Title :
Model-Based QoS-Enabled Self-Healing Web Services
Author :
Nabuco, O. ; Ben Halima, Riadh ; Drira, K. ; Fugini, M.G. ; Modafferi, S. ; Mussi, E.
Author_Institution :
CENPRA, Campinas
Abstract :
Failures during Web service execution may depend on a wide variety of causes, such as network faults, server crashes, or application-related errors, such as unavailability of a requested web service, errors in the orchestration of choreography of applications, missing data or parameters in an execution flow, or low quality of service (QoS). In this paper, we propose a healing architecture able to handle web service faults in a self- healing way, discussing infrastructural faults and web service and Web application faults. The self-healing architecture manages repair actions, such as substitution of a faulty service or duplication of overloaded services. Implemented prototypes involving QoS in coordinated web services are illustrated and discussed.
Keywords :
Web services; fault tolerant computing; quality of service; system monitoring; system recovery; QoS; Web service execution; fault tolerant computing; quality of service; self-healing architecture; system monitoring; system recovery; Computer crashes; Databases; Expert systems; Network servers; Ontologies; Prototypes; Quality of service; Security; Service oriented architecture; Web services; Self-healingness; enhanced BPEL; ontology for quality;
Conference_Titel :
Database and Expert Systems Application, 2008. DEXA '08. 19th International Workshop on
Conference_Location :
Turin
Print_ISBN :
978-0-7695-3299-8
DOI :
10.1109/DEXA.2008.24
