As Web services have become the grand vision these days, more and more people are seeking out the practicalities of implementing and using them for business benefit. Thus Web services make application functionality available over the Internet in a standardized, programmatic way. QoS support for Web service has become a widely researched area and has shown to be an effective mechanism in Web services' discovery particularly in differentiating between services that share similar functionalities and finally by evaluating QOS and providing interface for selecting the web service. In this paper, we are providing a sophisticated architecture for quality driven web service evaluation. Agents are used to evaluate the QWS parameters. This work also discussed about the quality attributes with organized set of design related questions which helps an evaluator to analyze the ability of the architecture to meet quality requirements, and provides a brief sample evaluation. ATAM method of software architecture evaluation is used to evaluate the proposed model. The assessment justifies the proposal in terms of the performance attributes such as reliability, availability, modifiability, security and interoperability etc.
Making a business rule extraction more dynamic is an open issue, and we think it is feasible if we decompose the business process structure in a set of rules, each of them representing a transition of the business process. As a consequence the business process engine can be realized by reusing and integrating an existing Rule Engine. We are proposing a way for extracting the business rules and then to modify it at the runtime. Business rules specifies the constraints that affect the behaviors and also specifies the derivation of conditions that affect the execution flow. The rules can be extracted from use cases, specifications or system code. But since not many enterprises capture their business rules in a structured, explicit form like documents or implicit software codes, they need to be identified first, before being captured and managed. These rules change more often than the processes themselves, but changing and managing business rules is a complex task beyond the abilities of most business analysts. The capturing process focuses on the identification of the potential business rules sources. As business logic requirements change, business analysts can update the business logic without enlisting the aid of the IT staff. The new logic is immediately available to all client applications. In current trend the rules are modified or changed in the static time phase. But this paper provides to change the rules at the run time. Here the rules are extracted from the services and can be a changed dynamically. The existing rules are modified and attached to source code without hindering service to the end user which can be achieved with source control systems. When the rules are revised, it provides a path in budding new business logic. This new business logic can be adopted for the efficient software development.
Information security covers many areas within an enterprise. Each area has security vulnerabilities and, hopefully, some corresponding countermeasures that raise the security level and provide better protection. The fundamental concepts in information security are the security model, which outlines how security is to be implemented. A security policy outlines how data is accessed, what level of security is required, and what actions should be taken when these requirements are not met. A security model is a statement that outlines the requirements necessary to properly support and implement a certain security policy. An important concept in the design and analysis of secure systems is the security model, because it incorporates the security policy that should be enforced in the system. A model is a symbolic representation of a policy. It maps the desires of the policy makers into a set of rules that are to be followed by a computer system. In the paper we propose a model driven security assessment and verification for business service. The Security Assessment and Verification verifies whether the Application and Services are secure based on the Service Level Agreement and generates the report on the level of security features. It is designed to help business owners, operators and staff to assess the security of their business. It covers potential areas of vulnerability, and provides suggestions for adapting your security to reduce the risk of crime against your business. A security policy states that no one from a lower security level should be able to view or modify information at a higher security level, the supporting security model will outline the necessary logic and rules that need to be implemented to ensure that under no circumstances can a lower-level subject access a higher-level object in an unauthorized manner. The security policy is an abstract term that represents the objectives and goals a system must meet and accomplish to be deemed secure and acceptable.
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