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Trial-Use Standard for a Quantum Algorithm Design and Development

This trial-use standard defines a standardized method for the design of quantum algorithms. The defined methods apply to any type of algorithm that can be assimilated into quantum primitives and/or quantum applications. The design of the algorithms is done preceding quantum programming.

P2995

P7131 - Standard for Quantum Computing Performance Metrics & Performance Benchmarking

The standard covers quantum computing performance metrics for standardizing performance benchmarking of quantum computing hardware and software. These metrics and performance tests include everything necessary to benchmark quantum computers (stand alone and by/for comparison) and to benchmark quantum computers against classical computers using a methodology that accounts for factors such as dedicated solvers.

P7131

P1913 - Software-Defined Quantum Communication

This standard defines the Software-Defined Quantum Communication (SDQC) protocol that enables configuration of quantum endpoints in a communication network in order to dynamically create, modify, or remove quantum protocols or applications. This protocol resides at the application layer and communicates over Transmission Control Protocol/Internet Protocol. The protocol design facilitates future integration with Software-Defined Networking and Open Networking Foundation OpenFlow. The standard defines a set of quantum device configuration commands that control the transmission, reception, and operation of quantum states. These device commands contain parameters that describe quantum state preparation, measurement, and readout.

P1913

IEEE 1484.13.5-2013 - IEEE Recommended Practice for Learning Technology: IETF RFC 4287 - Atom Syndication Format - Mapping to the Conceptual Model for Resource Aggregation

This recommended practice specifies how the elements and attributes defined in the Atom Syndication Format (Atom) relate to the components of the conceptual model for resource aggregation defined in IEEE Std 1484.13.1(tm)-2012.

IEEE 1484.13.5-2013

IEEE 1484.13.4-2016 - IEEE Recommended Practice for Learning Technology - IMS Content Packaging Information Model (CP) Version 1.2 - Mapping to the Conceptual Model for Resource Aggregation

Specified in this recommended practice is how the elements and attributes defined in the IMS Content Packaging Information Model (CP) Version 1.2 relate to the components of the conceptual model for resource aggregation defined in IEEE Std 1484.13.1(TM)-2012.

IEEE 1484.13.4-2016

IEEE P11073-10700 - Standard for Common Base Requirements for Participants in a Service-Oriented Device Connectivity (SDC) System

This standard defines the common base requirements for Participants in a Service-Oriented Device Connectivity (SDC) System that comprises a network of point-of-care (PoC) medical devices and medical IT systems to improve effective, safe and secure contribution to a system function such as metric provisioning.

IEEE P11073-10700

IEEE P11073-10107 - Standard for Nomenclature for External Control of Medical Devices

The base IEEE 11073-10101 nomenclature is extended by this standard to provide definitions of commands for external control. It is designed to be used in conjunction with IEEE 11073 standards, including ISO/IEEE 11073-10207, ISO/IEEE 11073-10201 and ISO/IEEE 11073-20601, and may be used with other standards or independently. The main areas addressed by this standard include commands to modify the characteristics and behavior of point-of-care (PoC) medical devices, such as modes of operation, contextual information, and settings

IEEE P11073-10107

IEEE 11073-10207-2017 - IEEE Health informatics--Point-of-care medical device communication Part 10207: Domain Information and Service Model for Service-Oriented Point-of-Care Medical Device Communication

Within the context of the ISO/IEEE 11073(TM) family of standards for point-of-care medical device communication, a Participant Model derived from the ISO/IEEE11073-10201 Domain Information Model is provided in this standard. The Participant Model specifies the structure of medical information objects. This standard also defines an abstract Communication Model to support the exchange of medical information objects. All elements of the Participant Model and Communication Model are specified using XML Schema. Core subjects of the Participant Model comprise modelling of medical device-related data, e.g., measurements and settings, alert systems, contextual information (e.g., patient demographics and location information), remote control, and archival information. Model extensibility is provided inherently through the use of XML Schema.textual information like patient demographics and location information, remote control, and archival. Model extensibility is provided inherently through the use of XML Schema. (Additional files are available for this standard at http://standards.ieee.org/downloads/11073/)

IEEE 11073-10207-2017

IEEE P7000 - IEEE Draft Model Process for Addressing Ethical Concerns During System Design

The standard establishes a set of processes by which organizations can include consideration of human ethical values throughout the stages of concept exploration and development. This standard supports management and engineering in transparent communication with selected stakeholders for values elicitation and prioritization. It involves traceability of ethical values through an operational concept, value propositions, and value dispositions in the system design. The standard describes processes that provide for traceability of ethical values in the concept of operations, ethical requirements, and ethical risk-based design. It is applicable for all sizes and types of organizations using their own life cycle models.

IEEE P7000

IEEE P1547.2 - Application Guide for IEEE Std 1547(TM), IEEE Standard for Interconnecting Distributed Resources with Electric Power Systems

This guide provides the technical background, rationale and guidance to support the application of the substantially revised IEEE 1547, Standard for Interconnection and interoperability of Distributed Energy Resources (DER) with Electric Power Systems (EPS) and Associated Interfaces. The document will describe how the requirements and default settings specified in 1547 have been carefully chosen to balance distribution and bulk system needs for increasing penetration of DER. It further expands IEEE 1547 by addressing certain DER integration issues that are not fully addressed by the base standard, e.g. reclosing coordination and limitation of over-voltage in the Area EPS. The guide will address (1) the concept of the newly-introduced performance categories and their assignment to specific DER by an Authority Governing Interconnection Requirements (AGIR); (2) the new requirements for voltage and reactive power control, frequency control, response to abnormal conditions including ride-through; (3) the flexibility provided by the newly-introduced ranges of adjustability for control settings as well as for voltage and frequency trip settings to fully exploit the revised IEEE 1547's potential and to account for specific system characteristics; (4) the interoperability and communication interface requirements; and (5) the test and verification practices, including design and as-built installation evaluations for utility-scale DER, that have not been included in the previous version of the standard. Presented in the document are technical descriptions and schematics, applications guidance and interconnection examples to enhance the use of IEEE 1547.

IEEE P1547.2