Use of Data Abstraction Methods to Simplify Monitoring
Thomas A. Russ
USC / Information Sciences Institute
4676 Admiralty Way
Marina del Rey, CA 90292
USA
[email protected]
Abstract
I describe the Temporal Control System (TCS), a programming system
designed for building intelligent temporal monitoring programs. The ICU
data set provided as part of the 1994 AAAI Spring Symposium challenge is
used to conduct several experiments. Empirical results from the ICU
data set validate the scalable design of the TCS. The remaining
experiments examine the computational problem of generating interval
values from sample point through persistence assumptions. Using
abstractions in combination with persistence assumptions makes the
design of higher-level clinical reasoning programs simpler. Abstraction
can be used to suppress clinically unimportant details, allowing an
expert system to focus on the key information provided by clinical
monitors. The TCS provides the framework for the implementation as well
as a method of calculating the "cost" of different approaches. To
prevent the use of outdated information, it is often useful to limit the
time span of a persistent interval. I show that such limitations can be
very costly computationally and then show how the application of
symbolic abstraction can help. Further performance improvements from
switching from continuous to discrete step persistence are shown. These
performance enhancing techniques have general applicability.
In Artificial Intelligence in Medicine 7, pp. 497-514, 1995.
Back to Paper List