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• Internet Protocol
  The '''Internet Protocol''' (IP) is the highly resilient [[protocol (computer)|protocol]] for messag ...mon aspects of designing a protocol for the internetworking layer of the [[Internet Protocol Suite]].
  26 KB (4,062 words) - 15:00, 20 March 2024
• Internet Protocol/Definition
  439 bytes (64 words) - 08:19, 25 April 2023
• Internet protocol suite
  #REDIRECT [[Internet Protocol Suite]]
  37 bytes (4 words) - 19:24, 31 July 2008
• Flow (Internet Protocol)
  While the [[Internet Protocol]] is [[connectionless]], capacity planning of networks needs an understandi [[Internet Protocol flow information export]] is the general term for methods to collect and re
  2 KB (365 words) - 20:36, 16 May 2009
• Voice over Internet Protocol
  ...s carrying voice telephony not over dedicated telephony networks, but over Internet Protocol networks that handle both voice and data. In practice, VoIP also refers to
  6 KB (935 words) - 16:24, 30 March 2024
• Internet Protocol Suite
  The '''Internet Protocol Suite (IPS)''' is a loose description of the set of protocol (computer)|pro ...to try to “coerce” (using the lovely word choice of Priscilla Oppenheimer) Internet Protocol Suite protocols into OSI layers.
  16 KB (2,394 words) - 07:30, 18 March 2024
• Internet Protocol/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol version 4}}
  407 bytes (47 words) - 06:31, 17 March 2024
• Internet Protocol security architecture
  ...4 and Internet Protocol version 6 can run more securely if features of the Internet Protocol security architecture (IPSec)<ref name=RFC4301>{{citation | title = Security Architecture for the Internet Protocol
  5 KB (761 words) - 16:22, 30 March 2024
• Internet Protocol version 4
  ...data transfer of the Internet since 1980. It will gradually be replaced by Internet Protocol version 6 ('''IPv6'''). In the Internet Protocol Suite architecture, all traffic is broken up into IP packets, which are the
  9 KB (1,543 words) - 16:22, 30 March 2024
• Internet Protocol version 6
  '''Internet Protocol version 6''' (or as it is more commonly known "IPv6") is a method of addres ...ng|IPv6 multihoming]] are in this article, but might well split out to an "Internet Protocol version 6 operations" article that deal with operational issues not related
  39 KB (5,823 words) - 12:18, 30 March 2024
• Internet Protocol Version 6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:05, 6 May 2008
• Internet protocol version 6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:05, 6 May 2008
• Flow (Internet Protocol)/Definition
  An association of a source Internet protocol address and one or more destinations, in a given direction of transmission
  155 bytes (22 words) - 20:35, 16 May 2009
• Internet Protocol Suite/Related Articles
  234 bytes (26 words) - 20:58, 13 July 2008
• Internet Protocol Suite/External Links
  255 bytes (40 words) - 21:15, 12 February 2010
• Internet Protocol version 6 laboratory
  {{main|Internet Protocol version 6}} {{seealso|Internet Protocol version 6 deployment}}
  9 KB (1,526 words) - 20:04, 25 March 2011
• Internet Protocol version 6/Approval
  12 bytes (1 word) - 03:40, 4 May 2008
• Internet Protocol version 6/Definition
  The next-generation Internet Protocol, providing (among other benefits) a vastly increased address space (128bits
  277 bytes (37 words) - 19:14, 1 August 2008
• Voice over Internet Protocol/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Voice over Internet Protocol]]. Needs checking by a human.
  847 bytes (104 words) - 21:34, 11 January 2010
• Internet Protocol flow information export
  ...on export''' is the general term for methods to collect and report [[flow (Internet Protocol)]] statistics.<ref name=RFC3917>{{citation *Internet Protocol Detail Record (IPDR)<ref name=IPDR>{{citation
  2 KB (315 words) - 21:33, 22 February 2009
• Internet Protocol version 6 deployment
  ...how IPv6 works in order to understand an explanation of deploying it; see Internet Protocol version 6. Not every detail is relevant, but some of the more critical aspe ...software and hardware documentation will remain authoritative. The article Internet Protocol version 6 laboratory suggests a framework that could be used for familiariz
  22 KB (3,300 words) - 16:21, 30 March 2024
• Flow (Internet Protocol)/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Flow (Internet Protocol)]]. Needs checking by a human. {{r|Internet Protocol flow information export}}
  498 bytes (63 words) - 16:35, 11 January 2010
• Internet Protocol security architecture/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol security architecture]]. Needs checking by a human. {{r|Internet Protocol version 6}}
  500 bytes (62 words) - 17:30, 11 January 2010
• Internet Protocol version 4/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol version 6}}
  589 bytes (74 words) - 06:31, 17 March 2024
• Internet Protocol version 6/External Links
  2 KB (284 words) - 08:37, 8 August 2008
• Internet Protocol version 6 laboratory/Definition
  An example of a testing and learning facility for familiarization with [[Internet Protocol version 6]]
  138 bytes (17 words) - 19:12, 24 September 2008
• Internet Protocol version 6/Related Articles
  {{r|Internet Protocol}} {{r|Internet Protocol Suite}}
  633 bytes (72 words) - 06:31, 17 March 2024
• Security architecture for the Internet Protocol
  19 bytes (2 words) - 04:49, 14 April 2011
• Internet Protocol flow information export/Definition
  Methods to collect and report [[flow (Internet Protocol)]] statistics for network operations and management; tends to focus on traf
  286 bytes (37 words) - 10:15, 12 June 2009
• Internet Protocol version 6 address management
  This article deals with the process of '''obtaining and managing Internet Protocol version 6 (IPv6) address space.''' The size and other characteristics of th ...rts IPv6 address assignment, but, in addition, IPv6 has another mechanism, Internet Protocol version 6 Stateless Address Autoconfiguration (SLAAC), in which there is no
  6 KB (982 words) - 07:30, 18 March 2024
• Internet Protocol flow information export/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol flow information export]]. Needs checking by a human. {{r|Flow (Internet Protocol)}}
  498 bytes (63 words) - 17:30, 11 January 2010
• Internet Protocol version 6 deployment/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol version 6 deployment]]. Needs checking by a human. {{r|Internet Protocol version 6 address management}}
  645 bytes (81 words) - 17:30, 11 January 2010
• Internet Protocol version 6 laboratory/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol version 6 laboratory]]. Needs checking by a human. {{r|Internet Protocol version 6 deployment}}
  605 bytes (77 words) - 17:30, 11 January 2010
• Internet Protocol version 6 deployment/External Links
  276 bytes (40 words) - 06:21, 6 October 2008
• Internet Protocol version 6 address management/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol version 6 address management]]. Needs checking by a human. {{r|Internet Protocol version 6 deployment}}
  640 bytes (81 words) - 06:31, 17 March 2024
• Problems of address exhaustion and collision with Internet Protocol
  There are a set of '''Problems of address exhaustion and collision with Internet Protocol'''. The problems are not restricted to IPv4 and not IPv6; the problems are In the [[Internet Protocol version 6]] work, there is a block called "site local" (SLA), whose purpose
  3 KB (547 words) - 05:36, 31 May 2009
• Problems of address exhaustion and collision with Internet Protocol/Definition
  ...the Internet runs out of [[Internet Protocol version 4]] addresses, yet [[Internet Protocol version 6]] is not quite ready for prime time
  214 bytes (30 words) - 11:10, 27 August 2008

Page text matches

• Internet Protocol version 4/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol version 6}}
  589 bytes (74 words) - 06:31, 17 March 2024
• Internet Protocol/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol version 4}}
  407 bytes (47 words) - 06:31, 17 March 2024
• Internet/Related Articles
  {{r|Internet Protocol}} {{r|Internet Protocol Suite}}
  761 bytes (100 words) - 09:48, 22 October 2010
• Internet Protocol version 6/Related Articles
  {{r|Internet Protocol}} {{r|Internet Protocol Suite}}
  633 bytes (72 words) - 06:31, 17 March 2024
• Internet Service Provider/Definition
  ...vers, and the public [[Internet]] using [[Internet Protocol version 4]], [[Internet Protocol version 6]], or both.
  287 bytes (35 words) - 14:31, 14 July 2008
• Open Shortest Path First for IPv6/Definition
  ...ol, principally to let it carry both [[Internet Protocol version 4]] and [[Internet Protocol version 6]] information, but also to integrate various incremental enhancem
  292 bytes (38 words) - 21:48, 19 October 2008
• Problems of address exhaustion and collision with Internet Protocol/Definition
  ...the Internet runs out of [[Internet Protocol version 4]] addresses, yet [[Internet Protocol version 6]] is not quite ready for prime time
  214 bytes (30 words) - 11:10, 27 August 2008
• CIDR notation/Definition
  ...sses, introduced for [[Internet Protocol version 4]] but also adapted to [[Internet Protocol version 6]], in which addresses are written in the form <code>address/lengt
  362 bytes (51 words) - 10:58, 8 August 2010
• Reverse mapping/Definition
  ..., that function which takes an [[Internet Protocol version 4]] (IPv4) or [[Internet Protocol version 6]] '''address''' and returns the corresponding '''name'''
  225 bytes (27 words) - 11:01, 1 September 2008
• User Datagram Protocol/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol version 4}}
  385 bytes (43 words) - 00:44, 20 July 2008
• Internet Protocol version 6 address management/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol version 6 address management]]. Needs checking by a human. {{r|Internet Protocol version 6 deployment}}
  640 bytes (81 words) - 06:31, 17 March 2024
• Internet Protocol version 6 deployment/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol version 6 deployment]]. Needs checking by a human. {{r|Internet Protocol version 6 address management}}
  645 bytes (81 words) - 17:30, 11 January 2010
• Simple Mail Transfer Protocol/Related Articles
  {{r|Internet Protocol Suite}}
  561 bytes (72 words) - 14:22, 19 July 2008
• Dynamic Host Configuration Protocol/Related Articles
  {{r|Internet Protocol version 4}} {{r|Internet Protocol version 6 address management}}
  709 bytes (90 words) - 16:07, 11 January 2010
• Stub network/Definition
  ...etworks; the concept applies to both [[Internet Protocol version 4]] and [[Internet Protocol version 6]]
  225 bytes (34 words) - 19:21, 10 January 2010
• File Transfer Protocol/Definition
  ...[client-server]] protocol used to transfer files between two nodes on an [[Internet Protocol]] network
  148 bytes (19 words) - 19:03, 13 July 2008
• Syslog/Related Articles
  {{r|Flow (Internet Protocol)}} {{r|Internet Protocol flow information export}}
  638 bytes (80 words) - 20:46, 11 January 2010
• Protocol (computer)/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol version 4}}
  2 KB (248 words) - 05:56, 17 March 2024
• Internet Service Provider/Related Articles
  {{r|Internet Protocol version 4}} {{r|Internet Protocol version 6}}
  350 bytes (43 words) - 14:59, 20 March 2024
• Multi-Protocol Label Switching/Related Articles
  {{r|Flow (Internet Protocol)}} {{r|Internet Protocol Suite}}
  924 bytes (116 words) - 18:42, 11 January 2010
• Open Shortest Path First traffic engineering extensions/Definition
  A set of extensions to the [[OSPF]] version 2 (i.e., for [[Internet Protocol version 4]]) routing protocol, intended to provide information for route co
  332 bytes (42 words) - 10:59, 7 September 2008
• Internet Engineering Task Force/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol flow information export}}
  1 KB (167 words) - 14:59, 20 March 2024
• Thread (network protocol)/Definition
  ...tocol developed by a consortium of competing smart home companies, using [[Internet Protocol|IP]] version 6 over an [[IEEE 802.15.4]] wireless network (on the 2.4 GHz s
  314 bytes (43 words) - 07:40, 21 April 2023
• Open Shortest Path First/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol version 4}}
  907 bytes (117 words) - 14:59, 20 March 2024
• Transmission Control Protocol/Related Articles
  {{r|Internet Protocol version 4}} {{r|Internet Protocol version 6}}
  361 bytes (42 words) - 23:40, 13 September 2008
• Real-Time Protocol
  In the [[Internet Protocol Suite]], the '''Real-Time Protocol''' is a unidirectional end-to-end transp
  931 bytes (125 words) - 14:40, 16 January 2010
• Internet Control Message Protocol for IP version 6/Related Articles
  {{r|Internet Protocol version 6}} {{r|Internet Protocol version 6 neighbor discovery}}
  214 bytes (23 words) - 13:52, 25 January 2009
• Computer networking reference models/Related Articles
  {{r|Internet Protocol Suite}} {{r|Internet Protocol version 4}}
  680 bytes (84 words) - 19:33, 31 July 2008
• Multihoming/Related Articles
  {{r|Internet Protocol version 6 deployment}} {{r|Internet Protocol version 6}}
  802 bytes (100 words) - 14:59, 20 March 2024
• Telnet (protocol)/Definition
  ...eiving individual characters over [[Transmission Control Protocol]] over [[Internet Protocol]] (TCP/IP), and still widely in use for remote system and device administra
  239 bytes (31 words) - 23:18, 29 September 2008
• Internet operations/Definition
  ...ngineering and computing discipline of implementing and operating large, [[Internet Protocol]] (IP) based [[routing|routed]] networks such as the public [[Internet]] an
  456 bytes (60 words) - 16:03, 10 June 2010
• Internet Protocol version 6 laboratory/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol version 6 laboratory]]. Needs checking by a human. {{r|Internet Protocol version 6 deployment}}
  605 bytes (77 words) - 17:30, 11 January 2010
• Internet protocol suite
  #REDIRECT [[Internet Protocol Suite]]
  37 bytes (4 words) - 19:24, 31 July 2008
• Voip
  #REDIRECT [[Voice over Internet Protocol]]
  42 bytes (5 words) - 21:46, 1 March 2010
• Internet Corporation for Assigned Names and Numbers/Definition
  ...ernational organization that directing the [[Domain Name System]] (DNS), [[Internet Protocol]] addresses, and other technical identifiers that must be unique for the pr
  265 bytes (36 words) - 23:16, 29 September 2020
• IP6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:04, 6 May 2008
• IP-v6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:04, 6 May 2008
• IP-V6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:04, 6 May 2008
• IPSec
  #REDIRECT [[Internet Protocol security architecture]]
  53 bytes (5 words) - 14:10, 3 September 2008
• IP-6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:05, 6 May 2008
• Internet Protocol Version 6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:05, 6 May 2008
• Internet protocol version 6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:05, 6 May 2008
• Ipv6
  #REDIRECT [[Internet Protocol version 6]]
  41 bytes (4 words) - 18:08, 25 March 2011
• Ipv4
  #Redirect [[Internet Protocol version 4]]
  41 bytes (4 words) - 13:49, 7 August 2008
• IPv6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:03, 6 May 2008
• IPv4
  #Redirect [[Internet Protocol version 4]]
  41 bytes (4 words) - 14:04, 7 August 2008
• IPV6
  #Redirect [[Internet Protocol version 6]]
  41 bytes (4 words) - 19:03, 6 May 2008
• IP version 6
  #REDIRECT [[Internet Protocol version 6]]
  41 bytes (4 words) - 09:38, 3 September 2008
• American Registry for Internet Numbers/Definition
  The regional Internet address registry for North America, providing [[Internet Protocol]] address allocations to large organizations, as well as [[Autonomous Syste
  264 bytes (33 words) - 06:27, 17 March 2024
• End-to-end protocols/Internet
  ...al end-to-end data transfer [[protocol (computer)|protocols]] run in the [[Internet Protocol Suite]]:
  837 bytes (108 words) - 14:33, 16 January 2010
• IPv6 deployment
  #REDIRECT [[Internet Protocol version 6 deployment]]
  52 bytes (5 words) - 17:38, 30 August 2008
• IPv6 lab
  #REDIRECT [[Internet Protocol version 6 laboratory]]
  52 bytes (5 words) - 19:13, 24 September 2008
• IPv6 address management
  #REDIRECT [[Internet Protocol version 6 address management]]
  60 bytes (6 words) - 16:19, 25 September 2008
• Locality of networks/Related Articles
  {{r|Internet Protocol version 6}} {{r|Internet Protocol}}
  1 KB (165 words) - 05:56, 17 March 2024
• Frame relay/Related Articles
  {{r|Internet Protocol version 6 deployment}} {{r|Internet Protocol}}
  663 bytes (84 words) - 16:38, 11 January 2010
• Protocol (computer)
  ...protocols used in [[computer networking reference models]], such as the [[Internet Protocol Suite]] or [[Open Systems Interconnection Reference Model]].
  737 bytes (104 words) - 05:43, 17 March 2024
• Internet Protocol version 6/Definition
  The next-generation Internet Protocol, providing (among other benefits) a vastly increased address space (128bits
  277 bytes (37 words) - 19:14, 1 August 2008
• Resource Reservation Protocol/Definition
  ....e., signaling) protocol]] used to reserve bandwidth from one edge of an [[Internet Protocol]] network to the other edge
  203 bytes (28 words) - 13:50, 15 August 2008
• Internet Protocol flow information export/Definition
  Methods to collect and report [[flow (Internet Protocol)]] statistics for network operations and management; tends to focus on traf
  286 bytes (37 words) - 10:15, 12 June 2009
• Separation of concerns
  Separation of concerns is crucial to the design of the Internet. In the Internet Protocol Suite great efforts have been made to separate concerns into well-defined l
  1 KB (218 words) - 12:34, 28 August 2009
• NCP (disambiguation)
  ...of the [[ARPANET]], replaced by [[Transmission Control Protocol]] in the [[Internet Protocol Suite]]
  424 bytes (52 words) - 12:20, 31 May 2009
• Internet Protocol version 6 laboratory/Definition
  An example of a testing and learning facility for familiarization with [[Internet Protocol version 6]]
  138 bytes (17 words) - 19:12, 24 September 2008
• File Transfer Protocol
  ...ocol specification for the transferring of files between two nodes on an [[Internet Protocol]] network, independent of the [[operating system]].
  985 bytes (152 words) - 13:33, 17 April 2010
• Voice Over IP/Definition
  A form of packetized, digital telephony that uses the Internet Protocol (IP) as its transport mechanism.
  140 bytes (19 words) - 11:07, 18 December 2009
• Trivial File Transfer Protocol/Related Articles
  {{r|Internet Protocol version 6}}
  565 bytes (72 words) - 21:06, 11 January 2010
• Computer networking end-to-end protocols/Related Articles
  {{r|Internet Protocol}} {{r|Voice over Internet Protocol}}
  642 bytes (79 words) - 15:37, 11 January 2010
• Simple Network Management Protocol/Definition
  The protocol used, in the [[Internet Protocol Suite]], to read and write management information into managed objects, and
  341 bytes (48 words) - 10:29, 25 September 2008
• Internet Protocol flow information export
  ...on export''' is the general term for methods to collect and report [[flow (Internet Protocol)]] statistics.<ref name=RFC3917>{{citation *Internet Protocol Detail Record (IPDR)<ref name=IPDR>{{citation
  2 KB (315 words) - 21:33, 22 February 2009
• Internet Protocol security architecture/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol security architecture]]. Needs checking by a human. {{r|Internet Protocol version 6}}
  500 bytes (62 words) - 17:30, 11 January 2010
• Internet Protocol flow information export/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Internet Protocol flow information export]]. Needs checking by a human. {{r|Flow (Internet Protocol)}}
  498 bytes (63 words) - 17:30, 11 January 2010
• Flow (Internet Protocol)/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Flow (Internet Protocol)]]. Needs checking by a human. {{r|Internet Protocol flow information export}}
  498 bytes (63 words) - 16:35, 11 January 2010
• Intermediate System-Intermediate System
  ...ally, the version used in the Internet, to carry routing information about Internet Protocol version 4 addresses, is '''Integrated IS-IS''', as ISIS was originally deve
  2 KB (257 words) - 16:21, 30 March 2024
• Facsimile/Definition
  ...ng copies of paper documents, over conventional telephone networks or over Internet protocol
  144 bytes (19 words) - 17:01, 22 July 2008
• Classless Inter-Domain Routing/Definition
  ...trative and technical measures dealing with the procedures for assigning [[Internet Protocol version 4]] (IPv4) space.
  170 bytes (21 words) - 18:55, 23 January 2010
• Neighbor Discovery/Related Articles
  {{r|Internet Protocol version 6}}
  550 bytes (69 words) - 18:56, 11 January 2010
• American Registry for Internet Numbers/Related Articles
  {{r|Internet Protocol}}
  360 bytes (43 words) - 14:59, 20 March 2024
• Routing protocol/Related Articles
  {{r|Internet Protocol}}
  842 bytes (109 words) - 14:59, 20 March 2024
• Lightweight Directory Access Protocol
  ...Directory Access Protocol''' (LDAP), currently in Version 3 (LDAPv3) is an Internet protocol for accessing distributed directory services that act in accordance with X
  960 bytes (112 words) - 12:34, 12 February 2009
• Resource Reservation Protocol
  ...he many technologies to provide a guaranteed [[quality of service]] over [[Internet Protocol]] networks,<ref name=ISI-RSVP>{{citation ...ntee quality of service for a bidirectional session such as a [[Voice over Internet Protocol]] call, RSVP reservations need to be confirmed in both directions.
  2 KB (257 words) - 13:50, 15 August 2008
• IEEE/Related Articles
  {{rpl|Internet Protocol Suite}} {{rpl|Internet Protocol version 6}}
  727 bytes (87 words) - 10:38, 25 April 2023
• Data link protocol/Related Articles
  {{r|Internet Protocol version 4}}
  530 bytes (69 words) - 15:51, 11 January 2010
• Computer network/Related Articles
  {{r|Internet protocol suite}}
  932 bytes (116 words) - 11:20, 9 December 2009
• Virtual private network/Related Articles
  {{r|Internet Protocol version 6 laboratory}} {{r|Internet Protocol}}
  1 KB (141 words) - 14:59, 20 March 2024
• Flow (Internet Protocol)/Definition
  An association of a source Internet protocol address and one or more destinations, in a given direction of transmission
  155 bytes (22 words) - 20:35, 16 May 2009
• Router/Definition
  ...t switching|packets]] based on information in their header; typically an [[Internet Protocol]] header
  199 bytes (24 words) - 22:44, 1 October 2009
• Internet/Definition
  ...ional "network of networks" that connects computers together through the [[Internet Protocol Suite]] and supports applications like [[Email]] and the [[World Wide Web]]
  213 bytes (26 words) - 06:36, 23 November 2009
• Network medium/Related Articles
  {{r|Internet Protocol version 4}} {{r|Internet Protocol version 6 laboratory}}
  1,016 bytes (127 words) - 05:56, 17 March 2024
• Real-Time Protocol/Definition
  An [[Internet Protocol Suite]] mechanism suitable for the best-effort, end-to-end transfer of unid
  205 bytes (24 words) - 14:42, 16 January 2010
• Domain Name System security/Related Articles
  {{r|Internet Protocol version 6 address management}} {{r|Internet Protocol version 6 deployment}}
  685 bytes (89 words) - 16:02, 11 January 2010
• Happy Eyeballs/Definition
  ...Web applications to select, and subsequently prefer, connectivity by the [[Internet Protocol]] version (i.e., [[IPv4]] or [[IPv6]]) that will give the best performance
  221 bytes (30 words) - 17:56, 25 March 2011
• Reverse mapping
  ...s the function that, when given an [[Internet Protocol version 4]] or an [[Internet Protocol version 6]] address, returns an associated '''domain name'''.
  757 bytes (110 words) - 06:27, 17 March 2024
• Request for Comments/Related Articles
  {{r|Internet Protocol Suite}}
  262 bytes (38 words) - 21:53, 30 June 2009
• Medium access control/Related Articles
  {{r|Internet Protocol version 6 laboratory}} {{r|Internet Protocol}}
  829 bytes (102 words) - 05:56, 17 March 2024
• Information assurance/Related Articles
  {{r|Internet Protocol security architecture‎}}
  356 bytes (42 words) - 10:42, 3 September 2008
• Error control/Related Articles
  {{r|Internet Protocol version 4}}
  626 bytes (79 words) - 16:23, 11 January 2010
• CZ Talk:Wishlist/Establish Relationship with External Organization/Internet sub-group description
  I have modified the description of the Internet protocol architecture so it now conforms with RFC 1122 and RFC 1812. This change rem
  376 bytes (53 words) - 10:10, 17 September 2009
• Local versus remote assumption
  ...s remote assumption''', which means if a destination host is in the same [[Internet Protocol version 4]] subnet as the host that wants to send to that destination,
  1,016 bytes (160 words) - 16:10, 7 February 2009
• IP address
  An '''IP address''' is an exact designation of location, used by the [[Internet Protocol]]. IP addresses look like the following:
  985 bytes (141 words) - 21:29, 10 March 2009
• Resource Reservation Protocol/Related Articles
  {{r|Voice over Internet Protocol}}
  662 bytes (82 words) - 20:00, 11 January 2010
• Convergence of communications
  ...all run over) a common infrastructure using Internet Protocol version 4 or Internet Protocol version 6. ...transmitted over standard interfaces to information delivery systems using Internet Protocol, Session Initiation Protocol, and similar protocols and interfaces.<ref nam
  3 KB (351 words) - 04:39, 5 April 2024
• Trivial File Transfer Protocol
  ...''' is an extremely low-overhead [[protocol (computer)|protocol]] of the [[Internet Protocol Suite]] (IPS). It is intended to have the absolute minimum of functionality UDP runs over [[Internet Protocol]], which runs over the protocols specific to the actual network interconnec
  3 KB (431 words) - 15:32, 23 August 2008
• Simple Mail Transfer Protocol/Definition
  In the [[Internet Protocol Suite]], SMTP is the basic method for transferring the "envelopes" of elect
  243 bytes (33 words) - 15:30, 25 November 2008
• Internet Corporation for Assigned Names and Numbers/Related Articles
  {{r|Internet Protocol}}
  374 bytes (42 words) - 06:31, 17 March 2024
• Physical layer protocol/Related Articles
  {{r|Internet Protocol}}
  469 bytes (60 words) - 19:32, 11 January 2010
• Voice over Internet Protocol/Related Articles
  Auto-populated based on [[Special:WhatLinksHere/Voice over Internet Protocol]]. Needs checking by a human.
  847 bytes (104 words) - 21:34, 11 January 2010
• Flow (Internet Protocol)
  While the [[Internet Protocol]] is [[connectionless]], capacity planning of networks needs an understandi [[Internet Protocol flow information export]] is the general term for methods to collect and re
  2 KB (365 words) - 20:36, 16 May 2009
• Thread (network protocol)/Related Articles
  {{rpl|Internet Protocol}}
  373 bytes (55 words) - 08:03, 25 April 2023
• Datagram
  [[Internet Protocol version 4]] and [[Internet Protocol version 6]] packets are datagrams.
  1 KB (217 words) - 15:19, 28 September 2008
• Matter (standard)
  ...f the [[Thread (network protocol)|Thread]] network protocol and also the [[Internet Protocol]] (IP). The standard's code and documentation are published under the Apac
  2 KB (319 words) - 19:56, 19 June 2023
• BitTorrent/Related Articles
  {{r|Internet protocol}}
  971 bytes (153 words) - 10:32, 17 April 2010
• Global Broadcast Service/Definition
  ...riginally from [[MQ-1 Predator]] unmanned aerial vehicles in Bosnia), over Internet Protocol, from a small number of geographic and theater uplinks to several hundred r
  341 bytes (47 words) - 13:16, 4 February 2009
• KIV-7
  ...on]] (HAIPE IS), the core interoperability specification as NSA moves to [[Internet Protocol]]-based [[routing|routed]] communications.
  1 KB (139 words) - 15:21, 3 December 2009
• Network architecture/Related Articles
  {{r|Internet Protocol Suite||***}}
  560 bytes (71 words) - 10:03, 20 September 2009
• Network address translator
  ...ideal solutions for many of their uses, and one of the design goals for [[Internet Protocol version 6]] was to do away with the need for a NAT function. Deployment exp ...a variety of operational challenges, and one of the goals in developing [[Internet Protocol version 6]] was to do away with the need for NAT service.
  3 KB (507 words) - 20:02, 15 June 2010
• Public Switched Telephone Network/Related Articles
  {{r|Voice over Internet Protocol}}
  1 KB (148 words) - 19:48, 11 January 2010
• Internet operations
  ...efers to the technical management of large, multi-user networks based on [[Internet Protocol]] (IP) [[routing]], not operators of individual computers.
  3 KB (368 words) - 15:00, 20 March 2024
• Remote Direct Memory Access over Converged Ethernet/Definition
  ...of the physical and data link layers of [[IEEE 802.3]], but replaces the [[Internet Protocol Suite|TCP/IP]] end-to-end and routing protocols with their InfiniBand equiv
  323 bytes (41 words) - 14:52, 28 July 2010
• Computer networking session protocols/Related Articles
  {{r|Voice over Internet Protocol}}
  544 bytes (68 words) - 15:37, 11 January 2010
• Simple Network Management Protocol
  ...undamental [[network management]] [[protocol (computer)|protoco]] of the [[Internet Protocol Suite]]. SNMP itself is indeed quite simple; the complexity of real-world s
  2 KB (241 words) - 10:26, 25 September 2008
• Internet Service Provider
  ...er''' manages connectivity using [[Internet Protocol version 4]] (IPv4), [[Internet Protocol version 6]] (IPv6), or both. It creates connectivity, as defined by the ter
  3 KB (456 words) - 15:00, 20 March 2024
• Happy Eyeballs/Related Articles
  {{r|Internet Protocol version 6}}
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• Internet Corporation for Assigned Names and Numbers
  ...y of networks]]), such as [[Internet Protocol version 4]] (IPv4) and now [[Internet Protocol version 6]] (IPv6) '''addresses''', '''names''' in the [[Domain Name Servic
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• Network reconnaissance
  ...zations to see if they are using all their space, a scarce resource with [[Internet Protocol version 4]].
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• Session border controller/Definition
  ...s for sessions of applications such as multimedia services or [[Voice over Internet Protocol]], to provide security services including [[firewall]] and [[encryption gat
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• Classless Inter-Domain Routing
  ...been planned for such growth. It dealt with the procedures for assigning [[Internet Protocol version 4]] (IPv4) space, working around the limitations of [[routing]] tec ===Original Internet Protocol addressing===
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• Asynchronous Transfer Mode/Related Articles
  {{r|Internet Protocol}}
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• Telnet
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• Routing
  ...6]], the most basic principle of routing is "longest prefix match." Every Internet Protocol address has a certain number of bits, from the left, which form its '''pref
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• Intranet/Related Articles
  {{r|Internet Protocol}}
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• Point-to-Point Protocol
  ...oint-to-point topologies. While the capability is much less needed in an [[Internet Protocol]]-centric world, it can also set up connetions for non-IP protocols, such a PPP has an extension, the PPP Internet Protocol Control Protocol, which can dynamically assign an IP address to the client.
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• NIPRNET/Related Articles
  {{r|Internet Protocol}}
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• Extranet/Related Articles
  {{r|Internet Protocol}}
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• Open Systems Interconnection Reference Model/Related Articles
  {{r|Internet Protocol Suite}}
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• Voice (communications)/Related Articles
  {{r|Voice over Internet Protocol}}
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• Fault tolerance/Related Articles
  {{r|Internet Protocol}}
  856 bytes (113 words) - 16:31, 11 January 2010
• Open Shortest Path First traffic engineering extensions
  ...</ref> to the '''Open Shortest Path First (OSPF)''' Version 2 (i.e., for [[Internet Protocol version 4]] have been defined to support routes that not only reflect the s
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• Session border controller
  ...[[Voice over Internet Protocol]] and other applications that make use of [[Internet Protocol Suite]] protocols with characteristics of the OSI Session Layer. This had n
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• Sinkhole (computers)/Related Articles
  {{r|Internet Protocol flow information export}}
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• Domain-local/Definition
  ...icate assignments. Examples include the registered and globally routable [[Internet Protocol]] address space, telephone numbers in the [[Public Switched Telephone Netwo
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• Happy Eyeballs
  A product of the [[Internet Engineering Task Force]] (IETF) [[Internet Protocol version 6]] Operations Working Group (v6ops), '''Happy Eyeballs''' is a mec
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• Virtual Router Redundancy Protocol
  ...is widely implemented for Internet Protocol version 4, but the variant for Internet Protocol version 6 is still a draft. ...o send packet to destinations outside the local subnet, as required by the Internet Protocol#Local versus remote principle|local versus remote principle, but to find a
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• Amplification attack/Related Articles
  {{r|Internet Protocol flow export}}
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• Domain Name System/Related Articles
  {{r|Internet Protocol}}
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• NIPRNET
  ...ol Router Network''', but is now officially the Unclassified but Sensitive Internet Protocol Router Network. It is not authorized for the transfer of classified informa
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• Stub network/Related Articles
  {{r|Internet Protocol}}
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• Nonbroadcast Multiaccess
  NBMA, when used with the [[Internet Protocol]], breaks a basic Internet architectural principle called the "local vs. re
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• Mobile ad hoc networking
  ...Typically, MANET will be applied at the [[locality of networks|edge]] of [[Internet Protocol]] infrastructure. Many of the mobile devices will have limited physical sp
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• Telecommunications network
  ...of information network, the set of public and private networks using the [[Internet Protocol Suite]] is even larger.
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• Computer networking end-to-end protocols
  ==End-to-end protocols for the Internet Protocol Suite== }}</ref>. Once these channels are set up, usually for Voice over Internet Protocol (VoIP) or similar delay-sensitive traffic, regular end-to-end protocols, us
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• Amplification attack
  ...onger be possible in any well-maintained network, exploited a feature of [[Internet Protocol version 4]] called the [[directed broadcast]]. This feature caused all host
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• User Datagram Protocol
  ...but this is less critical because IPv4 has a packet header-only checksum. Internet Protocol version 6 (IPv6), as opposed to IPv4, does not have a packet-level checksum
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• Open Systems Interconnection Reference Model/Bibliography
  For a different, but no less undignified, view of OSI layers, see [[Internet Protocol Suite/Signed articles]].
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• Domain Name System dynamic update
  Today's [[Internet Protocol]] networks, for a variety of reasons, can have rapid, fine-grained changes ...e, via a [[proxy]], to other dynamic address assignments, such as the PPP Internet Protocol Control Protocol (IPCP)<ref name=RFC1332>{{citation
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• Internet Protocol security architecture
  ...4 and Internet Protocol version 6 can run more securely if features of the Internet Protocol security architecture (IPSec)<ref name=RFC4301>{{citation | title = Security Architecture for the Internet Protocol
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• Reverse mapping/Related Articles
  {{r|Internet Protocol version 6}}
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• Unicasting
  ...at the data link layer (at layer 2), or in Internet protocol version 4 and Internet protocol version 6, there are various address formats that either are unicast or not
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• Voice Over IP
  ...er IP''' (VOIP) is a form of packetized, digital telephony that uses the [[Internet Protocol]] (IP) as its transport mechanism. VOIP is a [[disruptive technology]] th
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• Private branch exchange/Related Articles
  {{r|Voice over Internet Protocol}}
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• Stub network
  In Internet Protocol networking, a '''stub network''' is a part of the network topology that can ...pair of broadcast-capable stub networks (e.g., Ethernet/IEEE 802.3), with Internet Protocol version 4 addressing, interconnected by a single router. Under the local
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• Nonbroadcast Multiaccess/Related Articles
  {{r|Internet Protocol}}
  541 bytes (69 words) - 19:03, 11 January 2010
• Disruptive technology
  ...to change their way of doing business as a result. Likewise, [[Voice over Internet Protocol]] telephony has had a severe disruptive effect on traditional "landline" [[
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• Disruptive technology/Related Articles
  {{r|Voice over Internet Protocol}}
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• Domain Name System dynamic update/Related Articles
  {{r|Internet Protocol}}
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• Network address translator/Related Articles
  {{r|Internet Protocol}}
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• Hierarchical routing/Related Articles
  {{r|Internet Protocol}}
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• IEEE 802 address/Related Articles
  {{r|Internet Protocol version 6 address management}}
  571 bytes (74 words) - 05:55, 17 March 2024
• Request for Comments
  Among the best known April 1 RFCs is RFC 1149, which explains how to carry [[Internet Protocol]] packets over carrier pigeons. <ref name=RFC1149>{{citation
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• Default route
  ...ention, a default route is shown with a prefix length of zero, as in the [[Internet Protocol version 4]] route <code>0.0.0.0/0.</code> Some routing protocols will gene
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• Computer security/Related Articles
  {{r|Internet Protocol security architecture}}
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• IEEE Project 802
  ...etworks (VLAN) that are overlays to physical networks. In the terms of the Internet Protocol Suite, it is responsible for '''interface protocols'''; in the Open Systems ...Control mechanism hidden from the higher-level protocols above it, such as Internet Protocol
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• Computer networking session protocols
  ...end records rather than characters. A major application is in [[Voice over Internet Protocol]], as well as in various file and printer sharing mechanisms. Do not be confused that the Session Layer is not a formal part of the [[Internet Protocol Suite]], yet there are protocols named [[Session Initiation Protocol]] (SIP
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• Problems of address exhaustion and collision with Internet Protocol
  There are a set of '''Problems of address exhaustion and collision with Internet Protocol'''. The problems are not restricted to IPv4 and not IPv6; the problems are In the [[Internet Protocol version 6]] work, there is a block called "site local" (SLA), whose purpose
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• Internet Protocol version 4
  ...data transfer of the Internet since 1980. It will gradually be replaced by Internet Protocol version 6 ('''IPv6'''). In the Internet Protocol Suite architecture, all traffic is broken up into IP packets, which are the
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• Multicasting
  ==Multicast addressing in the Internet Protocol==
  8 KB (1,192 words) - 07:03, 8 October 2009
• Spoken language/Related Articles
  {{r|Voice over Internet Protocol}}
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• Open Systems Interconnection Reference Model
  ...sing considerable confusion when the teacher tries to force incompatible [[Internet Protocol Suite]] concepts into it. ...] (ATM), which are complementary. Most SS7 and ATM concepts now map into [[Internet Protocol Suite]] and international optical communications architectures; the latter
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• TELENET
  ''Do not confuse TELENET, a company that ran a network, with the [[Internet Protocol Suite]] [[telnet]] protocol.'' ...s from Telenet to the modern-day [http://www.sprintlink.net/ SprintLink] [[Internet Protocol|IP]] network, primarily using [[Cisco]] [[router]]s. one of many networks c
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• Middlebox
  In networks using the [[Internet Protocol]], a '''middlebox''' is a function that introduces a controlled violation
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• Telephone/Related Articles
  {{r|Voice over Internet Protocol}}
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• Dynamic Host Configuration Protocol
  [[Internet Protocol version 6]] has a DHCP version, also called stateful address assignment. It
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• Traffic analysis/Related Articles
  {{r|Internet Protocol security architecture}}
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• Thread (network protocol)
  ...nsortium of competing smart home companies<ref name=Consortium />, using [[Internet Protocol|IP]] version 6 over an [[IEEE 802.15.4]] wireless network (on the 2.4 GHz s
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• Telemetry
  ...d to terrestrial transmission facilities, they are often encapsulated in [[Internet Protocol]] (IP) packets and transferred via the public [[Internet]] or a [[virtual p
  2 KB (324 words) - 16:37, 22 August 2009
• Internetworking
  {{seealso|Internet Protocol Suite}} ...ace its services into one of several layers, which in total comprise the [[Internet protocol architecture]]<ref name="Arch">{{cite web |title=RFC1958: Architectural Pri
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• Multi-Protocol Label Switching
  ...disappeared except for telephony, which itself is evolving to [[Voice over Internet Protocol]].
  7 KB (1,057 words) - 05:18, 31 May 2009
• Routing information base
  ...ot know how to send the package it sends an Internet Protocol version 4 or Internet Protocol version 6 packet to a router in the local subnet. Since this is a complicat ...the packet to be forwarded. Host-based routing tables are optional for the Internet Protocol.
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• Facsimile
  ==Facsimile over Internet Protocol== Facsimile over Internet Protocol (FoIP) involves taking information in an appropriate facsimile-compatible f
  9 KB (1,429 words) - 05:16, 1 October 2013
• Internet Protocol version 6 laboratory
  {{main|Internet Protocol version 6}} {{seealso|Internet Protocol version 6 deployment}}
  9 KB (1,526 words) - 20:04, 25 March 2011
• Plain Old Telephone Service
  ...log telephone using DTMF signaling, which is kept alongside a [[Voice over Internet Protocol]] (VoIP) telephone, the latter part of a building system], in a hospital. T
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• Transaction processing
  | title = Transaction Internet Protocol Version 3.0
  5 KB (784 words) - 11:58, 22 July 2008
• Voice over Internet Protocol
  ...s carrying voice telephony not over dedicated telephony networks, but over Internet Protocol networks that handle both voice and data. In practice, VoIP also refers to
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• Private branch exchange
  ...tching]] technology. Starting in the 1990s, they began to use [[Voice over Internet Protocol]] and could be internally packet-switched. The abbreviation PABX, for priva
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• Solar System/Related Articles
  {{r|Internet Protocol Suite}}
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• Routing Policy Specification Language
  *route class: ranges of [[Internet Protocol]] addresses
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• Transmission Control Protocol
  ...nd delay variable and unpredictable. For an application such as voice over internet protocol, highly variable delay makes the application unusable. Since VoIP can toler ...ntended to be independent of the underlying transmission system, as is the Internet Protocol (IP).
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• Information assurance
  {{seealso|Internet Protocol security architecture‎}}
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• Universal emergency telephone number system
  With [[voice over Internet Protocol]], the user could be anywhere that has Internet connectivity. Most VoIP ser
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• Telecommunications provider economics
  If a customer uses a [[Voice over Internet Protocol]] (VoIP) service as a replacement for traditional wired access to the [[Pu
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• Small and home office
  ...e site will share a common [[locality of networks#subnet|subnet]]. In an [[Internet Protocol version 4]] environment, the router that connects the site to a service pro
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• Virtual private network
  While the first VPNs used [[Internet Protocol version 4]] (IPv4) for connectivity to the CE if the CE was an onsite physi *Routed (OSI Layer 3) VPNs using IPv4 or [[Internet Protocol version 6]] (IPv6). IPv4 address space is becoming scarce, so a very pract
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• Internet Protocol Suite
  The '''Internet Protocol Suite (IPS)''' is a loose description of the set of protocol (computer)|pro ...to try to “coerce” (using the lovely word choice of Priscilla Oppenheimer) Internet Protocol Suite protocols into OSI layers.
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• Local area network
  ...ecture, the various layers are grouped as "interface protocols" over which Internet Protocol, which is "agnostic" to the transmission system, runs. While LANs do not co ...a limited number of the LANs, such as one for data and one for Voice over Internet Protocol (VoIP). It is more common to see a large number of non-interfering VLANs o
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• Internet Protocol version 6 address management
  This article deals with the process of '''obtaining and managing Internet Protocol version 6 (IPv6) address space.''' The size and other characteristics of th ...rts IPv6 address assignment, but, in addition, IPv6 has another mechanism, Internet Protocol version 6 Stateless Address Autoconfiguration (SLAAC), in which there is no
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• Computer/Related Articles
  {{r|Voice over Internet Protocol}}
  3 KB (441 words) - 12:55, 13 November 2014
• Email processes and protocols
  ...er on one machine, with a local TCP connection between them. This is an [[Internet protocol suite|application layer]] view of an email network. We do not include routers in this figure, because they are part of a lower [[Internet protocol suite|network layer]]. Routers are transparent to processes operating on t
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• Locality of networks
  ...to the local logical structure. For example, if the logical structure used Internet Protocol version 4 in the private address space <ref name=RFC1918>{{citation
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• Asynchronous Transfer Mode
  ...eplaced there gradually, and in data transmission almost completely, by [[Internet Protocol]] (IP) [[routing|routed]] packet technology, rather than switched cells. SS ...d "ATM without cells". MPLS runs as an overlay over a network defined by [[Internet Protocol]] routing. Both ATM and MPLS can work as the virtual transmission path wit
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• Worm (computers)
  ...the features of this malware was that the basic code randomly generated [[Internet Protocol version 4]] addresses to which it would try to propagate itself, without ch
  5 KB (812 words) - 05:48, 8 April 2024
• Computer networking reference models
  In contrast, the Internet Protocol Suite, which is far less abstract, and not routinely called a reference mod ...rvice for helping people study for industrial network certifications</ref> Internet Protocol Suite protocols into OSI layers.
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• Internet
  ...applications and networking experiments runs, using technologies of the [[Internet Protocol Suite]]. ...n its capability for modern functions, and an evolution is in process to [[Internet Protocol version 6]] (IPv6). Internally, the Internet is divided into [[Autonomous S
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• Forwarding plane
  ...f the packet, and, if the new value is zero, discard the packet. While the Internet Protocol|IP specification indicates that an Internet Control Message Protocol|ICMP T
  10 KB (1,511 words) - 07:30, 18 March 2024
• Telephone Number Mapping
  ...STN]]) and Internet telephony ([[VOIP]]), and for the development of new [[Internet Protocol|IP]] multimedia services. The problem of a single universal personal identi # A personal [[Uniform Resource Identifier]] (URI) to be used on the [[Internet Protocol|IP]] part of the network, as explained below
  15 KB (2,370 words) - 21:09, 30 September 2013
• Email system/Citable Version
  ...ionality of routers is entirely encapsulated within the IP layer of this [[Internet Protocol Suite | protocol stack]]. We can ignore routers in this discussion. They
  11 KB (1,671 words) - 06:06, 29 August 2013
• Email system
  ...ionality of routers is entirely encapsulated within the IP layer of this [[Internet Protocol Suite | protocol stack]]. We can ignore routers in this discussion. They
  11 KB (1,673 words) - 06:07, 29 August 2013
• Voice (communications)
  ...erved present engineering constraints to such technologies as [[voice over Internet Protocol]] (VoIP).
  2 KB (315 words) - 19:44, 22 December 2008
• Electromagnetic spectrum/Related Articles
  {{r|Internet Protocol version 6 laboratory}}
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• TTC-56
  ...by the U.S. Army. It is a hybrid of a digital circuit switch, a commercial Internet Protocol Cisco 7206 router, digital multiplexer, security and network management equ
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• IEEE 802 address
  ...the current 48 bit space should be adequate for the 21st century's needs. Internet Protocol version 6 Stateless Address Autoconfiguration (SLAAC), however, needs a 64
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• Health Level 7
  ...are compatible with all appropriate information transfer methods in the [[Internet Protocol Suite]]. Specific types of information follow domain-specific standards, su
  2 KB (299 words) - 21:43, 26 June 2010
• Domain Name System security
  ...mbers (e.g., IETF ENUM), DNS is critical in other areas. Another aspect of Internet Protocol version 6 deployment may be increased use of IPsec, which, in turn, needs a | title = Security Architecture for the Internet Protocol
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• Internet Protocol
  The '''Internet Protocol''' (IP) is the highly resilient [[protocol (computer)|protocol]] for messag ...mon aspects of designing a protocol for the internetworking layer of the [[Internet Protocol Suite]].
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• CZ Talk:Computers Workgroup/Writing Guide
  ..., although there probably need to be IPSec and IPSEC redirects, as well as Internet Protocol Security (and maybe IP Security Architecture).
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• Global Broadcast Service
  ...one-way distribution of real-time video and large data files, both over [[Internet Protocol]]. The function begain with leased capacity on commercial satellites in 20
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• Error control
  ...ting the data structure containing it. In some cases, such as [[Voice over Internet Protocol]], it is quite adequate to discard, silently, an occasional unit containing
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• Digital imaging and communications in medicine
  ...work, in compliance with the appropriate communications standards of the [[Internet Protocol Suite]]]
  7 KB (1,096 words) - 18:30, 10 February 2010
• Open Shortest Path First for IPv6
  ...40.txt}}</ref> which can handle both [[Internet Protocol version 4]] and [[Internet Protocol version 6]]. Familiarity with basic [[Open Shortest Path First]] (OSPF) and
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• Network neutrality
  ...network neutrality, could not block or degrade a competitive [[voice over Internet Protocol]] service. ...ng over the public [[Internet]], or to any third-party network that uses [[Internet Protocol]]? Some U.S. vendors, such as [[Verizon]] and [[Google]], have committed to
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• KVM switch
  ...g a KVM switch using proprietary software, which sends KVM commands over [[Internet Protocol]] to the actual computer location.
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• Multihoming
  ...ions connect to the Internet, or directly to other organizations using the Internet protocol model, the ever-increasing criticality of their applications means that the ...Service]] (DNS) name, an address from [[Internet Protocol version 4]] or [[Internet Protocol version 6]], a combination of IP address and [[transmission control protoco
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• Forwarding information base
  ...ance beyond a single medium. In contrast, network layer addresses, such as Internet Protocol|IP, are conceptually similar on all media in the routing domain.
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• Internet censorship
  ...Internet services such as low-cost telephone services that use Voice over Internet Protocol (VoIP). These services can reduce the customer base of telecommunications c
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• Open Shortest Path First
  One of the historical drivers for OSPF is that [[Internet Protocol]], still in its early days of significant deployment, had principally been ...t the OSI protocols still were considered a potential competitor for the [[Internet Protocol Suite]] (IPS) and IETF; the original IS-IS (actually an open derivative of
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• Internet Protocol version 6 deployment
  ...how IPv6 works in order to understand an explanation of deploying it; see Internet Protocol version 6. Not every detail is relevant, but some of the more critical aspe ...software and hardware documentation will remain authoritative. The article Internet Protocol version 6 laboratory suggests a framework that could be used for familiariz
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• SIPRNET
  '''SIPRNET''' is the usual way to refer to the U.S. military's '''SECRET Internet Protocol Router Network'''. It is used used for passing classified information|tacti | title =SECRET Internet Protocol Router Network (SIPRNET)
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• Public Switched Telephone Network
  ...nto a packetized format came into practice with the advent of [[voice over Internet Protocol]] (VoIP) in the 1990s. The nominal voice channel of ISDN used 64 kilobits o
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• Denial of service
  The [[Internet Protocol]] (IP) allows a maximum packet size of 64K-1 bytes. when a packet is fragme
  6 KB (1,051 words) - 05:48, 8 April 2024
• Internet Protocol version 6
  '''Internet Protocol version 6''' (or as it is more commonly known "IPv6") is a method of addres ...ng|IPv6 multihoming]] are in this article, but might well split out to an "Internet Protocol version 6 operations" article that deal with operational issues not related
  39 KB (5,823 words) - 12:18, 30 March 2024
• IPsec
  ...munication for use with the ubiquitous [[Transmission Control Protocol]]/[[Internet Protocol]] ([[TCP]]/IP), the [[network protocol]] in use on the public [[Internet]] ...n security#content confidentiality|content confidentiality]], at the IP ([[Internet Protocol]]) level. This requires the higher-level management protocol, [[Internet K
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• Archive:Ready for approval
  ...rnet Protocol}} (note that this is separate from [[IPv4]], [[IPv6]], and [[Internet Protocol Suite]])
  9 KB (1,159 words) - 17:35, 14 March 2024
• Ingress filtering
  ...ess filtering''' are a class of standard network security measures used in Internet Protocol networks. They are all based on the assumption that if a packet attempts t
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• Domain Name System/Citable Version
  ...have very different goals and occur at vastly different levels within the internet protocol stack. This article will explain the functions and purposes of the Domain ...s the address spaces both for [[Internet Protocol version 4]] (IPv4) and [[Internet Protocol version 6]] (IPv6), are under the authority of the [[Internet Corporation f
  38 KB (6,049 words) - 06:54, 27 August 2013
• Domain Name System
  ...have very different goals and occur at vastly different levels within the internet protocol stack. This article will explain the functions and purposes of the Domain ...s the address spaces both for [[Internet Protocol version 4]] (IPv4) and [[Internet Protocol version 6]] (IPv6), are under the authority of the [[Internet Corporation f
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• Usability
  ...many other contexts. In [[telephony]], whether traditional or [[voice over Internet Protocol]], unpredictable pauses and variability in speech cadence, introduced by th
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• March RA
  * [[Internet Protocol Suite/Related Articles]] * [[Internet Protocol security architecture/Related Articles]]
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• March Metadata
  * [[Template:Internet Protocol Suite/Metadata]] * [[Template:Internet Protocol security architecture/Metadata]]
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• TROJAN SPIRIT
  TROJAN SPIRIT internally migrated from [[Asychronous Transfer Mode]] to [[Internet Protocol version 4]] communications with TROJAN SPIRIT II. To evolve the TROJAN SPIR
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• Joint Network Node
  ...rom a hybrid [[circuit switching|circuit-switched]]/[[routing|routed]] "to Internet protocol-based systems, and provided an
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• Canadian Copyright in Contrast to American Copyright
  ...rn forwards this information to the consumer and stores the consumer IP ([[Internet Protocol]]) information for a period of 6 months; this is extended to 12 months if c
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• Telephone
  ...IP need not run over the public Internet; it merely needs to comply with [[Internet Protocol Suite]] technical specifications
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• Reverse MX
  ...next chance to fix these problems will be when SMTP in common or even the Internet protocol itself will be replaced by more modern and secure protocols.
  41 KB (6,790 words) - 03:36, 17 October 2013
• Mashup
  ...]] is a recognition that a variety of communications can run over the same Internet Protocol-based infrastructure, without building a separate infrastructure for each s
  24 KB (3,761 words) - 14:00, 18 February 2024
• Intellipedia
  Other versions are available on the U.S. Government Secret Internet Protocol network ([[SIPRNET]]) and the Sensitive but Unclassified Network ([[Classif
  9 KB (1,273 words) - 11:11, 21 April 2024
• History of computing
  {{r|Voice over Internet Protocol}}
  26 KB (3,913 words) - 06:51, 7 April 2014
• Joint Tactical Radio System
  ...ses mobile ad hoc networking (MANET) with digital payloads encapsulated in Internet Protocol over a wide range of radio frequencies and waveforms. <ref name=MCC-GIG-Edg
  13 KB (1,859 words) - 16:22, 30 March 2024
• Warfighter Information Network–Tactical
  ...their command posts. Its fundamental technology is [[routing]] using the [[Internet Protocol]]. WIN-T is being deployed in four main "Increments"; about half of the uni
  11 KB (1,530 words) - 10:20, 8 April 2024
• Classified information
  ...ck cryptography|encryption. For example, the U.S. SIPRNET network provides Internet Protocol transmission for material up to and including SECRET. Telephones that provi
  12 KB (1,757 words) - 07:30, 18 March 2024
• Cryptography
  In [[IPsec]] (Internet Protocol Security) public key techniques provide [[information security#source authe
  52 KB (8,332 words) - 05:49, 8 April 2024
• Cloud computing
  #Networking ([[Internet Protocol Suite|TCP/IP abstraction]] and "agnosticism" to the transmission system)
  57 KB (8,399 words) - 17:39, 13 March 2024