This paper resumes a research project developed in the concession area of AES Eletropaulo, the largest electrical energy distribution company in Brazil. First, the global standards of information exchange within power...This paper resumes a research project developed in the concession area of AES Eletropaulo, the largest electrical energy distribution company in Brazil. First, the global standards of information exchange within power transmission and distribution area were evaluated, allowing the definition of state of the art on the theme, followed by determining its applications considering technologies already applied by the company. The specifications needed for the generation of a data integration model are adapted to radial overhead network at company concession area. The project developed an intermediary connectivity layer, based on the CIM (common information model), which enables corporative systems to communicate in a standard way, through the use of integrating technologies. It, therefore, enabled modeling all main subjects of an electrical network in an open, extensible and non-proprietary way, in a model that contains classes and attributes of such subjects, as well as their relationships. Calculation and planning products adopted by the company were integrated to the technological layer implemented.展开更多
The platform consists of three administers the infrastructure of the whole platform; layers: the management service layer the integration service layer provides the core integration functions and the user service lay...The platform consists of three administers the infrastructure of the whole platform; layers: the management service layer the integration service layer provides the core integration functions and the user service layer satisfies the enterprise integration demands. For the purpose of accommodating the characteristics of mold making companies, an event-driven enterprise service bus working as the heart of the platform is realized. A prototype system combining Web services, Business Process Execution Language (BPEL) and Web Ontology Language (OWL) is implemented. The clients and suppliers and the applications of mold making company are integrated in a loosely-coupled way through the services provided by the platform. Meanwhile the sharing of data and knowledge, and the coordination of business process are realized. By adopting the platform, a new approach is provided to solve the problem of design and manufacture integration for intra and inter mold making companies.展开更多
For healthcare organizations, there is increasing needs to share data among applications to deliver qualitypatient care. It is a key for successful diagnosis and treatment to view accurate and up-to-date patient data ...For healthcare organizations, there is increasing needs to share data among applications to deliver qualitypatient care. It is a key for successful diagnosis and treatment to view accurate and up-to-date patient data in a single information dashboard in real time. But the fact is that many hospitals and healthcare providers today are struggling with legacy system or internally developed systems that cannot easily scale to support new interfaces; the plethora of inflexible point-to-point interfaces make changing in one system deleteriously impact other systems; some systems could not support information sharing; and the standards followed by different systems are not compatible to each other. This is making it increasingly difficult to meet the rapidly changing and demanding of healthcare service.展开更多
文摘This paper resumes a research project developed in the concession area of AES Eletropaulo, the largest electrical energy distribution company in Brazil. First, the global standards of information exchange within power transmission and distribution area were evaluated, allowing the definition of state of the art on the theme, followed by determining its applications considering technologies already applied by the company. The specifications needed for the generation of a data integration model are adapted to radial overhead network at company concession area. The project developed an intermediary connectivity layer, based on the CIM (common information model), which enables corporative systems to communicate in a standard way, through the use of integrating technologies. It, therefore, enabled modeling all main subjects of an electrical network in an open, extensible and non-proprietary way, in a model that contains classes and attributes of such subjects, as well as their relationships. Calculation and planning products adopted by the company were integrated to the technological layer implemented.
基金Supported by National Science and Technology Support Programme(2006BAF01A43)
文摘The platform consists of three administers the infrastructure of the whole platform; layers: the management service layer the integration service layer provides the core integration functions and the user service layer satisfies the enterprise integration demands. For the purpose of accommodating the characteristics of mold making companies, an event-driven enterprise service bus working as the heart of the platform is realized. A prototype system combining Web services, Business Process Execution Language (BPEL) and Web Ontology Language (OWL) is implemented. The clients and suppliers and the applications of mold making company are integrated in a loosely-coupled way through the services provided by the platform. Meanwhile the sharing of data and knowledge, and the coordination of business process are realized. By adopting the platform, a new approach is provided to solve the problem of design and manufacture integration for intra and inter mold making companies.
文摘For healthcare organizations, there is increasing needs to share data among applications to deliver qualitypatient care. It is a key for successful diagnosis and treatment to view accurate and up-to-date patient data in a single information dashboard in real time. But the fact is that many hospitals and healthcare providers today are struggling with legacy system or internally developed systems that cannot easily scale to support new interfaces; the plethora of inflexible point-to-point interfaces make changing in one system deleteriously impact other systems; some systems could not support information sharing; and the standards followed by different systems are not compatible to each other. This is making it increasingly difficult to meet the rapidly changing and demanding of healthcare service.