Овчинников, К. А.Руккас, К. М.Горюнов, А. А.2018-07-162018-07-162011Овчинников К. А. Анализ возможностей технологий MPLS и GMPLS / К. А. Овчинников, К. М. Руккас, А. А. Горюнов // материалы 4-го междунар. радиоэлектрон. форума (МРФ'2011) 18-21 окт. 2011 г. : сб. науч. тр. Т.2 : междунар. конф. "Телекоммуникационные системы и технологии" (МКТСТ'2011) / АНПРЭ, ХНУРЭ. – Х. : АНПРЭ, ХНУРЭ, 2011. – С. 149–152.http://openarchive.nure.ua/handle/document/6576Multi-Protocol Label Switching (MPLS) provides a mechanism for forwarding packets for any network protocol. Since then its capabilities have expanded massively, for example to support service creation (VPNs), traffic engineering, network convergence, and increased resiliency. MPLS similarly uses IP addresses, either IPv4 or IPv6, to identify end points and intermediate switches and routers. This makes MPLS networks IP-compatible and easily integrated with traditional IP networks. However, unlike traditional IP, MPLS flows are connectionoriented and packets are routed along pre-configured Label Switched Paths (LSPs). Generalized Multiprotocol Label Switching (GMPLS) enhances MPLS architecture by the complete separation of the control and data planes of various networking layers.ruтехнология MPLSпередача данныхпротоколArticle