Software Architecture

  • F. Buschmann, Pattern-orineted software architecture

  • Goseva-Popstojanova K., Comparison of Architecture-Based Software Reliability Models

  • Goseva-Popstojanova K., Architecture-based approach to reliability assessment of software systems

  • Gokhale S.S., Reliability Prediction and Sensitivity Analysis Based on Software Architecture

  • Gokhale S.S., A Simulation Approach to Structure-Based Software Reliability Analysis

  • Gokhale S.S., Architecture-Based Software Reliability Analysis: Overview and Limitations

  • Gokhale S.S., Analytical Models for Architecture-Based Software Reliability Prediction: A Unification Framework

  • Yacoub S., A Scenario-Based Reliability Analysis Approach for Component-Based Software

  • Lo J.H., Reliability assessment and sensitivity analysis of software reliability growth modeling based on software module structure

  • Tamura Y., Comparison of Software Reliability Assessment Methods for Open Source Software and Reliability Assessment Tool

  • IEEE Reliability Society, IEEE Recommended Practice on Software Reliability

  • Cheung R.C., A User-Oriented Software Reliability Model

  • Brocklehurst S., Littelwood B., New Ways to Get Accurate Reliability Measures

  • Perry D. E., Perry, Foundations for the Study of Software Architecture

  • Garlan D., An Introduction to Software Architecture

  • Garlan D., Exploiting Style in Architectural Desing Environments

  • Laprie J.C., Modeling Computer Systems Evolutions: Non-Stationary Processes and Stochastic Petri Nets - Application to Dependability Growth

  • Wang W.L., Architecture-Based Software Reliability Modeling

  • Roshandel R., Understanding Tradeoffs among Different Architectural Modeling Approaches

  • Roshandel R., Calculating Architectural Reliability via Modeling and Analysis

  • Roshandel R., Multiview Software Component Modeling for Dependability

  • Roshandel R., Estimating Software Component Reliability by Leverageing Architectural Models

  • Roshandel R., A Classification of Architectural Reliability Models

  • D.A. Menasce, Web Server Software Architectures

  • S.S. Gokhale, Performance and Reliability Analysis of Web Server Software Architecture

  • V.B. Mendiratta, Reliability Analysis of Clustered Computing Systems

  • H. Sun, A Generic Availability Model for Clustered Computing Systems

  • W. Emmerich, The Impact of Research on the Development of Middleware Technology

  • H. Siy, Service Oriented Architecture (SOA)

  • L. Wells, Simulation based Performance Analysis of Web Servers

  • M. Raghavachari, The Deployer's Problem: Configuring Application Servers for Performance and Reliability

  • C. Rahmani, SOA Introduction

  • G. Alonso, Web Services - Concepts, Architectures and Applications

  • E. Ort, Service-Oriented Architecture and Web Services: Concepts, Technologies, and Tools

  • IBM, IBM WebSphere Application Server

  • C. Sun, ReARchJBs: A Tool for Automated Software Architecture Recovery of JavaBeans-based Applications

  • L. Wang, A Hierarchical Reliability Model of Service-Based Softwre System

  • C. Rahmani, Software Architecture Recovery Introduction

  • W3C, OWL-S: Semantic Markup for Web Services (SOAP, WSDL)

  • C.V. Ramamoorthy, Software Reliability - Stauts and Perspectives

  • Wikipedia, Service Oriented Architecture

  • S. Dustdar, A Survey on Web Services Compostion

  • B. Srivastava, Web Service Composition - Current Soltuions and Open Problems

  • W.T. Tsai, A Software Reliability Model for Web Services

  • A.D. Gordon, Validating a Web Service Security Abstraction by Typing

  • Public Web Services

  • Amazon Web Services

  • L. Welling, PHP and MySQL Web Development

  • J James, JBoss in Action: Configuring the JBoss Application Server

  • X. Kou, GlassFish Administration

  • S.S. Gokhale, An Analytical Approach to Architecture-Based Software Reliability Prediction

  • F.N. Souza, Using Stochastic Petri Nets for Performance Modeling of Application Servers

  • M. Fleury, The JBoss Extensible Server

  • Z. Zheng, Collaborative Reliability Prediction of Service-Oriented Systems

  • V. Grassi, Architecture-based Dependability Prediction for Service-oriented Computing

  • M. Abi_antoun, A Field Study in Static Extraction of Runtime Architectures

  • R. Roshandel, Calculating Architectural Reliability via Modeling and Analysis

  • R.H. Reussner, Reliability Prediction for Component-based Software Architectures

  • E. Armstrong, The Java Web Services Tutorial

  • Geronimo, EJB Banking Sample Application

  • B. Zhou, A Tree-based Reliability Model for Composite Web Service with Common-Cause Failures

  • G. Jaeger, QoS Aggregation for Web Service Compostion uisng Workflow Patterns

  • H. Zheng, QoS Analysis for Web Service Composition

  • L. Zeng, QoS-Aware Middleware for Web Services Composition

  • Y. Xia, A Petri-Net-Based Approach to QoS Estimation of Web Service Choreographies

  • D. Zhong, A Petri Net Based Approach for Reliability Prediction of Web Services

  • V. Grassi, Reliability Prediction for Service-Oriented Computing Environments

  • M.C. Jaeger, QoS Aggregation in Web Service Compositions

  • J. Yang, Tackling the Challenges of Service Composition in E-Marketplaces

  • M. Huhns, Service-Oriented Computing: key Concepts and Principles

  • N. Sato, Stochastic Modeling of Composite Web Services for Closed-form Analysis of Their Performance and Reliability Bottlenecks

  • K. Trivedi, Availability Modeling of SIP Protocol on IBM WebSphere

  • V.S. Sharma, Reliability and Performance of Component Based Software Systems with Restarts, Retries, Reboots and Repaiers

  • C. Rahmani, Architecture-based Reliability of Web Services

  • Z. Zheng, Distributed QoS Evaluation for Real-World Web Services

  • PlanetLab, Testbed for Distributed Services, and more...

  • G. Balbo, Introduction to Generalized Stocahstic Petri Nets

  • X. Xiao, Estimating the Error Rate in an Apache Web Server System

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Goseva-Popstojanova K., Architecture-based approach to reliability assessment of software systems

V. Grassi, Reliability Prediction for Service-Oriented Computing Environments

M. Huhns, Service-Oriented Computing: key Concepts and Principles

D. Zhong, A Petri Net Based Approach for Reliability Prediction of Web Services

* V. Grassi, Architecture-based Dependability Prediction for Service-oriented Computing

* S.S. Gokhale, An Analytical Approach to Architecture-Based Software Reliability Prediction

Goseva-Popstojanova K., Comparison of Architecture-Based Software Reliability Models

Gokhale S.S., Reliability Prediction and Sensitivity Analysis Based on Software Architecture

Gokhale S.S., Architecture-Based Software Reliability Analysis: Overview and Limitations

Gokhale S.S., Analytical Models for Architecture-Based Software Reliability Prediction: A Unification Framework

Lo J.H., Reliability assessment and sensitivity analysis of software reliability growth modeling based on software module structure

Tamura Y., Comparison of Software Reliability Assessment Methods for Open Source Software and Reliability Assessment Tool

IEEE Reliability Society, IEEE Recommended Practice on Software Reliability

Cheung R.C., A User-Oriented Software Reliability Model

Brocklehurst S., Littelwood B., New Ways to Get Accurate Reliability Measures

Laprie J.C., Modeling Computer Systems Evolutions: Non-Stationary Processes and Stochastic Petri Nets - Application to Dependability Growth

Wang W.L., Architecture-Based Software Reliability Modeling

S.S. Gokhale, Performance and Reliability Analysis of Web Server Software Architecture

H. Sun, A Generic Availability Model for Clustered Computing Systems

C.V. Ramamoorthy, Software Reliability - Stauts and Perspectives

W.T. Tsai, A Software Reliability Model for Web Services

F.N. Souza, Using Stochastic Petri Nets for Performance Modeling of Application Servers

Z. Zheng, Collaborative Reliability Prediction of Service-Oriented Systems

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