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Healthcare Organization Management—Guidelines for Hospital Internal Logistics Services using Autonomous Mobile Robots for the delivery of pharmaceuticals This document gives guidelines for Healthcare Organization Management, including healthcare suppliers and manufacturers of Autonomous Mobile Robots(AMRs), where they implement the hospital internal logistics using autonomous mobile robots. It includes the key components that should be considered to provide safe and reliable hospital internal logistics of pharmaceuticals. This document specifically addresses the use of Autonomous Mobile Robots (AMRs) for the transport and delivery of pharmaceuticals within the hospital environment. It covers the physical arrangement of AMR, including medication packaging, delivery chambers, emergency halt method and logistics environment of hospitals such as elevator in-and-out sequence and locations of the delivery.

 

 

 

This document establishes a tolerance classification system relevant to manufacturing and conformity assessment of individual worm and worm wheel of cylindrical worm gear pair with manufacturing specification parameters, mathematically defined for each of the five worm flank profile types A, C, I, K and N as defined in ISO 10828. This document can also be applied to modified flank shapes which can be produced using the same manufacturing processes as the flank shapes mentioned. This document relates to analytical measurement methods and single flank composite measurement methods. It specifies definitions for worm and worm wheel gear flank tolerance terms, manufacturing specifications data to be reported in the drawing, and verification parameters for conformity assessment, with tolerance classification formulas, the structure of the flank tolerance class system, allowable values. Definition of right and left flank as well as right and left helix are defined as in ISO 10828. Single flank testing shall be an alternative or a complement to coordinate measurements when specific agreements are needed between costumer and supplier. Double flank tolerances are not covered in this document as ISO 1328-2 can be applied as well ISO/TR 10064-2 for measurement methods. For consistency of worm gear tooth flank tolerancing, the practice of double flank measurements for single enveloping cylindrical worm gear is significantly critical: — one side due to the difficulty to set-up the datum axis of the worm in the datum midplane of worm wheel; — the other side as any centre distance variation of the worm gear set during meshing induces bias in the results as kinematic conjugacy of tooth flanks is impacted. Gear design is beyond the scope of this document. Surface texture is not considered in this document. For additional information on surface texture or waviness of tooth flanks, see ISO/TR 10064-4.

 

This document defines detailed use cases, requirements and message specifications for supporting indoor navigation functionality between a personal/vehicle (P/V) ITS station and a central ITS station. This document defines: a) Clusters of use cases based on processing flows for indoor navigation between a P/V ITS station and a central ITS station; b) Detailed use cases derived from the clusters of use cases for indoor navigation; c) Message specifications to support some of the detailed use cases. This document is only applicable to the core flow for the navigational functionality in indoor space. The following issues which are adjunctive but essential for commercial navigation services are beyond the scope of this document: — Authorized and authenticated access of users and services, including security; — Payment; — Preparation of indoor data which are necessary for indoor navigation; — Detailed data formats for indoor navigation data, including indoor maps and indoor positioning references (these form a part of ISO 17438-2, ISO 17438-3 and ISO 17438-5); — How to transfer and share data required for indoor navigation between a roadside ITS station and a central ITS station, i.e. low-level communication protocols; — Other issues dependent on implementation of an instance of indoor navigation, e.g. indoor-outdoor seamless navigation.

 

This document specifies the requirements for efficient portable devices management in smart hospitals using the real-time location system (RTLS). This document aims to promote data interoperability between RTLS systems andhospital information system (such as HIS and EMR).hospital information system It is recommended to reference or adopt internationally recognized healthcare data exchange standards, such as the HL7 FHIR Real-Time Location Services Implementation Guide (HL7 RTLS IG). Out of scope: RTLS technical specifications (tags/beacons, scanner), refer to ISO/IEC 24730, 24770, and 24769 series; — Network configurations or specifications for installing RTLS devices; — Detailed RTLS testing and validation methods.

 

This document specifies the additional and deviating requirements to iso:proj:80553ISO/FDIS 8100-1 for new passenger and goods passenger lifts permanently installed on ships. This document is applicable for the lift in: operating conditions; stowed conditions; emergency conditions; within the limits defined by the relevant classification society or authority having jurisdiction. Lift behaviour during fire is out of the scope of this document.

 

 

This document specifies minimum requirements and general considerations for equipment, consisting of hardware, software and consumables, used in the manufacturing of cellular therapeutic products. This includes equipment for processing cellular therapeutic products starting from cell isolation/selection, expansion, washing, volume reduction, final formulation and preparation prior to cryopreservation for storage of cellular therapeutic products. This document provides guidance on the design, use and maintenance of equipment and equipment systems to both equipment suppliers and equipment users including aspects such as the target parties, i.e. equipment supplier or equipment user, and the phase of the involved task, i.e. design, use, or maintenance. This document is applicable to any unit operation system, that is intended to be used, either alone or in combination, for the manufacture of cellular therapeutic products by meeting equipment user requirements. It is applicable to equipment used for the purpose of monitoring the equipment status. This document does not apply to: processing equipment for cellular therapeutic products used at the point of care; equipment used for analytical purposes; biosafety cabinets, general cell culture equipment (such as CO2 incubators, etc.),; software to control multiple equipment systems or multiple unit operations.

 

The ISO/IEC 19788 series specifies, in a rule-based manner, properties and ­­their attributes for the description of learning resources. This includes the rules governing the identification of properties and the specification of their attributes. These properties may be used to form the description of a learning resource, i.e. as a metadata learning resource (MLR) record described in iso:proj:62845ISO/IEC 19788-8:2015 Data elements for MLR record.

 

This document is intended to help implementers with a starting point for adopting the iso:proj:81950ISO/IEC 19788-1:2024framework by defining an application profile that lists properties and rules, mostly taken from iso:proj:67374ISO/IEC 19788-2:2011/Amd 1:2016. In addition, it adds, as examples, three locally defined properties and one vocabulary.

 

This International Standard describes the factors to be taken into consideration and the measurements to be made when designing and performing a pumping test. It also presents a set of guidelines for field practice taking into account the diversity of objectives, aquifer types, groundwater conditions, available technology, and legal frameworks. The standard outlines the fundamental components typically included in a pumping test and provides information on how these components can be adapted to reflect local conditions. It addresses the common types of pumping test conducted for water-supply purposes, in which water is extracted from the entire screened, perforated, or unlined interval(s) of a well. This International Standard provides only general guidance on the interpretation of data collected during a pumping test. Detailed procedures and methodologies for data analysis and interpretation are provided in specialized literature. Examples of such references are listed in the selected bibliography.

 

This document specifies principles for privacy protection through pseudonymization services, aimed at safeguarding personal health information . It is applicable to organizations implementing pseudonymization processes or claiming trustworthiness in pseudonymization service operations. This document:

- defines foundational principles for pseudonymization

- aligns with updated regulations and standards, such as iso:proj:69373ISO/IEC 20889:2018 , iso:proj:71677ISO/IEC 27559:2022 , and other relevant documents, and methodologies for pseudonymization services

- provides guidance on practical application of pseudonymization , including examples of de-identification process, best practices and case studies

- defines important elements in the concept of pseudonymization, direct and indirect identifiability of personal information, and different types of data variables

- provides guidance on risk assessment for re-identification, and two distinct contexts of re-identification of pseudonymized information, and

- specifies various techniques designed to balance privacy protection with data utility to ensure that the data can be used for analytics, research, or operational needs without revealing personal identities.

 

Additionally, this document addresses new regulatory and ethical frameworks, such as the EU AI Act[1] , IEEE 7000:2021 [2] , and IEEE 7007:2021 [3] , as well as guidance on pseudonymization in AI, considering the impact of emerging technologies on privacy protection.

 

This document provides guidelines on implementation and application of the concept of metrological traceability in measurements supporting the exploration, upgrading, transmission, distribution and use of natural gas, biogas, biomethane and other substitutes. The guidance aims at implementing requirements such as those laid down in ISO/IEC 17025:2017 6.5. The measurement of flow rate, composition, temperature, pressure and natural gas properties are covered. The document also addresses the metrological traceability of properties calculated from other quanties, such as pressure, temperature and composition. This document describes how calibration, quality control and the evaluation of measurement uncertainty aid to establishing and underpinning the metrological traceability of measurement results. Requirements for the certification of traceable calibration gas mixtures and test gases are also addressed in this document. Finally, the guidance extends to the measurement of the quantity and energy supplied or received, such as described in ISO 15112. Whereas it is recognised that the measurement of quantity and energy is in practice often implemented as a computational process using measurement data, this document takes the view that the purpose of the measurement is the quantity and energy, and that the measurements made in gas metering serve the purpose of providing metrologically traceable results as input for the measurement of quantity and energy.

 

This document specifies the basis, principles, procedures, and requirements necessary to establish detailed requirements for space experiments, which are generally documented in a Experiment Requirements Documents (ERDs) for facilitating information transfer. This document applies to space life science and biotechnology experiments, space materials science experiments, microgravity fluid physics and combustion science experiments, and microgravity fundamental physics experiments. It may also serve as a reference for space experiments in other fields. It is applicable to both manned and unmanned space systems and can be tailored to the specific needs of different kinds of space experiments.

 

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 and classifies the component/product performance characteristics, which may be necessary for the design, rating and dimensioning, placing on the market of residential ventilation products and systems to provide the predetermined performance, comfort conditions of temperature, air velocity, humidity, hygiene and sound in the occupied zone. It defines those performance characteristics (mandatory or optional) which are determined, measured and presented according to relevant test methods. It provides a classification scheme, which leads to a full definition of product properties based on test methods described in various European Standards, and gives an overview of the test standards. Distinction between mandatory and optional requirements is left to each European and national regulation(s). The codification part in Annex B and the classification part in Clause 8 apply to the following products: - unidirectional mechanical supply and exhaust residential ventilation units according to EN 13141-4:2021 and EN 13141-6:2014; - ducted mechanical bidirectional residential ventilation units according to EN 13141-7:2021; - non-ducted mechanical bidirectional residential ventilation units according to EN 13141-8:2022. This document does not apply to other products such as filters, fire dampers, ducts, control devices and sound attenuators, which may also be incorporated in residential ventilation. This document specifies in Annex ZA and Annex ZB the requirements of EU 1253/2014 and EU 1254/2014 for residential ventilation units below 1 000 m3/h air volume flow. This document does not cover requirements raised by European Directives (e.g. low voltage directive, EMC directive) and other requirements such as corrosion, reaction to fire and snow penetration.

 

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.

 

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