论文信息 - Federated square root filter for decentralized parallel processors

Federated square root filter for decentralized parallel processors

An efficient, federated Kalman filter is developed for use in distributed multisensor systems. The design accommodates sensor-dedicated local filters, some of which use data from a common reference subsystem. The local filters run in parallel, and provide sensor data compression via prefiltering. The master filter runs at a selectable reduced rate, fusing local filter outputs via efficient square root algorithms. Common local process noise correlations are handled by use of a conservative matrix upper bound. The federated filter yields estimates that are globally optimal or conservatively suboptimal, depending upon the master filter processing rate. This design achieves a major improvement in throughput (speed), is well suited to real-time system implementation, and enhances fault detection, isolation, and recovery capability. >

N. A. Carlson

[1] D. Teneketzis,et al. Coordinator , 2020, EuroPLoP.

[2] Sumit Roy,et al. Decentralized structures for parallel Kalman filtering , 1988 .

[3] N. A. Carlson. Fast triangular formulation of the square root filter. , 1973 .

[4] A. Willsky,et al. Combining and updating of local estimates and regional maps along sets of one-dimensional tracks , 1982 .

[5] T. Chang. Comments on "Computation and transmission requirements for a decentralized linear-quadratic-Gaussian control" , 1980 .

[6] George C. Verghese,et al. A scattering framework for decentralized estimation problems , 1983, Autom..

[7] Jason Speyer,et al. Computation and transmission requirements for a decentralized linear-quadratic-Gaussian control problem , 1978, 1978 IEEE Conference on Decision and Control including the 17th Symposium on Adaptive Processes.

[8] G. Bierman,et al. A decentralized square root information filter/smoother , 1985, 1985 24th IEEE Conference on Decision and Control.

[9] Thomas Kerr,et al. Decentralized Filtering and Redundancy Management/Failure Detection for Multisensor Integrated Navigation Systems , 1985 .