J. O. Coleman


FILES:
ciss99.ps (postscript preprint, 110K)
ciss99.ps.gz (gzipped postscript preprint, 32K)
ciss99.pdf (PDF preprint, 89K)
ciss99slides.ps.gz (gzipped postscript presentation, 44K)
AUTHORS:
J. O. Coleman
TITLE:
A Measure-Convolution Approach to Elementary Signals and Systems
ABSTRACT:
Linear, time-invariant (LTI) systems operating on and producing complex measures instead of ordinary time functions provide a convenient unification and generalization of ordinary discrete-time and continuous-time LTI systems. Further, a development of this approach paralleling that of a typical elementary signals and systems course appears reasonably straightforward, building only on a prerequisite minimal working familiarity with Lebesgue integration and the Radon-Nikodym derivative.
STATUS:
Presented at the 1999 Conference on Information Sciences and Systems, Baltimore, MD, March 1999.
DATE OF ENTRY:
March 1999.