A Subjective Probability Based Deductive Approach to Global Trust Evaluation in Composite Services

In Service-Oriented Computing (SOC) environments, the trustworthiness of each service provider is critical for a service client when selecting one from a large pool of service providers. The trust value of a service provider is usually in the range of [0, 1] and is evaluated from the ratings given by service clients, which represent the subjective belief of service clients on the satisfaction of delivered services. So a trust value can be taken as a subjective probability, by which one party believes that another party can perform an action in a certain situation. Hence, subjective probability theory should be adopted in trust evaluation. In addition, in SOC environments, a service provider usually can invoke the services from other service providers forming a composite service. Thus, the global trust of a composite service should be evaluated based on both the subjective probability property of trust and complex invocation structures. In this paper, we first interpret the trust dependency caused by direct service invocations as conditional probability. Then, on the basis of trust dependency, we propose a Subjective probability based deductive (SELECTIVE) approach to evaluate the subjective global trustworthiness of a composite service. All these processes follow subjective probability theory and keep the subjective probability property of trust in evaluations. Our experimental results demonstrate that when compared with existing approaches our proposed SELECTIVE approach can yield more reasonable results.

[1]  Paolo Traverso,et al.  Service-Oriented Computing: a Research Roadmap , 2008, Int. J. Cooperative Inf. Syst..

[2]  Lei Li,et al.  Trust-Oriented Composite Service Selection and Discovery , 2009, ICSOC/ServiceWave.

[3]  Ling Liu,et al.  PeerTrust: supporting reputation-based trust for peer-to-peer electronic communities , 2004, IEEE Transactions on Knowledge and Data Engineering.

[4]  Jonathan L. Gross,et al.  Handbook of graph theory , 2007, Discrete mathematics and its applications.

[5]  Lei Li,et al.  Trust Evaluation in Composite Services Selection and Discovery , 2009, 2009 IEEE International Conference on Services Computing.

[6]  Audun Jøsang,et al.  A survey of trust and reputation systems for online service provision , 2007, Decis. Support Syst..

[7]  Raouf Boutaba,et al.  QoS-aware service composition and adaptation in autonomic communication , 2005, IEEE Journal on Selected Areas in Communications.

[8]  Munindar P. Singh,et al.  Formal Trust Model for Multiagent Systems , 2007, IJCAI.

[9]  Patrick Martin,et al.  Reputation-Enhanced QoS-based Web Services Discovery , 2007, IEEE International Conference on Web Services (ICWS 2007).

[10]  R. Jeffrey Subjective Probability: The Real Thing , 2004 .

[11]  L. Goble The Blackwell guide to philosophical logic , 2001 .

[12]  Lei Li,et al.  Two-dimensional trust rating aggregations in service-oriented applications , 2011, IEEE Transactions on Services Computing.

[13]  A. Jøsang Subjective Evidential Reasoning � , 2002 .

[14]  Lei Li,et al.  Subjective Trust Inference in Composite Services , 2010, AAAI.

[15]  Munindar P. Singh,et al.  Developing trust in large-scale peer-to-peer systems , 2004, IEEE First Symposium onMulti-Agent Security and Survivability, 2004.

[16]  Anne H. H. Ngu,et al.  QoS-aware middleware for Web services composition , 2004, IEEE Transactions on Software Engineering.

[17]  Jane M. Booker,et al.  Fuzzy Logic and Probability Applications , 2002, Fuzzy Logic and Probability Applications.

[18]  Aarnout Brombacher,et al.  Probability... , 2009, Qual. Reliab. Eng. Int..

[19]  Athman Bouguettaya,et al.  RATEWeb: Reputation Assessment for Trust Establishment among Web services , 2009, The VLDB Journal.

[20]  William Et.Al Hines,et al.  Probability and Statistics in Engineering , 2003 .