Performance Guarantees for Web Server End-Systems: A Control-Theoretical Approach
IEEE Transactions on Parallel and Distributed Systems
Size-based scheduling to improve web performance
ACM Transactions on Computer Systems (TOCS)
eQoS: Provisioning of Client-Perceived End-to-End QoS Guarantees in Web Servers
IEEE Transactions on Computers
Quorum: flexible quality of service for internet services
NSDI'05 Proceedings of the 2nd conference on Symposium on Networked Systems Design & Implementation - Volume 2
Global Adaptive Request Distribution with Broker
KES '07 Knowledge-Based Intelligent Information and Engineering Systems and the XVII Italian Workshop on Neural Networks on Proceedings of the 11th International Conference
Network Analysis, Architecture, and Design
Network Analysis, Architecture, and Design
Providing web service of established quality with the use of HTTP requests scheduling methods
KES-AMSTA'10 Proceedings of the 4th KES international conference on Agent and multi-agent systems: technologies and applications, Part I
Neuro-fuzzy models in global HTTP request distribution
ICCCI'10 Proceedings of the Second international conference on Computational collective intelligence: technologies and applications - Volume PartI
Guaranteeing quality of service in globally distributed web system with brokers
ICCCI'11 Proceedings of the Third international conference on Computational collective intelligence: technologies and applications - Volume Part II
Performance evaluation of fuzzy-neural HTTP request distribution for web clusters
ICAISC'06 Proceedings of the 8th international conference on Artificial Intelligence and Soft Computing
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The problem of guaranteeing Quality of Web Services (QoWS) is now crucial for farther development and application in new areas of internet services. In this paper we present WEDF (Web Earliest Deadline First) adaptive, an intelligent Web system which guarantees the quality of service in Web systems with one Web server. The proposed system keeps the page response time within established boundaries, in such a way that at a heavy workload, the page response time both for small and complex pages, would not exceed the imposed time limit. We show in experiments conducted with the use of a real modern Web server that the system can be used to guarantee a higher quality of service than other referenced and widely used in practice scheduling systems.