A Riemannian steepest descent approach over the inhomogeneous symplectic group: Application to the averaging of linear optical systems
作者:
Highlights:
•
摘要
The present manuscript describes a Riemannian-steepest-descent approach to compute the average out of a set of optical system transference matrices on the basis of a Lie-group averaging criterion function. The devised averaging algorithm is compared with the Harris’ exponential-mean-logarithm averaging rule, especially developed in computational ophthalmology to compute the average character of a set of biological optical systems. Results of numerical experiments show that the iterative algorithm based on gradient steepest descent implemented by exponential-map stepping converges to solutions that are in good agreement with those obtained by the application of Harris’ exponential-mean-logarithm averaging rule. Such results seem to confirm that Harris’ exponential-mean-logarithm averaging rule is numerically optimal in a Lie-group averaging sense.
论文关键词:Averaging on Lie groups,Optimization on Riemannian Lie groups,Symplectic matrices,Hamiltonian matrices
论文评审过程:Received 14 October 2015, Accepted 8 February 2016, Available online 15 March 2016, Version of Record 15 March 2016.
论文官网地址:https://doi.org/10.1016/j.amc.2016.02.018