Viability of decision trees for learning models of systems

Publikationstyp
Conference Paper
Date Issued
2021-03
Sprache
English
Author(s)
Plambeck, Swantje  orcid-logo
Schammer, Lutz  
Fey, Görschwin  orcid-logo
Institut
Eingebettete Systeme E-13  
TORE-URI
http://hdl.handle.net/11420/10716
Start Page
77
End Page
80
Citation
Workshop on Methods and Description Languages for the Modeling and Verification of Circuits and Systems (MBMV 2021)
Contribution to Conference
24th Workshop on Methods and Description Languages for the Modeling and Verification of Circuits and Systems, MBMV 2021  
Scopus ID
2-s2.0-85117502540
models of embedded systems are useful for various tasks, ranging from diagnosis, over testing to monitoring at run-time. However, deriving a model for an unknown system is difficult. We consider systems that can be modeled as finite state transducers. Existing approaches for learning provably precise models are costly. On the other hand, generic learners like decision trees can identify specific properties of systems and have successfully been applied, e.g., for anomaly detection and test case identification. We consider Decision Tree Learning (DTL) to derive a model of a system from given observations with bounded history. We prove theoretical limitations and explain why, nonetheless, usage in realistic applications is successful. Experimental results demonstrate in which cases the approach is successful and effective.
Subjects
MLE@TUHH