Architecture Adaptation Based on Belief Inaccuracy Estimation

Author

Al Ali, Rima ; Bures, Tomas ; Gerostathopoulos, Ilias ; Keznikl, Jaroslav ; Plasil, Frantisek

Author_Institution

Fac. of Math. & Phys., Charles Univ. in Prague, Prague, Czech Republic

fYear

2014

fDate

7-11 April 2014

Firstpage

87

Lastpage

90

Abstract

Cyber-physical systems (CPS) are systems of cooperating autonomous components which closely interact with and control the physical environment. Being distributed and typically based on periodic activities, CPS have to cope with the problem that data capturing a distributed state of the system and its environment are inherently inaccurate (they represent belief on the state). In particular, this poses a problem when dependability is being pursued. In this paper we address this issue by modeling belief at the architecture level. In particular, we enhance the architecture by models describing belief inaccuracy over time. We exploit these models to quantify at runtime the impact of belief staleness on its inaccuracy. We then use this quantification to drive architectural adaptation with the aim to increase dependability of the running CPS system.

Keywords

belief maintenance; object-oriented methods; software architecture; CPS; architecture adaptation; autonomous components; belief inaccuracy; belief inaccuracy estimation; belief modeling; belief staleness; cyber-physical systems; dependability; Conferences; Lead; Position measurement; Processor scheduling; Software architecture; State-space methods; Vehicles; belief; component architectures; cyber-physical systems; self-adaptivity; state-space models;

fLanguage

English

Publisher

ieee

Conference_Titel

Software Architecture (WICSA), 2014 IEEE/IFIP Conference on

Conference_Location

Sydney, NSW

Type

conf

DOI

10.1109/WICSA.2014.20

Filename

6827104