论文信息 - Optimal planning for optical transport networks

Optimal planning for optical transport networks

In optical transport networks, recent development of new technologies has led to highly accelerated (‘disruptive’) increases in the capacity associated with a given investment cost. As a result, there have been dramatic decreases in the cost per unit of transport. We describe a nonlinear mixed–integer planning model that assumes both the continuous emergence of new systems and a constant–elasticity demand function. Optimization of the model with respect to price and technology acquisitions over time suggests that, with high elasticity and steeply dropping technology costs, a carrier will maximize net present value by frequently deploying new systems. This conclusion is in sharp contrast to the analogous results for voice networks, where demand is much less elastic and the rate of technology change is much slower.

[1] F. Bass. The Relationship between Diffusion Rates, Experience Curves, and Demand Elasticities for Consumer Durable Technological Innovations , 1980 .

[2] John Freidenfelds,et al. Capacity expansion: Analysis of simple models with applications , 1981 .

[3] Philip E. Gill,et al. Practical optimization , 1981 .

[4] R. Fletcher. Practical Methods of Optimization , 1988 .

[5] L. Herk. Consumer choice and Cournot behavior in capacity- constrained duopoly competition , 1993 .

[6] Thomas E. Stern,et al. Multiwavelength Optical Networks: A Layered Approach , 1999 .

[7] L. Chambers. Practical methods of optimization (2nd edn) , by R. Fletcher. Pp. 436. £34.95. 2000. ISBN 0 471 49463 1 (Wiley). , 2001, The Mathematical Gazette.