Deakin University
Browse

File(s) under permanent embargo

Covering-Based Web Service Quality Prediction via Neighborhood-Aware Matrix Factorization

Version 2 2024-06-06, 00:18
Version 1 2019-02-20, 14:43
journal contribution
posted on 2024-06-06, 00:18 authored by Y Zhang, K Wang, Q He, Feifei ChenFeifei Chen, S Deng, Z Zheng, Y Yang
The number of Web services on the Internet has been growing rapidly. This has made it increasingly difficult for users to find the right services from a large number of functionally equivalent candidate services. Inspecting every Web service for their quality value is impractical because it is very resource consuming. Therefore, the problem of quality prediction for Web services has attracted a lot of attention in the past several years, with a focus on the application of the Matrix Factorization (MF) technique. Recently, researchers have started to employ user similarity to improve MF-based prediction methods for Web services. However, none of the existing methods has properly and systematically addressed two of the major issues: 1) retrieving appropriate neighborhood information, i.e., similar users and services; 2) utilizing full neighborhood information, i.e., both users' and services' neighborhood information. In this paper, we propose CNMF, a covering-based quality prediction method for Web services via neighborhood-aware matrix factorization. The novelty of CNMF is twofold. First, it employs a covering-based clustering method to find similar users and services, which does not require the number of clusters and cluster centroids to be prespecified. Second, it utilizes neighborhood information on both users and services to improve the prediction accuracy. The results of experiments conducted on a real-world dataset containing 1,974,675 Web service invocation records demonstrate that CNMF significantly outperforms eight existing quality prediction methods, including two state-of-the-art methods that also utilize neighborhood information with MF.

History

Journal

IEEE Transactions on Services Computing

Volume

14

Pagination

1333-1344

Location

Piscataway, N.J.

ISSN

1939-1374

eISSN

1939-1374

Language

English

Notes

In press

Publication classification

C1 Refereed article in a scholarly journal

Copyright notice

2019, IEEE

Issue

5

Publisher

IEEE COMPUTER SOC