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IETF RFC 5692 - TRANSMISSION OF IP OVER ETHERNET OVER IEEE 802.16 NETWORKS Organization: IETF
Date: 2009-10-01
Description: This document describes the transmission of IPv4 over Ethernet, as well as IPv6 over Ethernet, in an access network deploying the IEEE 802.16 cellular radio transmission technology.
MCGRAW - ETHERNET IN THE FIRST MIL - ETHERNET IN THE FIRST MILE: THE IEEE 802.3AH EFM STANDARD Organization: MCGRAW
Date: 2005-01-01
Description: IEEE standard 802.3, Ethernet in the First Mile (EFM), approved this July, standardizes broadband Ethernet, allowing service providers to focus on providing critical broadband services without worrying about interoperability conflicts.
IEEE - IEEE P1904.1 DRAFT - DRAFT IEEE STANDARD FOR SERVICE INTEROPERABILITY IN ETHERNET PASSIVE OPTICAL NETWORKS (SIEPON) Organization: IEEE
Date: 2016-12-01
Description: The specifications complement the existing IEEE 802.3™ and IEEE 802.1™ standards, which enable the interoperability at the Physical Layer and Data Link Layer.1 Specifically included in this specification are - EPON system-level interoperability specifications covering equipment functionality, traffic engineering, and service-level quality of service/class of service (QoS/CoS) mechanisms; - Management specifications covering equipment management, service management, and power utilization.
IEC/TR 62652 - EFFECTS OF ENGAGING AND SEPARATING UNDER ELECTRICAL LOAD ON CONNECTOR INTERFACES IN CABLING USED TO SUPPORT IEEE 802.3AF (POWER-OVER-ETHERNET) APPLICATIONS - EDITION 1.0 Organization: IEC
Date: 2010-03-01
Description: This Technical Report is intended to provide information on the effects of engaging and separating under electrical load on the connector interfaces in cabling, used to support IEEE 802.3af (Power-over-Ethernet (PoE)) applications.
DS/IEC/TR 62652 - EFFECTS OF ENGAGING AND SEPARATING UNDER ELECTRICAL LOAD ON CONNECTOR INTERFACES IN CABLING USED TO SUPPORT IEEE 802.3AF (POWER-OVER-ETHERNET) APPLICATIONS Organization: DS
Date: 2010-05-18
Description: This technical report is intended to provide information on the effects of engaging and separating under electrical load on the connector interfaces in cabling used to support IEEE 802.af (Power-over-Ethernet (PoE)) applications. The ISO/IEC/JTC1/SC25 sub-committee requested IEC SC48B to prepare an engaging and separating under electrical load test method to be referenced in their standards.
DSF/IEC 62652 TR ED. 1.0 - EFFECTS OF ENGAGING AND SEPARATING UNDER ELECTRICAL LOAD ON CONNECTOR INTERFACES IN CABLING USED TO SUPPORT IEEE 802.AF (POWER-OVER-ETHERNET) APPLICATIONS Organization: DS
Description: This technical report is intended to provide information on the effects of engaging and separating under electrical load on the connector interfaces in cabling used to support IEEE 802.af (Power-over-Ethernet (PoE)) applications. The ISO/IEC/JTC1/SC25 sub-committee requested IEC SC48B to prepare an engaging and separating under electrical load test method to be referenced in their standards.
SAI - SAA TS 021.1 - GENERAL REQUIREMENTS FOR CUSTOMER EQUIPMENT CONNECTED TO A PUBLIC FAST PACKET SWITCHED NETWORK - VOL. 1: IEEE 802.3/ETHERNET CUSTOMER EQUIPMENT INTERFACE Organization: SAI
SAE AS6802 - TIME-TRIGGERED ETHERNET Organization: SAE
Date: 2011-11-01
Description: These are named rate-constrained (compatible with the ARINC 664-p7 concept) and standard Ethernet (IEEE 802.3) traffic. However, a communication infrastructure that implements the timetriggered services specified in this standard document may use the non-time-triggered bandwidth for any protocol only as long as the impact of the non-time-triggered traffic on the time-triggered traffic is bounded to an application-specified degree.
IETF RFC 2855 - DHCP FOR IEEE 1394 Organization: IETF
Date: 2000-06-01
Description: Since 1394 uses a different link-layer addressing method than conventional IEEE802/Ethernet, the usage of some fields must be clarified to achieve interoperability.
DS/IEC/PAS 62408 CD-ROM - REAL-TIME ETHERNET POWERLINK (EPL) Organization: DS
Date: 2005-07-15
Description: It does not change basic principles of the Fast Ethernet Standard IEEE 802.3 but extends it towards RTE. Thus it is possible to leverage and continue to use any standard Ethernet silicon, infrastructure component or test and measurement equipment like a netwrk analyzer.
ARINC 646 - ETHERNET LOCAL AREA NETWORK (ELAN) Organization: ARINC
Date: 1995-12-15
Description: Purpose: The purpose of this document is to provide general and specific design and implementation guidelines for the use of IEEE 802.3 (ISO/IEC 8802-3) compliant Ethernet Local Area Networks (ELAN) in the commercial avionics environment.
ATIS 0600427.02 - ETHERNET-BASED MULTI-PAIR BONDING Organization: ATIS
Date: 2005-01-01
Description: b. To provide 100 Mb/s burst data rate at the Ethernet media independent interface using Rate Matching.
ITU-T Y.2113 - ETHERNET QOS CONTROL FOR NEXT GENERATION NETWORKS - STUDY GROUP 13 Organization: ITU-T
Date: 2009-01-01
Description: In the data link layer, data link features and interfaces defined in [b-IEEE 802.3] will not be altered. As considered in this Recommendation, the Ethernet network encompasses not only the customer's local network but also the operator's access and core networks, which are assumed to employ Ethernet technology.
ITU-T G.8012.1 - INTERFACES FOR THE ETHERNET TRANSPORT NETWORK - STUDY GROUP 15 Organization: ITU-T
Date: 2012-12-01
Description: The Ethernet UNI is formed by an Ethernet interface and the Ethernet NNI by an Ethernet interface or an Ethernet over Transport interface. The Ethernet over Transport NNI uses various server layer networks like optical transport hierarchy (OTH) and SDH.
IEEE - IEEE 802.3.1 - MANAGEMENT INFORMATION BASE (MIB) DEFINITIONS FOR ETHERNET - IEEE COMPUTER SOCIETY Organization: IEEE
Date: 2013-06-14
Description: 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 specifications formerly produced and published by the Internet Engineering Task Force (IETF), and the managed object branch and leaf assignments provided in the Guidelines for the Definition of Managed Objects (GDMO) MIB modules formerly specified within IEEE Std 802.3, as well as extensions resulting from recent amendments to IEEE Std 802.3.
DS/IEC/PAS 62407 - REAL-TIME ETHERNET CONTROL AUTOMATION TECHNOLOGY (ETHERCAT) Organization: DS
Date: 2005-09-19
Description: EtherCAT is a real-time Ethernet technology especially suitable for communication between control systems and perpheral devices like I/O systems, drives, sensors and actuators.
ITU-T G.9801 - ETHERNET PASSIVE OPTICAL NETWORKS USING OMCI - STUDY GROUP 15 Organization: ITU-T
Date: 2013-08-01
Description: The Ethernet passive optical network (EPON) system is a general name for PON systems that are based on the IEEE 802.3 standard and the IEEE 1904.1 standard. This Recommendation focuses on EPON systems that apply the ONU management and control interface (OMCI) defined by [ITU-T G.988] to create an effective PON operation system.
IETF RFC 4837 - MANAGED OBJECTS OF ETHERNET PASSIVE OPTICAL NETWORKS (EPON) Organization: IETF
Date: 2007-07-01
Description: In particular, it defines objects for managing interfaces that conform to the Ethernet Passive Optical Networks (EPON) standard as defined in the IEEE Std 802.3ah-2004, which are extended capabilities to the Ethernet like interfaces.
ITU-T G.8021.1 - TYPES AND CHARACTERISTICS OF ETHERNET TRANSPORT NETWORK EQUIPMENT - STUDY GROUP 15 Organization: ITU-T
Date: 2012-10-01
Description: This Recommendation provides an overview of the functions of Ethernet equipment and gives examples of various Ethernet equipment types. The Recommendation is based on the Ethernet transport network architecture specified in [ITU-T G.8010], the bridge types specified in [IEEE 802.1Q], and equipment functional blocks specified in [ITU-T G.8021].
NEMA - NTCIP 2104 - NATIONAL TRANSPORTATION COMMUNICATIONS FOR ITS PROTOCOL - ETHERNET SUBNETWORK PROFILE - V01.11 Organization: NEMA
Date: 2003-01-01
Description: Networks based upon this technique are often, but mistakenly, referred to as Ethernet-based Networks. This standard deals with IEEE 802 Networks that have additional functionality.

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