IEEE - Institute of Electrical and Electronics Engineers, Inc. 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.
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| Product Name | Notes |
|---|---|
| "This amendment is based on IEEE Std 802.11™-2007, as amended by IEEE 802.11k-2008, IEEE 802.11r-2008, IEEE P802.11y-2008, IEEE P802.11w D11.0, IEEE P802.11n D11.0, IEEE P802.11p D7.02 and IEEE P802.11z D5.0. | |
| "This document provides updates to IEEE Std 802.16¿s MIB for the MAC, PHY and associated management procedures in order to accommodate recent extensions to the standard. The project will use... | |
| (Amendment of IEEE Std 802.15.4-2006). This standard defines the protocol and compatible interconnection for data communication devices using low data rate, low power and low complexity, short-range radio frequency (RF)... | |
| (Amendment of IEEE Std 802.3-2008). This amendment to IEEE Std 802.3-2008 provides a Corrigendum to the published IEEE Std 802.3-2008 for PAUSE timing as it relates to 10G port types. | |
| (Amendment to IEEE Std 802.11-2007). This amendment specifies the extensions to IEEE Std 802.11 for Wireless Local Area Networks providing mechanisms for protecting management frames. | |
| (Amendment to IEEE Std 802.15.3-2003). This project will define a 25 to 100 GHz (millimeter wave) alternative PHY clause for higher data rate amendment to Standard 802.15.3-2003. This frequency range... | |
| (Draft Amendment to IEEE Std 802.11™-2007) This document defines enhancements to the 802.11 PHY and MAC to support operation in the 3650-3700 MHz band in the United States of America. | |
| (DRAFT Amendment to IEEE Std 802.1Q-2005). This amendment supports provisioning systems that explicitly select traffic engineered paths within Provider Backbone Bridged Networks. | |
| A physical layer (PHY) and medium access control (MAC) sublayer for short-range optical wireless communications (OWC) in optically transparent media using light wavelengths from 10 000 nm to 190 nm... | |
| A Secure Device Identifier (DevID) is cryptographically bound to a device and supports authentication of the device’s identity. An Initial Device Identifier (IDevID) provide by the supplier of a device... | |
| A secure device identifier (DevID) is cryptographically bound to a device, and supports authentication of the device¿s identity. Locally significant identities can be securely associated with an initial manufacturer-provisi oned... | |
| A YANG data model in support of configuration and operational status information for a subset of Bridging capabilities is provided in this amendment to IEEE Std 802.1Q™-2018. | |
| Additional IEEE 802(R) media access independent mechanisms that optimize handovers between possibly heterogeneous IEEE 802 systems and between IEEE 802 systemsand cellular systems to enable improved handover performance for single-radio... | |
| Amendment to IEEE 802.16. This amendment specifies protocol enhancements to the medium access control layer (MAC) for enabling increased robustness and alternate radio path establishment in degraded network conditions. Amendment... | |
| Amendment to IEEE 802.16. This amendment specifies protocol enhancements to the medium access control layer (MAC) for enabling increased robustness and alternate radio path establishment in degraded network conditions. Limited... | |
| Amendment to IEEE Draft 802.15.4REVi/D07. This amendment provides three PHYs that can be used in a wide range of applications requiring various combinations of low cost, low energy consumption, multi-year... | |
| Amendment to IEEE Standard P802.15.4-2011. This amendment provides two PHYs (MSK and LRP UWB) that can be used in a wide range of applications requiring various combinations of low cost,... | |
| Amendment to IEEE Std 802.11-2007. This amendment describes protocols for IEEE 802.11 stations to form self-configuring multi-hop topology networks that supports both broadcast/multicast and unicast delivery. | |
| An access network (which connects terminals to their access routers) utilizing technologies based on the family of IEEE 802® standards is specified in this recommended practice. An access network reference... | |
| An alternative physical layer (PHY) and a modified medium access control (MAC) layeris defined in this amendment.Two PHY modes have been defined that enable data rates up to 100 Gb/s... | |
| An alternative physical layer (PHY) at the lower THz frequency range between 252 GHz and 325 GHz for switched point-to-point links is defined in this amendment. Two PHY modes are... | |
| Approved Draft. This standard specifies the air interface, including the medium access control layer(MAC) and physical layer (PHY), of combined fixed and mobile point-to-multipoint broadbandwireless access (BWA) systems providing multiple... | |
| Clarification of Parameter definition in Group Session Key derivation | |
| Definitions of MAC related functions to enable spectrum resource management are addressed in this amendment to IEEE Std 802.15.4(TM). It specifies the following:-- Spectrum resource measurements and network performance metrics,... | |
| Enhancements to the configuration of time-sensitive streams are provided by this amendment to IEEE Std 802.1Q-2018. | |
| Enhancements to the forwarding process that support per-stream filtering and policing are provided in this amendment to IEEE Std 802.1Q-2014. | |
| Enhancements to the IEEE 802.15.4(TM) smart utility network (SUN) orthogonal frequency division multiplexing (OFDM) physical layers (PHYs) that enable support for data rates up to 2.4 Mb/s are defined by... | |
| Enhancements to the set of TLVs used by the Data Center Bridging eXchange protocol (DCBX) for the purpose of simplifying the management of networks utilizing Data Center Bridging (DCB) features... | |
| Enhancements to the WirelessMAN-Advanced Air Interface to support high-reliability networks are specified in this amendment to IEEE Std 802.16.1-2012. | |
| Errors, inconsistencies, and ambiguities in IEEE Std 802.15.4™-2015 are corrected in this corrigendum. | |
| Extend the RF channelization of the millimeter wave PHY to allow for use of the spectrum up to 71 GHz. | |
| Extensions to the Virtual Station Interface (VSI) Discovery and Configuration Protocol (VDP) to support using the protocol between an end station and a device doing encapsulation/decaps ulation for Network Virtualization... | |
| For the purpose of providing compatible authentication, authorization, and cryptographic key agreement mechanisms to support secure communication between devices connected by 802 LANs, this standard: a) Specifies a general method... | |
| How all or part of a network can be secured transparently to peer protocol entities that use the MAC Service provided by IEEE 802® LANs to communicate is specified in... | |
| IEEE Std 802.15.4-2003 defined the protocol and compatible interconnection for data communication devices using low-data-rate, low-power, and low-complexity short-range radio frequency (RF) transmissions in a wireless personal area network (WPAN). | |
| IEEE Std 802.15.4-2015 defines the protocol and compatible interconnection for data communication devices using low-data-rate, low-power, and low-complexity short-range radio frequency (RF) transmissions in a wireless personal area network (WPAN). | |
| In this amendment to IEEE Std 802.15.4-2011, outdoor low-data-rate, wireless, TV White Space network requirements are addressed. Alternate PHYs are defined as well as only those MAC modifications needed to... | |
| layer (PHY), of combined fixed and mobile point-to-multipoint broadband wireless access (BWA) systems providing multiple services. The MAC is structured to support multiple physical layer (PHY) specifications, each suited to... | |
| Link Aggregation allows one or more links to be aggregated together to form a Link Aggregation Group, such that a Media Access Control (MAC) Client can treat the Link Aggregation... | |
| Link Aggregation allows parallel full duplex point-to-point links to be used as if they werea single link, and also supports the use of multiple links as a resilient load sharing... | |
| Link Aggregation allows parallel point-to-point links to be used as if they were a single link, and also supports the use of multiple links as a resilient load sharing interconnect... | |
| MAC-independent Link Aggregation capability and general information relevant to specific MAC types are defined in this standard. Link Aggregation allows parallel full-duplex point-to-point links to be used as if they... | |
| MAC/PHY protocol enhancements for cooperation among base stations in multi-tier networks to enhance interference mitigation, mobility management, and base station power management are specified in this amendment. Enhanced base stations... | |
| Physical layer (PHY) and medium access control (MAC) mechanisms are defined in this standard for wireless personal area networks (WPANs) peer aware communications (PAC) optimized for peer-to-peer and infrastructure-less communications... | |
| Port-based network access control allows a network administrator to restrict the use of IEEE 802 LAN service access points (ports) to secure communication between authenticated and authorized devices. This standard... | |
| Port-based network access control allows a network administrator to restrict the use of IEEE 802® LAN service access points (ports) to secure communication between authenticated and authorized devices. This standard... | |
| Radio technology independent methods for coexistence among dissimilar television band devices (TVBDs) and dissimilar or independently operated networks of TVBDs are specified in this standard. | |
| Seventh draft of 802 WG15 TG4e. Amendment to IEEE Std 802.15.4-2011. The intention of this amendment is to enhance and add functionality to the 802.15.4 MAC to a) better support... | |
| Should be based on the scope and purpose of the standard as indicated on the PAR. | |
| Standard Docs | |
| Technical and editorial errors identified by the IEEE 802.1 Working Groups maintenance activity are corrected by this corrigendum to IEEE 802.1AB(TM)-2009. | |
| Technical corrections and clarifications to IEEE Std 802.11 for wireless local area networks (WLANs) as well as enhancements to the existing medium access control (MAC) and physical layer (PHY) functions... | |
| The existing low-energy critical infrastructure monitoring (LECIM) frequency shift keying (FSK) physical layer of IEEE Std 802.15.4-2015 is extended to be more robust in presence of interference and achieve higher... | |
| The existing PDU format defined in IEEE Std 802.1ak is incorrect, and in its current form, cannot be interpreted by the protocol state machines. The changes defined in this corrigendum... | |
| The intention of this amendment is to enhance and add functionality to the 802.15.4 MAC to a) better support the industrial markets and b) permit compatibility with modifications being proposed... | |
| The Management Information Base (MIB) module specifications for IEEE Std 802.3, also known as Ethernet, are contained in this standard. It includes the Structure of Management Information Version 2 (SMIv2)... | |
| The Management Information Base (MIB) module specifications for IEEE Std 802.3, alsoknown as Ethernet, are contained in this standard. It includes the Structure of Management InformationVersion 2 (SMIv2) MIB module... | |
| The Management Information Base (MIB) module specifications for IEEE Std 802.3TM, also known as Ethernet, are contained in this standard. It includes the Structure of Management Information Version 2 (SMIv2)... | |
| The Ministry of Industry and Information Technology of the People's Republic of China has approved the 174-216 MHz, 407-425 MHz and 608-630 MHz bands for medical information transmission. China Medical... | |
| The network-based coexistence information exchange among networks and devices to enable network-based coexistence management is defined in this amendment to IEEE 802.19.1-2014. This amendment specifies procedures and protocols for collection... | |
| The protocol and compatible interconnection of data and multimedia communication equipment via 2.4 GHz and 60 GHz radio transmissions in a Wireless Personal Area Network (WPAN) using low power and... | |
| The scope of the proposed project is the application of 802.11 based systems to the 3650-3700 MHz band in the USA. | |
| The technical requirements of this standard form a compatibility standard for mobile broadband wireless access systems. The standard ensures that a compliant Access Terminal (AT) or User Terminal (UT) can... | |
| The YANG data model specified in this amendment to IEEE Std 802.1X™-2010 allows configuration and status reporting for port-based network access control, in the scenarios described in Clause 7 of... | |
| These technical requirements form a compatibility standard for mobile broadband wireless access systems. The requirements ensure that a compliant Access Terminal (AT) or User Terminal (UT) can obtain service through... | |
| This air interface, including the medium access control layer (MAC) and physical layer (PHY), of the fixed and portable point-to-multipoint wireless regional area networks (WRANs) operating in spectrum allocated to... | |
| This air interface, including the medium access control layer (MAC) and physical layer (PHY), of the fixed and portable point-to-multipoint wireless regional area networks operating in spectrum allocated to the... | |
| This amendment adds MACsec (Media Access Control security) Key Agreement protocol (MKA) data elements and procedures that provide additional security and manageability capabilities, including the ability to maintain secure communication... | |
| This amendment defines a PHY layer enabling the use of the 865-867 MHz band in India. The supported data rate should be at least 40 kb/s per second and the... | |
| This amendment defines a physical layer for IEEE 802.15.4 in the 2360 to 2400 MHz band which complies with Federal Communications Commission (FCC) MBAN rules. This amendment defines modifications to... | |
| This amendment defines a physical layer for IEEE Std 802.15.4-2015, capable of sup-porting 2 Mb/s data rates, utilizing the 2400-2483.5 MHz band, having backwards-compatibil ity to, and the same occupied... | |
| This amendment defines an alternative physical layer (PHY) and a modified medium accesscontrol (MAC) layer.Two PHY modes have been defined that enable data rates up to 100 Gb/s using the... | |
| This amendment defines an alternative physical layer (PHY) at the lower THz frequencyrange between 252 GHz and 325 GHz for switched point-to-point links. Two PHY modes are definedthat enable data... | |
| This amendment defines an architecture and bridge protocols for interconnection of multiple Provider Bridged Networks, allowing a Provider to support up to 224 service instances. | |
| This amendment defines an IEEE 802.11 Wireless LAN (WLAN) Mesh Basic Service Set using the IEEE 802.11 MAC/PHY layers that supports both individually addressed and group addressed delivery over self-configuring... | |
| This amendment defines changes to the IEEE Std 802.15.4-2015 SUN PHYs enabling the use of the 870-876 MHz & 915-921 MHz bands in Europe, the 902-928 MHz band in Mexico,... | |
| This amendment enables a service provider to use the architecture and protocols of IEEE Std 802.17TM to support ring interconnection through dual station homing, providing 50-ms protection, loop preventation, and... | |
| This amendment enables a service provider to use the architecture and protocols of IEEE Std 802.17TM to support ring interconnection through dual station oming, providing 50-ms protection, loop preventation, and... | |
| This amendment enhances the 802.20 Management Information Base (MIB) chapter to include additional information and MIB documentation (i.e, a discussion of Security impacts, and cross references to the text for... | |
| This amendment enhances the UWB PHYs with additional coding options and improvements to increase the integrity and accuracy of ranging measurements. It also enhances the MAC to support control of... | |
| This amendment extends the connectivity fault management capabilities introduced in IEEE Std 802.1ag-2007 to include tools to facilitate diagnosis and isolation of faults sensitive to, or caused by, particular data... | |
| This amendment extends the connectivity fault management capabilities introduced in P802.1ag to include diagnosis and isolation of faults sensitive to, or caused by, particular data patterns in frames transmitted by... | |
| This amendment includes management information base (MIB) definitions in IEEE Std 802.1Q | |
| This amendment is based on IEEE Std 802.11™-2007, as amended by IEEE 802.11k-2008, IEEE 802.11r-2008, IEEE P802.11y-2008, IEEE P802.11n D7.0, IEEE P802.11w D6.0, IEEE P802.11p D4.0 and IEEE P802.11z D2.0... | |
| This amendment provides Direct Link Setup enhancements to the IEEE 802.11 MAC and PHY, extending direct link setup to be independent of the access point (AP), and adding power save... | |
| This amendment provides Direct Link Setup enhancements to the IEEE 802.11 MAC, and PHY, extending direct link setup to be independent of the access point (AP), and adding power save... | |
| This amendment provides Wireless Network Management enhancements to the IEEE 802.11 MAC, and PHY, extending radio measurements to effect a complete and coherent upper layer interface for managing IEEE 802.11... | |
| This amendment provides Wireless Network Management enhancements to the IEEE 802.11MAC, and PHY, extending radio measurements to effect a complete and coherent upper layer interface formanaging IEEE 802.11 devices in... | |
| This amendment specifies enhancements to the 802.11 MAC that support WLAN Interworking with External Networks. It enables higher layer functionalities to provide overall end-to-end solution. Main goals of 802.11u are... | |
| This amendment specifies enhancements to the 802.11 MAC that support WLAN Interworking with External Networks. It enables higher layer functionalities to provide overall end-to-end solutions. The main goals of 802.11u... | |
| This amendment specifies Ethernet Data Encryption Devices (EDEs). An EDE is a two port bridge that uses MACsec to provide secure connectivity for attached customer bridges, or for attached provider... | |
| This amendment specifies IEEE Std 802.16 medium access control (MAC) enhancements and minimal orthogonal frequency division multiple access (OFDMA) physical layer (PHY) modifications in licensed bands to support lower power... | |
| This amendment specifies improved mechanisms, as policies and medium access control enhancements, to enable coexistence among license exempt systems based on IEEE Standard 802.16 and to facilitate the coexistence of... | |
| This amendment specifies improved mechanisms, as policies and medium access control enhancements, to enable coexistence among license- exempt systems based on IEEE Standard 802.16 and to facilitate the coexistence of... | |
| This amendment specifies improved mechanisms, as policies and medium access control enhancements, to enable coexistence among license-exempt systems based on IEEE Standard 802.16 and to facilitate the coexistence of such... | |
| This amendment specifies medium access control (MAC) enhancements and minimal WirelessMAN-Advanced physical layer (PHY) modifications in licensed bands to support lower power consumption at the device, support by the base... | |
| This amendment specifies protocols, procedures and managed objects that enable flowcontrol per traffic class on IEEE 802 point-to-point full duplex links. This is achieved by amechanism similar to the IEEE... | |
| This amendment specifies protocols, procedures and managed objects that support congestion management of long-lived data flows within network domains of limited bandwidth-delay product. This is achieved by enabling bridges to... | |
| This amendment specifies protocols, procedures and managed objects, usable by existing higher layer mechanisms, that allow network resources to be reserved for specific traffic streams traversing a bridged local area... | |
| This amendment specifies shortest path bridging of unicast and multicast frames, including protocols to calculate multiple active topologies that can share learnt station information, and support of a VLAN by... | |
| This amendment specifies shortest path bridging of unicast and multicast frames,including protocols to calculate multiple active topologies that can share learnt station information, and support of a VLAN by multiple,... | |
| This amendment specifies the extensions to IEEE Std 802.11 for Wireless Local Area Networks providing mechanisms for protecting management frames. | |
| This amendment specifies the extensions to IEEE Std 802.21-2008 for security mechanisms to protect media independent handover services and mechanisms to use MIH to assist proactive authentications to reduce the... | |
| This amendment specifies the extensions to IEEE Std 802.21-2008 for supporting handovers with downlink only technologies. | |
| This amendment specifies the GCM-AES-256 Cipher Suite as an option in addition to the existing mandatory to implement Default Cipher Suite, GCM-AES-128. | |
| This amendment specifies the mechanism for the support of bridging of IEEE 802.20 networks. | |
| This amendment specifies the optional use of Cipher Suites that make use of a 64-bit (PN) to allow more than 232 MACsec protected frames to be sent with a single... | |
| This amendment specifies two alternate PHYs, TASK and RS-GFSK, in addition to those of IEEE Std 802.15.4-2011. The amendment also defines those MAC modifications needed to support their implementation. The... | |
| This amendment standard specifies mechanisms to enable multicast group management for MIH services. The specification defines management primitives and messages that enable a user to join, leave or update group... | |
| This amendment supports provisioning systems that explicitly select traffic engineered paths within Provider Backbone Bridged Networks. | |
| This amendment to IEEE 802.19.1-2014 defines the network-based coexistence information exchange among networks and devices to enable network-based coexistence management. It specifies procedures and protocols for collection and exchanging coexistence... | |
| This amendment to IEEE Std 802.15.10 fully defines how the addressing and route information (already defined in the recommended practice) are to be used by the routing modes (also currently... | |
| This amendment to IEEE Std 802.15.4-2006 addresses principally outdoor low data rate, wireless, smart metering utility network requirements. It defines alternate PHYs and only those MAC modifications needed to support... | |
| This amendment to IEEE Std 802.15.4-2011 provides two PHYs (DSSS and FSK) that support critical infrastructure monitoring applications. In addition, the amendment describes only those MAC modifications needed to support... | |
| This amendment to IEEE Std 802.15.4-2011 specifies a PHY for use in equipment intended to address rail transportation industry needs and to meet US positive train control (PTC) regulatory requirements... | |
| This amendment to IEEE Std 802.1Q defines enhancements to the forwarding and queueing functions of a VLAN Bridge to support the transmission of time sensitive data streams. | |
| This amendment to IEEE Std 802.1Q defines enhancements to the functions of a VLAN Bridge to support Edge Virtual Bridging functionality. | |
| This amendment to IEEE Std 802.1Q defines enhancements to transmission selection to support allocation of bandwidth amongst traffic classes, plus a protocol for controlling the application of Data Center Bridging... | |
| This amendment to IEEE Std 802.1Q defines the architecture, procedures and protocols associated with relay devices that are able to interconnect two LANs. | |
| This amendment to IEEE Std 802.1Q specifies explicit path control, bandwidth reservation, and redundancy (protection, restoration) for data flows. | |
| This amendment to IEEE Std 802.1Q-2011 specifies protocols, procedures, and managed objects that-- Provide for the discovery, configuration, and control of a pair of direct-attached limited-function Service VLAN (S-VLAN) components... | |
| This amendment to IEEE Std 802.1Q-2014 describes the use of traffic scheduling and per-stream filtering and policing to support cyclic queuing and forwarding. | |
| This amendment to IEEE Std 802.1Q-2014 provides enhancements to the forwarding process that support frame preemption. | |
| This amendment to IEEE Std 802.1Q-2014 provides enhancements to the forwarding process that support Per-Stream Filtering and Policing. | |
| This amendment to IEEE Std 802.1Q-2014 provides enhancements to the forwarding process that support scheduled traffic. | |
| This amendment to IEEE Std 802.1Qaz defines enhancements to the set of TLVs used by the Data Center Bridging eXchange (DCBX) protocol for the purpose of simplifying the management of... | |
| This amendment to IEEE Std. 802.1Q specifies routing algorithms and relay behavior supporting equal cost multipath forwarding in shortest path bridged VLANs. | |
| This amendment to IEEE Std. 802.1Q specifies the use of S-VLANs to provide customer service interfaces in one Provider Bridged Network for customer interface LANs attached to another Provider Bridged... | |
| This corrigendum contains substantive corrections to IEEE Std 802.16-2004. It corrects errors, inconsistencies, and ambiguities in that standard. It does not contain new material. | |
| This corrigendum to IEEE Std 802.1AB-2009 corrects technical and editorial errors identified by the IEEE 802.1 Working Groups maintenance activity. | |
| This corrigendum to IEEE Std 802.1AC™-2016 corrects the value of the LLC Encapsulation EtherType. | |
| This corrigendum to IEEE Std 802.1ak corrects errors in the MRP protocol specification. | |
| This corrigendum to IEEE Std 802.1AS provides technical and editorial corrections. | |
| This corrigendum to IEEE Std 802.1AX-2014 provides technical and editorial corrections. | |
| This corrigendum to IEEE Std 802.1BA-2011 corrects technical and editorial errors identified by the IEEE 802.1 Working Groups maintenance activity. | |
| This corrigendum to IEEE Std 802.1Q-2011 corrects technical and editorial errors identified by the IEEE 802.1 Working Group's maintenance activity. | |
| This corrigendum to IEEE Std 802.1Q-2014 corrects technical and editorial errors identified by the IEEE 802.1 Working Groups maintenance activity. | |
| This Corrigendum to IEEE Std 802.3-2008 corrects the PAUSE reaction timing delay for the 10GBASE-T port type. | |
| This corrigndum to IEEE Std 802.1ak corrects errors in the MRP protocol specification | |
| This document defines a protocol and a set of managed objects that can be used for discovering the physical topology from adjacent stations in IEEE 802 LANs. | |
| This document defines a protocol and a set of managed objects that can be used for discovering the physical topology from adjacent stations in IEEE 802® LANs. | |
| This document defines a protocol and a set of managed objects that can be used for discovering the physical topology from adjacent stations in IEEE 802-+ LANs. | |
| This document defines enhancements to the 802.11 PHY and MAC to support operation in the 3650¿3700 MHz band in the United States of America. | |
| This document defines enhancements to the 802.11 PHY and MAC to support operation in the 3650-3700 MHz band in the United States of America. | |
| This document provides enhancements to the MAC and PHY management entities of IEEE Standard 802.16-2004, as amended by P802.16e, to create standardized procedures and interfaces for the management of conformant... | |
| This document recommends best engineering practices 1 for the installation and deployment of IEEE 802.22 systems to help assure that such systems are correctly installed and deployed | |
| This document recommends engineering practices for the installation and deployment of IEEE 802.22 systems. | |
| This document specifies OFDMA physical layer and medium access control layer enhancements to IEEE Std 802.16 for licensed bands to enable the operation of relay stations. Subscriber station specifications are... | |
| This document specifies OFDMA physical layer and medium access control layer enhancements to IEEE Std. 802.16 for licensed bands to enable the operation of relay stations. | |
| This document specifies OFDMA physical layer and medium access control layer enhancements to IEEE Std. 802.16 for licensed bands to enable the operation of relay stations | |
| This draft standard defines the medium access control characteristics, physical layer interface methods and layer management parameters for the resilient packet ring (RPR) access method for ring topologies. A set... | |
| This draft standard defines the medium access control characteristics, physical layerinterface methods and layer management parameters for the resilient packet ring (RPR) accessmethod for ring topologies. A set of protocols... | |
| This is a standard for short range, wireless communication in the vicinity of, or inside, a human body (but not limited to humans). It uses existing ISM bands as well... | |
| This project specifies WirelessMAN-OFDMA TDD operation in exclusively-1 licensed spectrum with channel bandwidth from 100 kHz up to 1.20 MHz, including 1 MHz explicitly. The amendment targets operation in the... | |
| This project will define a 25 to 100 GHz (millimeter wave) alternative PHY clause for higher data rate amendment to Standard 802.15.3-2003. This frequency range allows for the USA and... | |
| This Recommended Practice defines a message exchange framework based on Information Elements as a transport method for key management protocol (KMP) datagrams and guidelines for the use of some existing... | |
| This recommended practice provides a mesh service to IEEE Std 802.15.4-2006 low rate WPAN standard and a mesh service with MAC enhancement to IEEE Std 802.15.3-2003 IEEE Std 802.15.3b-2005 high... | |
| This recommended practice will facilitate the routing of packets in dynamically changing wireless networks. The result is an extension of the area of coverage as the number of nodes increase. | |
| This revision specifies technical corrections and clarifications to IEEE Std 802.11 for wireless local area networks (WLANS) as well as enhancements to the existing medium access control (MAC) and physical... | |
| This standard amends the IEEE 802.16 WirelessMAN-OFDMA specification to provide an advanced air interface for operation in licensed bands. It meets the cellular layer requirements of IMT-Advanced next generation mobile... | |
| This standard contains the Management Information Base (MIB) module specifications for IEEE Std 802.3, also known as Ethernet. It includes the Structure of Management Information Version 2 (SMIv2) MIB module... | |
| This standard covers certain mechanical requirements for liquid-immersed distribution transformers in respect to tank strength as well as static and dynamic tank pressure mitigation. This standard can be applied to... | |
| This standard defines a PHY and MAC layer for short-range optical wireless communications using visible light in optically transparent media. The visible light spectrum extends from 380 to 780 nm... | |
| This standard defines a protocol and procedures for the transport of timing over Bridged and Virtual Bridged Local Area Networks. It includes the transport of synchronized time, the selection of... | |
| This standard defines a protocol and procedures for the transport of timing over local area networks. It includes the transport of synchronized time, the selection of the timing source (i.e.,... | |
| This standard defines a protoocl and procedures for the transport of timing over Bridged and Virtual Bridged Local Area Networks. It includes the transport of synchronized time, the selection of... | |
| This standard defines an extensible IEEE 802(R) media access independent services framework (i.e., function and protocol) that enables the optimization of services including handover and other services when performed between... | |
| This standard defines extensible 802 media access independent mechanisms that enable the optimization of handover between heterogeneous 802 systems and may facilitate handover between 802 systems and cellular systems. | |
| This standard defines profiles that select features, options, configurations, defaults, protocols and procedures of bridges, stations and LANs that are necessary to build networks that are capable of transporting time... | |
| This standard defines profiles that select features, options, configurations, defaults, protocols, and procedures of bridges, stations, and LANs that are necessary to build networks that are capable of transporting fronthaul... | |
| This standard defines several use cases and services, namely, handover between heterogeneous networks, home energy management system, software-defined radio access networks, radio resource management and device-to-device communication service that need... | |
| This standard defines the MAC Service and the Internal Sublayer Service (ISS). It specifies media-dependent convergence functions which map IEEE 802 (R) MAC interfaces to the ISS. The MAC Service... | |
| This standard defines the MAC Service and the Internal Sublayer Service (ISS). It specifies media-dependent convergence functions which map IEEE 802 MAC interfaces to the ISS. The MAC Service is... | |
| This standard defines the MAC service provided by all IEEE 802 MACs along with the Internal Sublayer Service (ISS) that is provided by IEEE 802 MACs to the relay function... | |
| This standard defines the protocol and compatible interconnection for data communication devices using low data rate, low power and low complexity, short-range radio frequency (RF) transmissions in a wireless personal... | |
| This standard defines the protocol and data formats for communication devices forming a beaconing network that are used to protect low-power, licensed devices operating in television broadcast bands from harmful... | |
| This standard details definitions, method of measurements and minimum performance characteristics for IEEE P802.20 MBWA terminals and base stations/Access Nodes (AN). The test methods are specified in this document; however,... | |
| This standard provides a signaling protocol to enable the end- to-end management of resource reservation for quality of service (QoS) guaranteed streams. The signaling protocol facilitates the registration, deregistration, and... | |
| This standard represents the Protocol Implementation Conformance Statement Proforma, per ISO/IEC 9646-7 and ITU-T X.296, for conformance specification of access nodes and access terminals based on the air interface specified... | |
| This standard specifies additional IEEE 802 media access independent mechanisms that optimize handovers between possibly heterogeneous IEEE 802 systems and between IEEE 802 systems and cellular systems, to enable improved... | |
| This standard specifies alternate Physical Layer (PHY) and necessary Medium Access Control Layer (MAC) enhancements to IEEE std. 802.22-2011 for operation in Very High Frequency (VHF)/ Ultra High Frequency (UHF)... | |
| This standard specifies how the MAC Service is supported by Bridged Networks, theprinciples of operation of those networks, and the operation of MAC Bridges and VLAN Bridges,including management, protocols, and... | |
| This standard specifies how the MAC Service is supported by Virtual Bridged Local Area Networks, the principles of operation of those networks, and the operation of VLAN-aware Bridges, including management,... | |
| This standard specifies how the Media Access Control (MAC) Service is supported by Bridged Networks, the principles of operation of those networks, and the operation of MAC Bridges and VLAN... | |
| This standard specifies IEEE 802 media access-independent mechanisms that optimize handovers between heterogeneous IEEE 802 systems and between IEEE 802 systems and cellular systems. | |
| This standard specifies minimum performance parameters and the associated test methodologies for implementation of 802.20 compliant systems. | |
| This standard specifies procedures, managed objects and protocols for bridges and end systems that provide identification and replication of packets for redundant transmission, identification of duplicate packets, and elimination of... | |
| This standard specifies procedures, managed objects, and protocols for bridges and end systems that provide identification and replication of packets for redundant transmission, identification of duplicate packets, and elimination of... | |
| This standard specifies protocols, procedures, and managed objects to allow IEEE 802.11 media to provide internal connections within bridged networks, as well as access to bridged networks. | |
| This standard specifies protocols, procedures, and managed objects to support topology change signaling to alter the binding (held in an I-Component) of Customer addresses to Backbone addresses on a per-I-SID... | |
| This standard specifies radio 1 technology independent methods for coexistence among dissimilar TV Band Devices (TVBDs) and dissimilar or independently operated networks of TVBDs | |
| This standard specifies radio technology independent methods for network-based coexistence among dissimilar or independently operated networks of unlicensed devices and dissimilar unlicensed devices. The standard is defined for geo-location capable... | |
| This standard specifies the air interface, including the cognitive medium access control layer (MAC) and physical layer (PHY), of point-to-multipoint wireless regional area networks comprised of a professional fixed base... | |
| This standard specifies the air interface, including the medium access control layer (MAC) and physical layer (PHY), of combined fixed and mobile point-to-multipoint broadband wireless access (BWA) systems providing multiple... | |
| This standard specifies the air interface, including the medium access control layer(MAC) and physical layer (PHY), of combined fixed and mobile point-to-multipoint broadbandwireless access (BWA) systems providing multiple services. The... | |
| This standard specifies the air interface, including the medium access control layer(MAC) and physical layer (PHY), of the fixed and portable point-to-multipoint wireless regional area networks operating in spectrum allocated... | |
| This standard specifies the air interface, including the medium access control layer(MAC)and physical layer (PHY), of combined fixed and mobile point-to-multipoint broadband wireless access(BWA) systems providing multiple services. The MAC... | |
| This standard specifies the architecture, abstraction layers, interfaces and metadata requirements for Spectrum Characterization and Occupancy Sensing (SCOS) system, and defines performance parameters, units and measures. This SCOS system comprises... | |
| This standard specifies the operation of Bridge Port Extenders, including management, protocols and algorithms. Bridge Port Extenders operate in support of the MAC Service by Extended Bridges. | |
| This standard specifies the operation of Bridge Port Extenders, including management, protocols, and algorithms. Bridge Port Extenders operate in support of the MAC Service by Extended Bridges. (The PDF of... | |
| This standard specifies the operation of Bridge Port Extenders, including management, protocols, and algorithms. Bridge Port Extenders operate in support of the MAC Service by Extended Bridges. The PDF of... | |
| This standard specifies the protocol and procedures used to ensure that the synchronization requirements are met for time sensitive applications, such as audio and video, across Bridged and Virtual Bridged... | |
| This standard specifies the WirelessMAN-Advanced Air Interface, an enhanced air interface designated as "IMT-Advanced" by the International Telecommunication Union -- Radiocommunication Sector (ITU-R). | |
| Two PHYs (DSSS and FSK) that support critical infrastructure monitoring applications are provided in this amendment to IEEE Std 802.15.4TM-2011. In addition, only those MAC modifications needed to support the... | |
| WirelessMAN-OFDMA TDD operation in exclusively licensed spectrum with channel bandwidth from 100 kHz up to 1.25 MHz, including 1 MHz explicitly, is specified. This amendment targets operation in the 700... |
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