论文信息 - A sparse reconfigurable adaptive filter based on a photonic switch

A sparse reconfigurable adaptive filter based on a photonic switch

A nonblocking photonic switch can be used to implement a tapped delay line with a large number of coefficients and a wide range of time delays. In this paper, we present a sparse reconfigurable adaptive filter (SRAF) based on a photonic switch with an input/output connection architecture that can be represented by a matrix of adaptive weights. This unique parallel structure can be reconfigured in an adaptive manner to implement a sparse filter impulse response for a variety of applications. The appropriate choice of time delays is determined from a cross-correlation function between the filter input and a desired response signal that depends on the particular application. A computer simulation example illustrates the performance of the algorithm for modeling a bandpass filter characteristic.

[1] Tsuyoshi Yamamoto,et al. Development of a Large-scale 3D MEMS Optical Switch Module , 2003 .

[2] Neil J. Bershad,et al. Fast coupled adaptation for sparse impulse responses using a partial haar transform , 2005, IEEE Transactions on Signal Processing.

[3] Xuezhe Zheng,et al. Design of Large, MEMS-Based Photonic Switches , 2002 .

[4] Michael G. Larimore,et al. Thinned impulse responses for adaptive FIR filters , 1982, ICASSP.

[5] C. Richard Johnson,et al. Exploiting sparsity in adaptive filters , 2002, IEEE Trans. Signal Process..

[6] V. Kaman,et al. A 32-element 8-bit photonic true-time-delay system based on a 288 x 288 3-D MEMS optical switch , 2003, IEEE Photonics Technology Letters.

[7] S. Thomas Alexander,et al. Adaptive Signal Processing , 1986, Texts and Monographs in Computer Science.

[8] J. Goodman,et al. Fiber-optic signal processor with applications to matrix-vector multiplication and lattice filtering. , 1982, Optics letters.