Abstract
A crucial issue in the management of telecommunications networks is restoration after a network failure. We compare the capacity efficiency (the amount of traffic restored over fixed capacity) of several types of restoration methods for Digital Crossconnect Systems (DCSs) under both node or link failures in metropolitan networks. These restoration methods can be broadly categorized based on the type of control of the restoration process and the type of procedure for rerouting traffic around the failure. It is easily shown that point-to-point methods (where traffic is rerouted end-to-end) restore a higher percent of traffic than patch methods (where traffic is rerouted only around the failed segment). However, quantification of the difference in efficiency among the methods is important to fully evaluate other trade-offs, such as cost and speed of restoration. To evaluate the efficiency difference, we generated random network traffic distributions by simulation and then failed links and nodes for each simulation sample. Statistics were generated on the expected amount of restored traffic for each restoration method. In particular, we found that the efficiency advantage of point-to-point methods over patch methods is greater for link failure than for node failure. Also, the difference was not statistically significant in low levels of network congestion (i.e., networks with large amounts of excess capacity) and became more significant as network congestion increased.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
R. D. Doverspike, A multi-layered model for survivability in intra-LATA transport networks,Proc. of GLOBECOM '91, Phoenix, Arizona, pp. 2025–2031, December 1991.
ANSI Committee T1, A technical report on network survivability performance, T1 Technical Report No. 24, October 1993.
K. R. Krishnan, R. D. Doverspike, and C. D. Pack, Unified models of survivability for multitechnology networks, To appear inITC-94 Proc., Antibes Juan-les-Pins, France.
Bellcore, Restoration of DCS mesh networks with distributed control: equipment framework generic criteria, Bellcore Framework Technical Advisory, FA-NWT-001353, Issue 1, December 1992.
R. D. Doverspike, and V. Jha, Comparison of routing methods for DCS-switched networks,Interfaces, Special Issue on Telecommunications, Vol. 23, No. 2, pp. 21–34, 1993.
K. R. Krishnan, and T. J. Ott, Forward-looking routing: A new state-dependent routing scheme,Proc. of the 12th Int'l. Teletraffic Congress, Torino, Italy, June 1988.
I. Saniee, Optimal routing designs in self-healing communications networks, Bellcore manuscript, June 1993.
D. K. Doherty, W. D. Hutcheson, and K. K. Raychaudhuri, High capacity digital network management and control,Proc. of IEEE Global Communications Conference (GLOBECOM) pp. 60–64, 1990.
R. D. Doverspike, and C. D. Pack, Using SONET for dynamic bandwidth management in local exchange networks,Proc. of Fifth Int'l. Network Planning Symp. Networks '92), Kobe Japan, pp. 73–78, May 1992.
C. H. Yang, and S. Hasegawa, FITNESS: A failure immunization technology for network service survivability,IEEE Global Communications Conference (GLOBECOM) pp. 1549–1554, 1988.
T. Chujo, H. Komine, K. Miyazaki, T. Ogura, and T. Soejima, The design and simulation of an intelligent transport network with distributed control,Network Operations Management Symposium, San Diego, February 1990.
H. Sakauchi, Y. Nishimura, and S. Hasegawa, A self-healing network with an economical spare-channel assignment,Proc. of IEEE Global Communications Conference (GLOBECOM) pp. 438–443, 1990.
Y. Okanoue, H. Sakauchi, and S. Hasegawa, Design and control issues of integrated selfhealing networks in SONET,Proc. of IEEE Global Communications Conference (GLOBECOM) pp. 730–735, 1991.
W. D. Grover, Selfhealing Networks—A distributed algorithm fork-shortest link-disjoint paths in a multi-graph with applications in real time network restoration, Ph.D. dissertation, Department of Electrical Engineering, University of Alberta, Fall 1989.
W. D. Grover, The selfhealing network: a fast distributed restoration technique for networks using digital cross-connect machines,IEEE Global Communications Conference (GLOBECOM) pp. 1090–1095, 1987.
W. D. Grover, B. D. Venables, J. H. Sandham, and A. F. Milne, Performance studies of a selfhealing network protocol in telecom Canada long haul networks,IEEE Global Communications Conference (GLOBECOM), San Diego, California, paper 403.3, 1990.
B. A. Coan, M. P. Vecchi and L. T. Wu, A distributed protocol to improve the survivability of trunk networks,Proc. of Int'l. Switching Symp. ISS'90, Stockholm, Vol. 4, pp. 173–179, June 1990.
B. A. Coan, W. E. Leland, M. P. Vecchi, A. Weinrib and L. T. Wu, Using distributed topology updates and preplanned configurations to achieve trunk network survivability,IEEE Trans. on Reliability, Vol. 40, No. 4, pp. 404–416, 1991.
C. E. Chow, V. Narashimhan and S. Syed, Analysis of centralized network restoration,Proc. of 2nd Int'l. Conf. on Computer Commu. and Networks, San Diego, California, pp. 306–310, June 1993.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Doverspike, R., Wilson, B. Comparison of capacity efficiency of DCS network restoration routing techniques. J Netw Syst Manage 2, 95–123 (1994). https://doi.org/10.1007/BF02139308
Issue Date:
DOI: https://doi.org/10.1007/BF02139308