Utilize este identificador para referenciar este registo: http://hdl.handle.net/10362/12533
Título: Service-oriented infrastructure to support the control, monitoring and management of a shop floor system
Autor: Sousa, Carlos Filipe Gouveia de
Orientador: Oliveira, José
Cândido, Gonçalo
Palavras-chave: Service-oriented architecture
Semantic assistance
Device management
Plug-and-play
Device profile for web services
Data de Defesa: 2014
Editora: Faculdade de Ciências e Tecnologia
Resumo: Service-oriented Architecture (SOA) paradigm is becoming a broadly deployed standard for business and enterprise integration. It continuously spreads across the distinct layers of the enterprise organization and disparate domains of application, envisioning a unified communication solution. Service-oriented approaches are also entering the industrial automation domain in a top-down way. The recent application at device level has a direct impact on how industrial automation deployments will evolve. Similarly to other domains, the crescent ubiquity of smart devices is raising important lifecycle concerns related to device control, monitoring and management. From initial setup and deployment to system lifecycle monitoring and evolution, each device needs to be taken into account and to be easily reachable. The current work includes the specification and development of a modular, adaptive and open infrastructure to support the control, monitoring and management of devices and services in an industrial automation environment, such as a shop floor system. A collection of tools and services to be comprised in this same infrastructure will also be researched and implemented. Moreover, the main implementation focuses on a SOA-based infrastructure comprising SemanticWeb concepts to enhance the process of exchanging a device in an industrial automation environment. This is done by assisting (and even automate)this task supported by service and device semantic matching whenever a device has a problem. The infrastructure was implemented and tested in an educational shop floor setup composed by a set of distributed entities each one controlled by its own SOAready PLC. The performed tests revealed that the tasks of discovering and identifying new devices, as well as providing assistance when a device is down offered a valuable contribution and can increase the agility of the overall system when dealing with operation disruptions or modifications at device level.
Descrição: Dissertação para obtenção do Grau de Mestre em Engenharia Electrotécnica e de Computadores
URI: http://hdl.handle.net/10362/12533
Aparece nas colecções:FCT: DEE - Dissertações de Mestrado

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