Sistema Multiagente sensible al contexto x 2.7. Conclusiones Capítulo 3. Tecnología de agentes 3.1. Introducción a los agentes 3.2. Los sistemas multiagente 3.2.1. La tecnología de agentes y la computación sensible al contexto 3.3. Tipos de arquitecturas de agentes 3.3.1. Arquitectura deliberativa BDI 3.4. Sistemas de razonamiento 3.4.1. Razonamiento basado en casos 3.4.2. Agentes CBR-BDI 3.5. Sistemas de planificación 3.5.1. Método CPM de planificación 3.5.2. Planificación basada en casos (CBP) 3.6. Herramientas para la Ingeniería del Software Orientada a Agentes 3.7. Conclusiones Capítulo 4. Arquitectura HoCCAC 4.1. Introducción 4.2. Arquitectura propuesta 4.3. Interacción entre agentes y dispositivos en el sistema 4.4. Descripción del modelo de datos 4.5. Soluciones proporcionadas por el agente intérprete 4.6. Diseño del agente intérprete 4.7. Conclusiones Capítulo 5. Caso de estudio 5.1. Introducción 5.2. Descripción del caso de estudio 5.3. Modelo de contexto 5.4. Análisis y diseño 5.4.1. Modelo de roles 5.4.2. Casos de uso Índice Sistema Multiagente sensible al contexto xi 5.4.3. Diseño SysML 5.4.3.1. Diagramas de definición de bloques 5.4.3.2. Diagramas de secuencia 5.4.3.3. Diagramas de interacción 5.4.3.4. Diagramas de estado 5.5. Ejemplo de planificación 5.6. Conclusiones y resultados obtenidos Capítulo 6. Conclusiones y trabajo futuro 6.1. Conclusiones 6.2. Contribuciones de la investigación 6.3. Trabajo futuro Capítulo 7. Conclusions and future work 7.1. Conclusions 7.2. Contributions of this study 7.3. Future work Capítulo 8. Overview 8.1. Introduction 8.2. Context-aware computing 8.3. HoCCAC Multiagent system 8.3.1. Interaction between agents and devices in the system 8.3.2. Description of the data model 8.3.3. Solutions provided by the Interpreter Agent 8.3.4. Task planning with the CPM method 8.3.5. Interpreter Agent Design 8.4. Applying HoCCAC to plan task the COPD patient in context-aware environment 8.5. Results and conclusions Bibliografía Apéndice A. Tecnologías inalámbricas A.1. ZigBee Índice Sistema Multiagente sensible al contexto xii A.2. Wi-Fi A.3. Identificación por Radiofrecuencia A.4. Near Field Communication A.4.1. Estándares de comunicación NFC A.4.2. Definición de tipo de registro RTD
In a society that is clearly influenced by new technology, new advances in mobile technology have yielded important changes in the way users interact with information systems and contextual information. There is a need to provide technological solutions that help users communicate more easily. In this chapter, a novel solution that makes it easier for the elderly to use mobile phones is proposed. The senior population is rapidly growing; they represent 16-17% of the total population in developed countries. The use of a mobile device presents two large obstacles for this group: problems from disabilities due to age and problems associated with the lack of familiarity with mobile technology. The combined use of contactless technologies such as NFC and MiFARE eliminates the barriers encountered by older individuals. These technologies make it possible to use basic services of a mobile telephone, such as placing a call or sending a message, in a way that is easy, user friendly, and intuitive. The CommunicaME system makes it possible to place a call or send a SMS on a mobile by simply moving it closer to a contactless tag. The use of contactless technologies helps the user to carry out their daily tasks, and it also provides a new method of mobile communication that is both quick and secure. The results obtained with the defined and implemented prototype are presented in this chapter.
One of the main aims of the pervasive systems is to be able to adapt themselves in execution time to the changes in the number of resources available, the mobility of the users, variability in the needs of the users and failures of the system. This work presents HoCa, a multi-agent based architecture designed to facilitate the development of pervasive systems. HoCa presents a new model where multi-agent systems and service oriented architectures are integrated to facilitate compatible services. HoCa has been applied to case study in a real scenario, aimed to provide automatic assistance to dependent people at their home, and the results obtained are presented in this paper.
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