Title :
Pre-planned rail fast restoration for optical transport network in intelligent highway system
Author :
Hou, Lianxing ; Fu, Huaipo ; Wei, Meng ; Lu, Yueming
Author_Institution :
Res. Inst. of Highway Minist. of Transp., Beijing, China
Abstract :
The restoration based on P-Cycle offers ring-like speed and mesh-like capacity efficiency, but the major challenge resides in finding an optimal set of P-Cycles. A new restoration method named Pre-planned restoration rail (P-Rail) is proposed, and formulates the optimized Integer Linear Programming (ILP) algorithm and the sub-cycle rerouting algorithm. P-Rail yields the harsh need of restoration time and increases the restoration probability and the reserved resource capacity efficiency, which improves the effectiveness and reliability of the fast restoration mechanisms in optical transport network of highway.
Keywords :
automated highways; integer programming; linear programming; multiprotocol label switching; optical communication; probability; telecommunication network routing; GMPLS; ILP algorithm; P-cycle; P-rail; intelligent highway system; mesh-like capacity efficiency; optical transport network; optimized integer linear programming; preplanned rail fast restoration; resource capacity efficiency; restoration probability; ring-like speed; subcycle rerouting algorithm; Algorithm design and analysis; Integrated optics; Network topology; Optical fiber networks; Rails; Road transportation; Topology; GMPLS; Intelligent highway system; P-Cycle; P-Rail; Restoration;
Conference_Titel :
Network Infrastructure and Digital Content, 2010 2nd IEEE International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4244-6851-5
DOI :
10.1109/ICNIDC.2010.5657923
