This paper discusses the results of exploratory research and development to apply and demonstrate a heuristics, knowledge-based approach for analyzing the electromagnetic compatibility (EMC) of co-located radio frequency (RF) spread spectrum frequency hopping transceivers mounted on an unmanned airborne vehicle (UAV) platform. In particular, an expert system pre-processor is used to set up the initial problem and assure the availability of a valid geometry model which is used to compute geodesic losses in the frequency domain. A knowledge base is constructed to contain essential modeling rules and “scripts” describing the steps involved in a validated, bottoms-up/top-down EMC analysis methodology. Problem reasoning is first performed on the system geometry in the pre-processing stage. An expert system based post-processor is then used to “monitor” the signal environment in the time domain and select the interference rejection scheme(s) appropriate for mitigating the effects of interferers present at a victim receptor port. Various interference rejection schemes are considered based on the interferer type and signal environment characteristics. This is necessary since a single interference rejection scheme cannot realistically be expected to suppress all types of interference that may be present.
[1]
P.K. Varshney,et al.
A knowledge-based interference rejection scheme for direct sequence spread-spectrum systems
,
1997,
1997 IEEE International Conference on Personal Wireless Communications (Cat. No.97TH8338).
[2]
Victor R. Lesser,et al.
IPUS: An Architecture for the Integrated Processing and Understanding of Signals
,
1995,
Artif. Intell..
[3]
A. Drozd,et al.
Effect of In-band Intermodulation Interference on Direct-Sequence Spread Spectrum (DSSS) Communication Systems for Electromagnetically Diverse Applications
,
2007,
2007 IEEE International Symposium on Electromagnetic Compatibility.
[4]
Y. Bar-Shalom.
Tracking and data association
,
1988
.