02592oam 2200457zu 450 991013891830332120241212215828.097814244529961424452996(CKB)2400000000003012(SSID)ssj0000453110(PQKBManifestationID)12140369(PQKBTitleCode)TC0000453110(PQKBWorkID)10481574(PQKB)10552186(NjHacI)992400000000003012(EXLCZ)99240000000000301220160829d2009 uy engur|||||||||||txtccr2009 IEEE International Conference on Service-Oriented Computing and Applications[Place of publication not identified]IEEE20091 online resourceBibliographic Level Mode of Issuance: Monograph9781424453009 1424453003 The goal of federated authentication is to identify a user or entity in different security domains without the need for redundant user management and a multitude of credentials. Federated authentication is becoming more important with the increasing popularity of service-oriented architectures, since interacting systems are generally not located within a single security domain. For this reason, companies have formed initiatives to develop standard protocols, which have led to the evolution of several specifications that each provide the means for federated authentication in homogeneous environments in which all federation partners use the same standard. In this paper, we raise a critical question: Can federated authentication also be achieved in "heterogeneous" environments in which federation partners use different standards? After evaluating established standards and identifying similarities, we propose a meta model that describes federated authentication on an abstract level. We validate the model against the standard protocols and present a concrete implementation. Our aim is to enable federated authentication across different standards.Electronic commerceCongressesElectronic data processingDistributed processingCongressesElectronic commerceElectronic data processingDistributed processing658.872IEEE StaffPQKBPROCEEDING99101389183033212009 IEEE International Conference on Service-Oriented Computing and Applications2539130UNINA