JTC 1/SC 22 is the international standardization subcommittee for programming languages, their environments and system software interfaces. SC 22 is oftentimes called the "portability subcommittee".
Standardization in the field of removable digital storage media utilizing optical, holographic and magnetic recording technologies, and flash memory technologies for digital information interchange, including:
OAXAL represents a method to exploit technical documentation assets by extending the usefulness of core XML-related standards in a comprehensive, open architecture. OAXAL defines a complete, automated package from authoring through translation, providing authors with a systematic way to identify, store, and reuse existing sentences. Since such sentences are likely to have been previously translated, OAXAL delivers a means to dramatically increase translation matches.
We are committed to the creation of a technical standards-based market for health. It will promote a climate of innovation, underpinned by technical standards to ensure interoperability, efficiency, security, privacy and safety in the provision of health services worldwide.
The concept of e-Health has already assumed a sharp, economic and political profile.
Global health care can only be improved and maintained cost-effectively by the practical application of technology and particularly of communications technology. Innovation is essential, as is access to this profitable market by new developers.
Technical standards offer an effective way to ensure the level of excellence which we have all come to expect in our new age of patient-centric, medical care.
The 3rd Generation Partnership Project (3GPP) is the primary body for developing technology specifications for cellular networks. It self-organises through its Working Groups coordinated by the Chairs of the Technical Specifications Groups (TSGs).
RAN WG5 (Mobile Terminal Conformance Testing) and is responsible for the development of UE conformance test specifications dealing with GERAN, UTRA, Evolved UTRA, and beyond.
Specifically RAN WG5 is responsible for:
RAN5 is also responsible for:
The present document specifies the structure and format of a VNF package file and its constituents, fulfilling the requirements specified in ETSI GS NFV-IFA 011 [1] for a VNF package.
Distributed ledger technology (DLT) refers the processes and related technologies that enable nodes in a network to securely propose, validate and record state changes (or updates) to a synchronised ledger that is distributed across the network’s nodes.
The ITU-T Focus Group on Application of Distributed Ledger Technology (FG DLT) was established in May 2017
The OASIS Advanced Message Queuing Protocol (AMQP) Bindings and Mappings (AMQP-BINDMAP) Technical Committee works closely with the AMQP TC to advance a wire-level messaging protocol that offers organizations an efficient, reliable approach to passing real-time data and business transactions. AMQP provides a platform-agnostic method for ensuring information is safely transported between applications, among organizations, within mobile infrastructures, and across the Cloud.
The OASIS AMQP TC advances a vendor-neutral and platform-agnostic protocol that offers organizations an easier, more secure approach to passing real-time data streams and business transactions. The goal of AMQP is to ensure information is safely and efficiently transported between applications, among organizations, across distributed cloud computing environments, and within mobile infrastructures. AMQP avoids proprietary technologies, offering the potential to lower the cost of enterprise middleware software integrations through open interoperability. By enabling a commoditized, multi-vendor ecosystem, AMQP seeks to create opportunities for transforming the way business is done in the Cloud and over the Internet.
The OASIS MQTT TC is producing a standard for the Message Queuing Telemetry Transport Protocol compatible with MQTT V3.1, together with requirements for enhancements, documented usage examples, best practices, and guidance for use of MQTT topics with commonly available registry and discovery mechanisms. The standard supports bi-directional messaging to uniformly handle both signals and commands, deterministic message delivery, basic QoS levels, always/sometimes-connected scenarios, loose coupling, and scalability to support large numbers of devices. Candidates for enhancements include message priority and expiry, message payload typing, request/reply, and subscription expiry.
As an M2M/Internet of Things (IoT) connectivity protocol, MQTT is designed to support messaging transport from remote locations/devices involving small code footprints (e.g., 8-bit, 256KB ram controllers), low power, low bandwidth, high-cost connections, high latency, variable availability, and negotiated delivery guarantees. For example, MQTT is being used in sensors communicating to a broker via satellite links, SCADA, over occasional dial-up connections with healthcare providers (medical devices), and in a range of home automation and small device scenarios. MQTT is also ideal for mobile applications because of its small size, minimized data packets, and efficient distribution of information to one or many receivers (subscribers).
The purpose of oBIX (open Building Information Exchange) is to enable the mechanical and electrical control systems in buildings to communicate with enterprise applications, and to provide a platform for developing new classes of applications that integrate control systems with other enterprise functions. Enterprise functions include processes such as Human Resources, Finance, Customer Relationship Management (CRM), and Manufacturing.
Working Group 1 shall develop ETSI deliverables on the application requirements and services. In particular this includes:
o Passenger (including accessibility)
o Automotive Industry
o Road Network Operators
o Freight and Logistics
o Public Authorities
