TY - GEN
T1 - Extending service model to build an effective service composition framework for cyber-physical systems
AU - Huang, J.
AU - Bastani, F.
AU - Yen, I. L.
AU - Dong, J.
AU - Zhang, W.
AU - Wang, Feng-Jian
AU - Hsu, H. J.
PY - 2009/12/1
Y1 - 2009/12/1
N2 - Cyber-Physical Systems (CPSs) are combinations of physical entities controlled by software systems to accomplish specified tasks under stringent real-time and physical entity constraints. As more and more physical entities are equipped with embedded computers, they are becoming more and more intelligent. However, the problem of effectively composing the services provided by cyber and physical entities to achieve specific goals still remains a challenge. Traditional service-oriented models and composition techniques are insufficient for CPS. In this paper, we present a novel Physical-Entity (PE) service-oriented model to address the problem, including the concepts of PE-ontology and PE-SOA specifications. Based on the model, we develop a two-level compositional reasoning approach, which divides the process into abstract and physical levels to expedite the composition process. With the assistance of the PE-ontology and PE-SOA, abstract level reasoning is performed by hiding the physical level details. This separation greatly reduces the search space for both levels through a divide-and-conquer technique. The model and the composition approach are illustrated using a simplified emergency response case study system.
AB - Cyber-Physical Systems (CPSs) are combinations of physical entities controlled by software systems to accomplish specified tasks under stringent real-time and physical entity constraints. As more and more physical entities are equipped with embedded computers, they are becoming more and more intelligent. However, the problem of effectively composing the services provided by cyber and physical entities to achieve specific goals still remains a challenge. Traditional service-oriented models and composition techniques are insufficient for CPS. In this paper, we present a novel Physical-Entity (PE) service-oriented model to address the problem, including the concepts of PE-ontology and PE-SOA specifications. Based on the model, we develop a two-level compositional reasoning approach, which divides the process into abstract and physical levels to expedite the composition process. With the assistance of the PE-ontology and PE-SOA, abstract level reasoning is performed by hiding the physical level details. This separation greatly reduces the search space for both levels through a divide-and-conquer technique. The model and the composition approach are illustrated using a simplified emergency response case study system.
KW - AI planning techniques
KW - Cyber-physical systems
KW - Service composition
KW - Service-oriented architecture
UR - http://www.scopus.com/inward/record.url?scp=77950200095&partnerID=8YFLogxK
U2 - 10.1109/SOCA.2009.5410453
DO - 10.1109/SOCA.2009.5410453
M3 - Conference contribution
AN - SCOPUS:77950200095
SN - 9781424452996
T3 - IEEE International Conference on Service-Oriented Computing and Applications, SOCA' 09
SP - 130
EP - 137
BT - IEEE International Conference on Service-Oriented Computing and Applications, SOCA' 09
T2 - IEEE International Conference on Service-Oriented Computing and Applications, SOCA' 09
Y2 - 14 December 2009 through 15 December 2009
ER -