Paper Info
Title
Implementing the square-root information Kalman filter on a Jacobi-type systolic array
Abstract
Several systolic Kalman filters have appeared in the literature, with often complex hardware constructs to accomodate the algorithmic ‘anomalies’. Here, we follow a different route by working the original information filter into a so-called ‘Jacobi-type’ algorithm, which is much more regular and directly fits onto a common and general Jacobi-type systolic array. The efficiency of the resulting systolic implementation is still comparable to what is achieved with the best of the other solutions. The advantage here is that one ends up with one type of array, which is suitable for a whole set of problems/algorithms, whereas otherwise the array is exclusively tuned to Kalman filtering. The aim of this report is thus to demonstrate the usefulness of these Jacobi-type arrays, rather than to come up with yet another systolic Kalman filter.
Year
DOI
Venue
1994
10.1007/BF02106452
VLSI Signal Processing
Keywords
Field
DocType
Kalman Filter,Permutation Matrix,Systolic Array,Processor Utilization,Triangular Array
Fast Kalman filter,Triangular array,Processor array,Computer science,Systolic array,Theoretical computer science,Real-time computing,Kalman filter,Invariant extended Kalman filter,Recursive least squares filter,Information filtering system
Journal
Volume
Issue
ISSN
8
3
0922-5773
Citations 
PageRank 
References 
2
0.65
3
Authors
1
Name
Order
Citations
PageRank
Marc Moonen137746.79