaviour of E/E/PES safety-related systems involved in protective measures, safeguards, or safety-related functions in response to non-E/E/PES hazards.
Examples included within the scope of this document:
— SRP/CS's limiting current flow in electric hybrids to prevent insulation failure/shock hazards;
— electromagnetic interference with the SRP/CS;
— SRP/CS's designed to prevent fire.
Examples not included in the scope of this document:
— insulation failure due to friction that leads to electric shock hazards;
— nominal electromagnetic radiation impacting nearby machine control systems;
— corrosion causing electric cables to overheat.
This document is not applicable to non-E/E/PES systems (e.g. hydraulic, mechanic or pneumatic).
NOTE 2 See also ISO 12100 for design principles related to the safety of machinery.
This document is not applicable to safety related parts of control systems manufactured before the date of its publication.
- Standard75 pagesEnglish languagesale 10% offe-Library read for1 day
This document sets out general principles for the design and development of safety-related parts of control systems (SRP/CS) on tractors used in agriculture and forestry and on self-propelled ride-on machines and mounted, semi-mounted and trailed machines used in agriculture. It can also be applied to mobile municipal equipment (e.g. street-sweeping machines).
This document is not applicable to:
— aircraft and air-cushion vehicles used in agriculture;
— lawn and garden equipment.
This document specifies the characteristics and categories required of SRP/CS for carrying out their safety-related functions. It does not identify performance levels for specific applications.
NOTE 1 Machine specific type-C standards can specify performance levels (AgPL) for safety-related functions in machines within their scope. Otherwise, the specification of AgPL is the responsibility of the manufacturer.
This document is applicable to the safety-related parts of electrical/electronic/programmable electronic systems (E/E/PES), as these relate to mechatronic systems. It covers the possible hazards caused by malfunctioning behaviour of E/E/PES safety-related systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy, and similar hazards, unless directly caused by malfunctioning behaviour of E/E/PES safety-related systems. It also covers malfunctioning behaviour of E/E/PES safety-related systems involved in protective measures, safeguards, or safety-related functions in response to non-E/E/PES hazards.
Examples included within the scope of this document:
— SRP/CS limiting current flow in electric hybrids to prevent insulation failure/shock hazards;
— electromagnetic interference with the SRP/CS;
— SRP/CS designed to prevent fire.
Examples not included in the scope of this document:
— insulation failure due to friction that leads to electric shock hazards;
— nominal electromagnetic radiation impacting nearby machine control systems;
— corrosion causing electric cables to overheat.
This document is not applicable to non-E/E/PES systems (e.g. hydraulic, mechanic or pneumatic).
NOTE 2 See also ISO 12100 for design principles related to the safety of machinery.
This document is not applicable to safety related parts of control systems manufactured before the date of its publication.
- Standard38 pagesEnglish languagesale 10% offe-Library read for1 day
- Amendment8 pagesEnglish languagesale 10% offe-Library read for1 day
- Amendment9 pagesEnglish languagesale 10% offe-Library read for1 day
This document sets out general principles for the design and development of safety-related parts of control systems (SRP/CS) on tractors used in agriculture and forestry and on self-propelled ride-on machines and mounted, semi-mounted and trailed machines used in agriculture. It can also be applied to mobile municipal equipment (e.g. street-sweeping machines).
This document is not applicable to:
— aircraft and air-cushion vehicles used in agriculture;
— lawn and garden equipment.
This document specifies the characteristics and categories required of SRP/CS for carrying out their safety-related functions. It does not identify performance levels for specific applications.
NOTE 1 Machine specific type-C standards can specify performance levels (AgPL) for safety-related functions in machines within their scope. Otherwise, the specification of AgPL is the responsibility of the manufacturer.
This document is applicable to the safety-related parts of electrical/electronic/programmable electronic systems (E/E/PES), as these relate to mechatronic systems. It covers the possible hazards caused by malfunctioning behaviour of E/E/PES safety-related systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy, and similar hazards, unless directly caused by malfunctioning behaviour of E/E/PES safety-related systems. It also covers malfunctioning behaviour of E/E/PES safety-related systems involved in protective measures, safeguards, or safety-related functions in response to non-E/E/PES hazards.
Examples included within the scope of this document:
— SRP/CS limiting current flow in electric hybrids to prevent insulation failure/shock hazards;
— electromagnetic interference with the SRP/CS;
— SRP/CS designed to prevent fire.
Examples not included in the scope of this document:
— insulation failure due to friction that leads to electric shock hazards;
— nominal electromagnetic radiation impacting nearby machine control systems;
— corrosion causing electric cables to overheat.
This document is not applicable to non-E/E/PES systems (e.g. hydraulic, mechanic or pneumatic).
NOTE 2 See also ISO 12100 for design principles related to the safety of machinery.
This document is not applicable to safety related parts of control systems manufactured before the date of its publication.
- Standard39 pagesEnglish languagesale 10% offe-Library read for1 day
This document specifies the concept phase of the development of safety-related parts of control systems (SRP/CS) on tractors used in agriculture and forestry and on self-propelled ride-on machines and mounted, semi-mounted and trailed machines used in agriculture. It can also be applied to mobile municipal equipment (such as street-sweeping machines).
This document is not applicable to:
— aircraft and air-cushion vehicles used in agriculture;
— lawn and garden equipment.
This document specifies the characteristics and categories required of SRP/CS for carrying out their safety-related functions. It does not identify performance levels for specific applications.
NOTE 1 Machine specific type-C standards can specify performance levels (AgPL) for safety-related functions in machines within their scope. Otherwise, the specification of AgPL is the responsibility of the manufacturer.
This document is applicable to the safety-related parts of electrical/electronic/programmable electronic systems (E/E/PES), as these relate to mechatronic systems. It covers the possible hazards caused by malfunctioning behaviour of E/E/PES safety-related systems, including interaction of these systems. It does not address hazards related to electric shock, fire, smoke, heat, radiation, toxicity, flammability, reactivity, corrosion, release of energy, and similar hazards., unless directly caused by malfunctioning behaviour of E/E/PES safety-related systems. It also covers malfunctioning behaviour of E/E/PES safety-related systems involved in protection measures, safeguards, or safety-related functions in response to non-E/E/PES hazards.
Examples included within the scope of this document:
— SRP/CS's limiting current flow in electric hybrids to prevent insulation failure/shock hazards;
— electromagnetic interference with the SRP/CS;
— SRP/CS's designed to prevent fire.
Examples not included within the scope of this document:
— insulation failure due to friction that leads to electric shock hazards;
— nominal electromagnetic radiation impacting nearby machine control systems;
— corrosion causing electric cables to overheat.
This document is not applicable to non-E/E/PES systems (such as hydraulic, mechanic or pneumatic).
NOTE 2 See also ISO 12100 for design principles related to the safety of machinery.
This document is not applicable to safety-related parts of control systems manufactured before the date of its publication.
- Standard63 pagesEnglish languagesale 10% offe-Library read for1 day
- Amendment9 pagesEnglish languagesale 10% offe-Library read for1 day
This document is part of the ISO/IEC 5087 series, which specifies a common data model for cities. This document specifies the foundation level concepts.
- Standard50 pagesEnglish languagesale 15% off
This document addresses a blockchain-based traceability platform for cold chain food which realizes continuous and effective tracking of the cold chain food. The following aspects are included: — it explores issues and considerations for cold chain food traceability, especially during the epidemic outbreak; — it describes scenarios and stakeholders for effective tracking of the cold chain food using the platform; — it describes data elements and processes for the platform; — it presents the platform capabilities such as data tamper resistance, sustainability; — it gives relevant use cases based on the platform.
- Technical report11 pagesEnglish languagesale 15% off
This document provides an overview of identifiers [and their standards and register(s)] relevant for the design of blockchain systems and the interoperability of those systems with non-blockchain systems. The following criteria were used for inclusion of identifiers in this document: — Identifiers (and their standards and registers) issued by the public sector for subjects and objects such as citizen numbers, business registration numbers or land registration numbers; — Identifiers that are internationally recognized and fulfil one of the following criteria: — An identifier is an international standard of an SDO (Standard Development Organization); — An identifier is a de facto standard according to the norms of the industry involved (even if it is not an international standard of an SDO). — Identifiers that have relevance for DLT systems as it fulfils one of the following criteria: — An identifier that has been used without DLT, but has proven to solve the problems of DLT services using DLT; — An identifier that was designed with the usage of DLT in mind from the beginning.
- Technical report50 pagesEnglish languagesale 15% off
This document defines the standard for exchanging stationary waste collection container information between the collection container system and the back-office systems.
This document defines the way to exchange data between the "Communication Management System" of the collection container and the "Back-Office Systems".
The exchange of data between the "Collection Container Systems" and the "Communication Management Systems" or the "Back-Office Systems" is excluded.
This document targets two streams of information in the waste processing industry:
- The processing of transactions and system information for the deposit of waste from the communication management systems to the back office systems.
- The processing of authorization and configuration information from the back-office systems to the communication management systems.
- Standard25 pagesEnglish languagesale 10% offe-Library read for1 day
This document describes concepts and considerations on the use of trust anchors for systems leveraging blockchain and distributed ledger technologies (DLTs) for identity management, i.e. the mechanism by which one or more entities can create, be given, modify, use and revoke a set of identity attributes.
- Technical report25 pagesEnglish languagesale 15% off
This document defines the standard for exchanging stationary waste collection container information between the collection container system and the back-office systems.
This document defines the way to exchange data between the "Communication Management System" of the collection container and the "Back-Office Systems".
The exchange of data between the "Collection Container Systems" and the "Communication Management Systems" or the "Back-Office Systems" is excluded.
This document targets two streams of information in the waste processing industry:
- The processing of transactions and system information for the deposit of waste from the communication management systems to the back office systems.
- The processing of authorization and configuration information from the back-office systems to the communication management systems.
- Standard25 pagesEnglish languagesale 10% offe-Library read for1 day
This Protection Profile describes a set of security requirements for smart meters, based on the ‘minimum security requirements’ for components of AMI infrastructures in [5]. The requirements in [5] were based on the concept that there are a common/generic set of underlying ‘minimum’ security requirements associated with smart metering requirement specifications in a number of EU Member States
- Technical specification72 pagesEnglish languagesale 10% offe-Library read for1 day
This document, the audit data collection standard (ADCS), defines the functional requirements for exchanging audit data in flat file format. This document concerns the specification of technical exchange formats in extensible markup language (XML), JavaScript object notation (JSON) and comma-separated values (CSV) as output file formats for the functional content defined in ISO 21378. This document also contains the following schemas and sample files for tables in ISO 21378. — XML schema; — XML sample file; — JSON schema; — JSON sample file. To keep the three exchange formats (XML, JSON and CSV) consistent, this document also specifies how to use the technical solution in the CSV format.
- Technical specification43 pagesEnglish languagesale 15% off
This part of IEC 63203-801 specifies the ultra-low power physical layer (PHY) Smart BAN.
As the use of wearables and connected body sensor devices grows rapidly in the Internet of Things (IoT), Wireless Body Area Networks (BAN) facilitate the sharing of data in smart environments such as smart homes, smart life etc. In specific areas of digital healthcare, wireless connectivity between the edge computing device or hub coordinator and the sensing nodes requires a standardized communication interface and protocols.
The present document describes the Physical Layer (PHY) specifications:
- packet formats;
- modulation;
- forward error correction
- Standard16 pagesEnglish languagesale 10% offe-Library read for1 day
This part of IEC 63203-801 specifies low complexity Medium Access Control (MAC) for SmartBAN.
As the use of wearables and connected body sensor devices grows rapidly in the Internet of Things (IoT), Wireless Body Area Networks (BAN) facilitate the sharing of data in smart environments such as smart homes, smart life etc. In specific areas of digital healthcare, wireless connectivity between the edge computing device or hub coordinator and the sensing nodes requires a standardized communication interface and protocols.
The present document describes the MAC specifications:
- Channel Structure,
- MAC Frame Formats,
- MAC functions.
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This Protection Profile describes a set of security requirements for smart meters, based on the ‘minimum security requirements’ for components of AMI infrastructures in [5]. The requirements in [5] were based on the concept that there are a common/generic set of underlying ‘minimum’ security requirements associated with smart metering requirement specifications in a number of EU Member States
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This part of IEC 63203-801 specifies low complexity Medium Access Control (MAC) for SmartBAN. As the use of wearables and connected body sensor devices grows rapidly in the Internet of Things (IoT), Wireless Body Area Networks (BAN) facilitate the sharing of data in smart environments such as smart homes, smart life etc. In specific areas of digital healthcare, wireless connectivity between the edge computing device or hub coordinator and the sensing nodes requires a standardized communication interface and protocols. The present document describes the MAC specifications: - Channel Structure, - MAC Frame Formats, - MAC functions.
- Standard41 pagesEnglish languagesale 10% offe-Library read for1 day
This part of IEC 63203-801 specifies the ultra-low power physical layer (PHY) Smart BAN. As the use of wearables and connected body sensor devices grows rapidly in the Internet of Things (IoT), Wireless Body Area Networks (BAN) facilitate the sharing of data in smart environments such as smart homes, smart life etc. In specific areas of digital healthcare, wireless connectivity between the edge computing device or hub coordinator and the sensing nodes requires a standardized communication interface and protocols. The present document describes the Physical Layer (PHY) specifications: - packet formats; - modulation; - forward error correction
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This document describes the implement messages application layer of the network, specifying the message set and defining the messages used for communication with and between tractors and connected implements.
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This document lists use cases that summarise common capabilities and usage patterns for attributes of distributed ledger technologies including the blockchain in order to help standards and technology development. This document includes use cases reflecting a range of industry sectors, processes and specific applications. This document can inform decision-makers considering or involved in applying these new technologies, including business, academia, government, technical and standards bodies.
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This document provides fundamental terminology for blockchain and distributed ledger technologies.
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