Performance Evaluation of Preemption Algorithms in MPLS Networks
Divisions of PAS
ISSN 2081-8491 (until 2012) ; eISSN 2300-1933 (since 2013)
E. Rosen, A. Viswanathan, and R. Callon, "Multiprotocol Label Switching Architecture," <i>RFC 3031</i>, January 2001. ; Davie B. (2000), MPLS: Technology and Applications. ; Kolon M. (2002), Juniper Networks Routers: The Complete Reference. ; D. Adwuche, J. Malcolm, J. Agogbua, M. O'Dell, and J. McManus, "Requirements for Traffic Engineering Over MPLS," <i>RFC 2702</i>, September 1999. ; Garay J. (1992), Call Preemption in Cmmunication Networks, null, 1043. ; Peyravian M. (1994), Providing Different Levels of Network Availability in High-speed Net-works, null, 941. ; J. de Oliveira (2002), A New Preemption Policy for Diffserv-Aware Traffic Engineering to Minimize Rerouting, null, 2, 695. ; J. de Oliveira, J. P. Vasseur, L. Chen, and C. Scoglio, "Label Switched Path (LSP) Preemption Policies for MPLS Traffic Engineering," <i>RFC 4829</i>, April 2007. ; Blanchy F. (2003), Routing in a MPLS Network Featuring Preemption Mchanisms, null. ; S. Kaczmarek and K. Nowak, "A New Heuristic Algorithm for Effective Preemption in MPLS Networks," <i>Workshop on High Performance Switching and Routing</i>, pp. 337-342, 2006. ; Kaczmarek S. (2009), A Simulation Tool for Traffic Engineering Methods and QoS Evaluation of MPLS Networks, null.