Accuris Datasheets for Standards and Technical Documents
Standards and technical documents includes standards, codes, regulation, handbooks, manuals, comprehensive guides and other formal publications. Standards, codes, and regulation establish uniform specifications, procedures or technical criteria.
Standards and Technical Documents: Learn more
Page:
1
500
1000
1250
1300
1350
1400
1450
1500
1550
1560
1570
1580
1590
1600
1609
1610
1611
1612
1613
1614
1615
1616
1617
1618
1619
1620
| Product Name | Notes |
|---|---|
| A multi-path transmission control in multi-connection Amendment 1: New Annex A - Network equipment-based multipath transmission | |
| A multi-path transmission control in multi-connection | |
| A QoS control architecture for Ethernet-based IP access networks | |
| A service model for risk mitigation service based on networks | |
| A trust index model for information and communication technology infrastructures and services | |
| Admission control priority levels in Next Generation Networks | |
| Advanced data plane programmability for IMT-2020 | |
| Agricultural Valuations | |
| AI enabled cross-domain network architectural requirements and framework for future networks including IMT-2020 | |
| Application addressing in multi-access edge computing in IMT-2020 networks and beyond | |
| Application support models of the Internet of things | |
| Architectural evolution for the next generation network control plane by applying software-defined networking technology | |
| Architectural framework for artificial intelligence-based network automation for resource and fault management in future networks including IMT-2020 | |
| Architectural framework for machine learning function orchestrator in future networks including IMT-2020 | |
| Architectural framework for machine learning in future networks including IMT-2020 | |
| Architectural framework for machine learning model serving in future networks including IMT-2020 | |
| Architectural framework for machine learning sandbox in future networks including IMT-2020 | |
| Architectural framework of end-to-end service level objective guarantee for future networks including IMT-2020 | |
| Architectural overview of next generation home networks | |
| Architecture for interworking of heterogeneous component networks in ID/locator split-based future networks | |
| Architecture of an independent scalable control plane in future packet based networks | |
| Architecture of ICN-enabled edge network in IMT-2020 | |
| Architecture of secure mobile financial transactions in next generation networks | |
| Architecture of the IMT-2020 network | |
| Assessing trust evaluation models for telecommunication networks | |
| Authentication and authorization requirements for NGN release 1 | |
| Autonomous networks \x96 Architecture framework | |
| Autonomous networks \x96 overview on trust | |
| Basic principles of trusted environment in information and communication technology infrastructure | |
| Brickwork for Apprentices | |
| Business role-based models in IMT-2020 | |
| Call server based PSTN/ISDN emulation | |
| Call server-based PSTN/ISDN emulation | |
| Capabilities of multi-connection to support enhanced multimedia telephony services | |
| Capabilities of multi-connection to support streaming services | |
| Capability exposure enhancement for supporting fixed mobile convergence in IMT-2020 networks | |
| Capability exposure function in IMT-2020 networks | |
| Capability framework for e-health monitoring services | |
| Carrier grade open environment components | |
| Centralized RACF architecture for MPLS core networks | |
| Cloud computing - Functional requirements for cloud service brokerage | |
| Cloud computing \x96 Data model framework for NaaS OSS virtualized network function | |
| Cloud computing \x96 End-to-end fault and performance management framework of network services in inter-cloud | |
| Cloud computing \x96 Framework and requirements of container management in inter-cloud | |
| Cloud computing \x96 Functional architecture for cloud service brokerage | |
| Cloud computing \x96 Functional architecture for data storage federation | |
| Cloud computing \x96 Functional architecture of big data as a service | |
| Cloud computing \x96 Functional architecture of inter-cloud computing | |
| Cloud computing \x96 Functional architecture of Network as a Service | |
| Cloud computing \x96 Functional requirements for a container | |
| Cloud computing \x96 Functional requirements for blockchain as a service | |
| Cloud computing \x96 Functional requirements for machine learning as a service | |
| Cloud computing \x96 Functional requirements for robotics as a service | |
| Cloud computing \x96 Functional requirements of a cloud service partner for multi-cloud | |
| Cloud computing \x96 Functional requirements of edge cloud management | |
| Cloud computing \x96 Functional requirements of Infrastructure as a Service | |
| Cloud computing \x96 Functional requirements of inter-cloud data management | |
| Cloud computing \x96 Functional requirements of Network as a Service | |
| Cloud computing \x96 Functional requirements of physical machine | |
| Cloud computing \x96 Functional requirements of Platform as a Service for cloud native applications | |
| Cloud computing \x96 Global management framework of distributed cloud | |
| Cloud computing \x96 Overview and functional requirements for data storage federation | |
| Cloud computing \x96 Overview and high-level requirements of distributed cloud | |
| Cloud computing \x96 Overview of inter-cloud trust management | |
| Cloud computing \x96 Requirements for cloud service development and operation management | |
| Cloud computing \x96 Trusted inter-cloud computing framework and requirements Corrigendum 1 | |
| Cloud computing \x96 Trusted inter-cloud computing framework and requirements | |
| Cloud computing framework and high-level requirements | |
| Cloud computing framework for end-to-end resource management | |
| Cloud computing infrastructure requirements | |
| Cloud computing maturity requirements and framework | |
| Common requirements and capabilities of a gateway for Internet of things applications | |
| Common requirements of the Internet of things | |
| Computing power network \x96 Framework and architecture | |
| Configurations of node identifiers and their mapping with locators in future networks | |
| Construction Contracts: Questions and Answers | |
| Construction Project Manager\x92s Pocket Book | |
| Content delivery functional architecture in NGN | |
| Converged services framework functional requirements and architecture | |
| Converged web-browsing service scenarios in NGN | |
| Coordination of networking and computing in IMT-2020 networks and beyond \x96 Capability framework | |
| Coordination of networking and computing in IMT-2020 networks and beyond \x96 Requirements | |
| Data aware networking (information centric networking) \x96 Requirements and capabilities | |
| Data File: Design of Structural Glued Laminated Timber Columns | |
| Deep packet inspection \x96 intelligent management and maintenance of policy information base | |
| Description of capability set 1 of NGN release 1 | |
| Design Concepts: Glulam in Railroad Construction | |
| Digital twin for management and orchestration in IMT-2020 networks and beyond | |
| Digital twin network \x96 Capability levels and evaluation methods | |
| Digital twin network \x96 Requirements and architecture | |
| Distributed RACF architecture for MPLS networks | |
| Distributed service networking content distribution functions | |
| Distributed service networking relay functions | |
| Distributed service networking service routing | |
| Distributed service networking traffic optimization control functions | |
| Electrical Installation Work: Level 2: EAL Edition | |
| Electrical Installation Work: Level 3: EAL Edition | |
| Electronic Circuits: Fundamentals and applications | |
| End-to-end cloud service lifecycle management requirements | |
| Energy efficiency management of virtual resources in IMT-2020 networks and beyond | |
| Energy saving using smart objects in home networks | |
| Engineering Applications of Pneumatics and Hydraulics | |
| Enhanced software-defined networking data plane for IMT-2020 | |
| Ethernet QoS control for next generation networks | |
| Evaluating intelligence capability for network slice management and orchestration in IMT-2020 network and beyond | |
| Fixed mobile convergence enhancements to support IMT-2020 based software-defined wide-area networking service | |
| Fixed mobile convergence with a common IMS session control domain | |
| Fixed, mobile and satellite convergence \x96 Capability exposure for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Connection management for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Deterministic networking for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Distributed core network for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Distributed ledger technology for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Framework for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Integrated network control architecture framework for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Location service enhancement for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Mobility management for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Peer-to-peer services for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Policy control for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Requirements for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Requirements for supporting high-altitude platforms for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Requirements of integrated user-centric service units | |
| Fixed, mobile and satellite convergence \x96 Requirements of network sharing for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Requirements of supporting airborne broadband communications for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Service continuity for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Service function chain (SFC) for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Service scheduling for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Session management with satellite backhaul for IMT-2020 networks and beyond | |
| Fixed, mobile and satellite convergence \x96 Traffic scheduling for IMT-2020 networks and beyond | |
| Fixed-mobile convergence general requirements | |
| Flow Aggregate Information Exchange Functions in Next Generation Networks Amendment 1: Information Model | |
| Flow aggregate information exchange functions in NGN | |
| Flow-based service continuity in multi-connection | |
| FMC service using legacy PSTN or ISDN as the fixed access network for mobile network users | |
| Framework and requirements of network-oriented data integrity verification service based on blockchain in future networks | |
| Framework for an energy-sharing and trading platform | |
| Framework for bootstrapping of devices and applications for open access to trusted services in distributed ecosystems | |
| Framework for classifying network slice levels in future networks including IMT-2020 | |
| Framework for data handling to enable machine learning in future networks including IMT-2020 | |
| Framework for deep packet inspection | |
| Framework for directory service management of large numbers of heterogeneously-name d objects in IMT-2020 | |
| Framework for evaluating intelligence levels of future networks including IMT-2020 | |
| Framework for high-level AI-based management communicating with external management systems | |
| Framework for interworking of heterogeneous application domain connected objects through information-centric networking in IMT-2020 | |
| Framework for network slicing management assisted by machine learning leveraging quality of experience feedback from verticals | |
| Framework for NGN support of multicast-based services | |
| Framework for service function chaining in information-centric networking | |
| Framework for supporting OAuth and OpenID in next generation networks | |
| Framework for the support of multiple network slicing | |
| Framework for trust-based media services | |
| Framework for trust-based personal data management | |
| Framework of a micro energy grid | |
| Framework of data aware networking for future networks | |
| Framework of distributed and virtualized energy storage systems | |
| Framework of edge computing capability exposure for IMT-2020 networks and beyond | |
| Framework of energy saving for future networks | |
| Framework of handover control for NGN | |
| Framework of inter-cloud computing | |
| Framework of location management for NGN | |
| Framework of mobility management in the service stratum for next generation networks | |
| Framework of multi-homing in IPv6-based NGN | |
| Framework of network slicing with AI-assisted analysis in IMT-2020 networks | |
| Framework of network virtualization for future networks | |
| Framework of node identifier and locator separation in IPv6-based next generation networks | |
| Framework of object mapping using IPv6 in next generation networks | |
| Framework of object-to-object communication for ubiquitous networking in next generation networks | |
| Framework of software-defined networking | |
| Framework of the IMT-2020 network | |
| Framework of the mobile virtual private network service in next generation networks | |
| Framework of the web of things | |
| Framework of trusted electricity brokerage for distributed energy resources | |
| Framework of trustworthy networking with trust-centric network domains | |
| Framework of trustworthy networking with trustcentric network domains Amendment 1 | |
| Framework of Vertical Multi-homing in IPv6-based next generation networks | |
| Framework to support signalling for IPv6-based NGN | |
| Functional architecture for Desktop as a Service | |
| Functional architecture for distributed service networking | |
| Functional architecture for intelligent awareness of network requirements | |
| Functional architecture for latency guarantee in large scale networks including IMT-2020 and beyond | |
| Functional architecture for NICE implementation making use of software-defined networking technologies | |
| Functional architecture for QoS assurance management in the IMT-2020 network | |
| Functional architecture for quality of service assurance of deterministic communication services in local area networks for IMT-2020 and beyond | |
| Functional architecture for supporting fixed mobile convergence in IMT-2020 networks | |
| Functional architecture for supporting virtualization of control network entities in next generation network evolution | |
| Functional architecture for trust enabled service provisioning | |
| Functional architecture of deep packet inspection for future networks | |
| Functional architecture of machine learningbased quality of service assurance for the IMT-2020 network | |
| Functional architecture of multi-connection | |
| Functional architecture of network resource sharing based on distributed ledger technology | |
| Functional architecture of network virtualization for future networks | |
| Functional architecture of orchestration in next generation network evolution (NGNe) | |
| Functional architecture of software-defined networking | |
| Functional architecture of the next generation network service integration and delivery environment | |
| Functional framework and capabilities of the Internet of things | |
| Functional framework for artificial intelligencebased network service provisioning in future networks including IMT-2020 | |
| Functional model and service scenarios for QoS-enabled mobile VoIP service | |
| Functional requirements and architecture for the next generation network multimedia communication centre service | |
| Functional requirements and architecture of the next generation network for support of ubiquitous sensor network applications and services | |
| Functional requirements and architecture of the NGN for applications and services using tag-based identification | |
| Functional requirements and architecture of the NGN release 1 Amendment 1: Instantiation of NGN reference points | |
| Functional requirements and architecture of the NGN release 1 Corrigendum 1 | |
| Functional requirements and architecture of the NGN release 1 Supplement 1: Session/border control (S/BC) functions | |
| Functional requirements and architecture of the NGN release 1 | |
| Functional requirements and architecture of the web service component in next generation networks | |
| Functional requirements for accessing IPv6-based next generation networks | |
| Functional requirements for IPv6 migration in NGN | |
| Functional requirements of deep packet inspection for future networks | |
| Functional requirements of mobile IPTV | |
| Functional requirements of software-defined networking | |
| Fundamental characteristics and requirements of future packet based networks | |
| Fundamental Issues in Defense Training and Simulation | |
| Future networks including IMT-2020 \x96 Capability classification framework for dedicated networks | |
| Future networks including IMT-2020 \x96 Requirements and framework for self-organizing core network | |
| Future networks including IMT-2020 \x96 Requirements and functional architecture of distributed core network | |
| Future networks including IMT-2020: requirements and functional architecture of lightweight core for dedicated networks | |
| Future Networks: Objectives and Design Goals | |
| Galbraith's Building and Land Management Law for Students | |
| General overview of IPv6-based NGN | |
| General overview of NGN | |
| General principles and general reference model for next generation networks SERIES Y: GLOBAL INFORMATION INFRASTRUCTURE, INTERNET PROTOCOL ASPECTS AND NEXT GENERATION NETWORKS Next Generation Networks \x96 Frameworks and functional architecture... | |
| General principles and general reference model for Next Generation Networks | |
| General requirements for ID/locator separation in NGN | |
| General technical architecture for public packet telecommunication data network | |
| Generic framework of mobility management for next generation networks | |
| Generic requirements and framework of addressing, routing and forwarding in future, packet-based networks | |
| Graphic Symbols for Electrical Wiring and Layout Diagrams Used in Architecture and Building Construction | |
| Graphic Symbols for Fluid Power Diagrams | |
| Graphic Symbols for Plumbing Fixtures for Diagrams Used in Architecture and Building Construction | |
| Graphic Symbols for Railroad Maps and Profiles | |
| Graphical Symbols for Heat-Power Apparatus | |
| Graphical Symbols for Heating, Ventilating, and Air Conditioning | |
| Graphical Symbols for Pipe Fittings, Valves, and Piping | |
| Graphical Symbols for Process Flow Diagrams in the Petroleum and Chemical Industries | |
| Guidelines for the use of traffic management mechanisms in support of IPTV services | |
| High-level architecture of future packet-based networks | |
| High-level technical characteristics of network softwarization for IMT-2020 \x96 Part: SDN | |
| High-level technical characteristics of network softwarization for IMT-2020 | |
| Human Factors Methods: A Practical Guide for Engineering and Design | |
| Identification and configuration of resources for multi-connection | |
| Identification framework in future networks | |
| IMS for Next Generation Networks | |
| IMS-based real-time conversational multimedia services over NGN | |
| IMT-2020 fixed mobile convergence functional requirements for management and orchestration | |
| IMT-2020 network management and orchestration framework | |
| IMT-2020 network management and orchestration requirements | |
| IMT-2020 network slice configuration | |
| Information centric networking for IMT-2020 and beyond \x96 Requirements and capabilities of data object segmentation | |
| Information technology \x96 Cloud computing \x96 Overview and vocabulary | |
| Information technology \x96 Cloud computing \x96 Reference architecture | |
| Information-centric networking in networks beyond IMT-2020 \x96 Requirements and functional framework enhancement to support deterministic communication services | |
| Information-centric networking in networks beyond IMT-2020 \x96 Requirements and functional framework enhancement to support machine learning | |
| Information-centric networking in networks beyond IMT-2020 \x96 Requirements and functional framework to support distributed ledger technology | |
| Information-centric networking in networks beyond IMT-2020 \x96 Requirements and functional framework to support immersive live experience services | |
| Information-centric networking in networks beyond IMT-2020: Framework of locally enhanced name mapping and resolution | |
| Information-centric networking in networks beyond IMT-2020: Requirements and mechanisms of the transport layer | |
| Intelligent access selection in multi-connection | |
| Intent-based network management and orchestration for network slicing in IMT-2020 networks and beyond | |
| Interworking mechanisms in public packet telecom data networks | |
| IPTV functional architecture | |
| IPTV services and nomadism: Scenarios and functional architecture for unicast delivery | |
| Local shunting for multi-access edge computing in IMT-2020 networks | |
| Machine learning based end-to-end multi-domain network slice management and orchestration | |
| Machine learning marketplace integration in future networks including IMT-2020 | |
| Management of performance measurement for NGN | |
| Measuring energy in networks | |
| Mechanism for intelligent awareness of network status | |
| Mechanisms for the network elements with support of deep packet inspection | |
| Metadata framework for NaaS service lifecycle management | |
| Minimum security requirements for the interconnection of the Emergency Telecommunications Service (ETS) | |
| Mobile network sharing based on distributed ledger technology for networks beyond IMT-2020 \x96 Requirements and framework | |
| Mobility management and control framework and architecture within the NGN transport stratum | |
| Mobility management for fixed mobile convergence in IMT-2020 networks | |
| Mobility management for interworking between WiMAX and UMTS | |
| Mobility management framework for applications with multiple devices | |
| Mobility management framework for IP multicast communications in next generation networks | |
| Mobility management framework over reconfigurable networks | |
| Mobility management requirements for NGN | |
| Mobility security framework in NGN | |
| Mobility-supporting architecture for mobile peer-to-peer services in heterogeneous wireless networks | |
| MPLS-based mobility capabilities in NGN | |
| Multi-connection requirements | |
| Multicast functions in next generation networks | |
| Multimedia telephony over distributed service networking | |
| Network attachment control functions in next generation networks | |
| Network intelligence capability enhancement \x96 Awareness functional architecture | |
| Network intelligence capability enhancement \x96 Functional architecture | |
| Network intelligence capability enhancement \x96 Requirements and capabilities to support mobile content delivery optimization | |
| Network intelligence capability enhancement \x96 Requirements and capabilities | |
| Network slice orchestration and management for providing network services to 3rd party in the IMT-2020 network | |
| Next generation network evolution \x96 Requirements and capabilities for supporting authorized account messaging service | |
| Next generation network evolution phase 1 \x96 Overview | |
| Next Generation Networks \x96 Emergency telecommunications \x96 Technical considerations | |
| NGN capability requirements to support the multimedia communication centre service | |
| NGN capability set 2 | |
| NGN convergence service model and scenario using web services | |
| NGN identity management framework | |
| NGN identity management mechanisms | |
| NGN identity management requirements and use cases | |
| NGN release 1 requirements | |
| NGN service requirements and capabilities for network aspects of applications and services using tag-based identification | |
| OAM functions and mechanisms for Ethernet based networks | |
| Open service environment capabilities for NGN | |
| Operation, administration and maintenance functions and mechanisms for the public packet telecommunication data network (PTDN) | |
| OTU25 and OTU50 short-reach interfaces | |
| Overview of end-to-end cloud computing management | |
| Overview of Smart Farming based on networks | |
| Overview of the Internet of things | |
| Overview of trust provisioning in information and communication technology infrastructures and services | |
| Overview of ubiquitous networking and of its support in NGN | |
| Overview of unmanned smart farms based on networks | |
| Performance models and metrics for deep packet inspection | |
| Policy control mechanism in multi-connection | |
| Principles for the Management of Next Generation Networks | |
| PSTN/ISDN emulation and simulation | |
| PSTN/ISDN emulation architecture | |
| PSTN/ISDN evolution to NGN | |
| QoS requirements and framework of interworking capability for supporting deterministic communication services in local area networks for IMT-2020 and beyond | |
| Quality of service assurance requirements and framework for cloud gaming supported by the IMT-2020 network | |
| Quality of service assurance requirements and framework for smart grid supported by IMT-2020 and beyond | |
| Quality of service assurance requirements and framework for smart healthcare supported by IMT-2020 and beyond | |
| Quality of service assurance-related requirements and framework for smart education supported by IMT-2020 and beyond | |
| Quality of service assurance-related requirements and framework for virtual reality delivery using mobile edge computing supported by IMT-2020 | |
| Quality of service functional requirements for the IMT-2020 network | |
| Quality of service guaranteed mechanisms and performance model for public packet telecommunication data networks | |
| Quality of service monitoring requirements and framework for IMT-2020 and beyond | |
| Quality of service requirements and framework for supporting deterministic communication services in local area networks for IMT-2020 | |
| Quality of service requirements and framework of deterministic communications for remote device control services over IMT-2020 and beyond | |
| Recommended Metric Hole Sizes General Notes | |
| Recommended Non-Gage Notches for Sheet Metal Parts | |
| Recommended Punch Sizes for Metric Holes | |
| Recommended Special Metric Hole Sizes for Tapping Screws | |
| Requirements and architectural framework for autonomic management and control of IMT-2020 networks | |
| Requirements and architecture of the home energy management system and home network services | |
| Requirements and capabilities for ITU-T NGN | |
| Requirements and capabilities for next generation network service integration and delivery environment | |
| Requirements and capabilities of information-centric networking routing and forwarding based on control and user plane separation in IMT-2020 | |
| Requirements and capabilities of name mapping and resolution for information-centric networking in IMT-2020 | |
| Requirements and capabilities of network awareness based on cloud computing | |
| Requirements and capabilities of orchestration in next generation network evolution | |
| Requirements and capability framework for NICE implementation making use of software-defined networking technologies | |
| Requirements and framework allowing accounting and charging capabilities in NGN | |
| Requirements and framework for AI/ML-based network design optimization in future networks including IMT-2020 | |
| Requirements and framework for distributed joint learning to enable machine learning in future networks including IMT-2020 | |
| Requirements and framework for jitter guarantee in large scale networks including IMT-2020 and beyond | |
| Requirements and framework for latency guarantee in large-scale networks including the IMT-2020 network | |
| Requirements and framework for stateless fair queuing in large scale networks including IMT-2020 and beyond | |
| Requirements and framework for the support of VPN services in NGN, including the mobile environment | |
| Requirements and framework of distributed software-defined network intelligence capability enhancement based on distributed ledger technology | |
| Requirements and framework of human-oriented message service for smart learning in future networks | |
| Requirements and framework of industrial Internet networking based on future packet based network evolution | |
| Requirements and framework of multi-dimensional resource matching of next generation network evolution based on distributed ledger technology | |
| Requirements and framework of service aware networks for network service providers | |
| Requirements and framework of service function orchestration based on service function chaining | |
| Requirements for applying formal methods to software-defined networking | |
| Requirements for deep packet inspection in next generation networks | |
| Requirements for desktop as a service | |
| Requirements for distributed service networking capabilities | |
| Requirements for fostering telecommunication/in formation and communication technology services universalization in developing countries using open networks and artificial intelligence models | |
| Requirements for information control networks and related applications | |
| Requirements for integrating demographic data for new and emerging technologies in developing countries | |
| Requirements for Internet of things devices and operation of Internet of things applications during disaster | |
| Requirements for machine learning-based quality of service assurance for the IMT-2020 network | |
| Requirements for network function communication between public networks and public network integrated non-public networks in IMT-2020 | |
| Requirements for support of ubiquitous sensor network (USN) applications and services in the NGN environment | |
| Requirements for the support of flow-state-aware transport technology in NGN | |
| Requirements for the support of IPTV services | |
| Requirements for the support of machine-oriented communication applications in the next generation network environment | |
| Requirements for virtualization of control network entities in next generation network evolution | |
| Requirements of capability exposure in the IMT-2020 network | |
| Requirements of IMT-2020 fixed mobile convergence | |
| Requirements of joint development and operation for IMT-2020 networks and beyond | |
| Requirements of managed delivery services | |
| Requirements of network virtualization for future networks | |
| Requirements of next generation network evolution (NGNe) to support container-based network entities | |
| Requirements of next generation network evolution for support network and cloud interworking | |
| Requirements of next generation network evolution for supporting freedata service | |
| Requirements of soft network architecture for mobile | |
| Requirements of the IMT-2020 network Corrigendum 1 | |
| Requirements of the IMT-2020 network | |
| Requirements of the plug and play capability of the Internet of things | |
| Resource and admission control functions in Next Generation Networks | |
| Resource control and management function for virtual networks for carriers (vRCMF) | |
| Resource pooling for scalable network slice service management and orchestration in the IMT-2020 network | |
| Roadmap for IPv6 migration from the perspective of the operators of next generation networks | |
| Roadwork: Theory and Practice | |
| Routing mechanisms in public packet telecommunication data networks | |
| Safety Cases and Safety Reports: Meaning, Motivation and Management | |
| Safety Culture: Theory, Method and Improvement | |
| Scenarios and capability requirements of blockchain in next generation network evolution | |
| Scenarios and capability requirements of programmable log analysis in next generation networks | |
| Scenarios and requirements of intent-based network for network evolution | |
| Scenarios and requirements of network resource sharing based on distributed ledger technology | |
| Security mechanisms and procedures for NGN | |
| Security requirements for mobile remote financial transactions in next generation networks | |
| Security requirements for NGN release 1 | |
| Self-controlled identity based on blockchain: Requirements and framework | |
| Semantics based requirements and framework of the Internet of things | |
| Sensor control networks and related applications in a next generation network environment | |
| Service and capability requirements for e-health monitoring services | |
| Service brokering network framework for trusted reality | |
| Service framework to support web objects based ubiquitous self-directed learning | |
| Service function chaining in mobile networks | |
| Service model for a cultivation plan service at the pre-production stage | |
| Service model for entry-level smart farms | |
| Service model for human-centric touring guide with augmented reality | |
| Service model of the agriculture information based convergence service | |
| Service requirements and functional models for customized multimedia ring services | |
| Service restoration priority levels in Next Generation Neworks | |
| Service scheduling to support fixed-mobile convergence in the IMT-2020 network | |
| Service universalization in future networks | |
| Session management for fixed mobile convergence in IMT-2020 networks | |
| Smart farming education service based on u-learning environment | |
| Smart ubiquitous networks \x96 Content awareness framework | |
| Smart ubiquitous networks \x96 Context awareness framework | |
| Smart ubiquitous networks \x96 Functional architecture of content delivery | |
| Smart ubiquitous networks \x96 Overview | |
| Smart ubiquitous networks \x96 Smart traffic control and resource management functions | |
| Socio-economic assessment of future networks by tussle analysis | |
| Specification Guide: Short Form for I-Joists and Rim Board | |
| Specification Guide: Short Form for Panels | |
| Support for OAuth in next generation networks | |
| Surface Texture - Roughness, Waviness and Lay | |
| Symbols for Mechanical and Acoustical Elements as Used in Schematic Diagrams | |
| T interface for the public packet telecommunication data network | |
| Technical Note: Dimensional Changes in Structural Glued Laminated Timber | |
| Technical requirements for supporting application addressing in edge computing for future networks including IMT-2020 | |
| Terms and definitions for IMT-2020 network Corrigendum 1 | |
| Terms and definitions for IMT-2020 network | |
| Terms and definitions for IPTV | |
| Terms and definitions for Next Generation Networks | |
| Terms and definitions for the Internet of things | |
| The application of AAA service in NGN | |
| The BDA Guide to Successful Brickwork | |
| The carrier grade open environment reference model | |
| The Field Guide to Understanding 'Human Error' | |
| The functional architecture of virtualized control network entities management and orchestrator in next generation network evolution | |
| The M interface in public packet telecommunication data networks | |
| The Multisensory Driver: Implications for Ergonomic Car Interface Design | |
| Traffic typization IMT-2020 management based on an artificial intelligence approach | |
| Trapping Safety into Rules: How Desirable or Avoidable is Proceduralization? | |
| Trust registry for devices \x96 Requirements, architectural framework | |
| Trustworthiness evaluation for IMT-2020 and beyond with autonomous network functions | |
| Unified management of content delivery networks | |
| Unified multiaccess edge computing for supporting fixed mobile convergence in IMT-2020 networks | |
| Voice and video call continuity over LTE, Wi-Fi and 2G/3G | |
| Wiring Regulations in Brief |
| << Prev | Next >> |