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Human-Based Models for Ambient Intelligence Environments

Human-Based Models for Ambient Intelligence Environments

Giovanni Acampora, Vincenzo Loia, Michele Nappi, Stefano Ricciardi
ISBN13: 9781599042497|ISBN10: 1599042495|EISBN13: 9781599042510
DOI: 10.4018/978-1-59904-249-7.ch001
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MLA

Acampora, Giovanni, et al. "Human-Based Models for Ambient Intelligence Environments." Artificial Intelligence and Integrated Intelligent Information Systems: Emerging Technologies and Applications, edited by Xuan Zha, IGI Global, 2007, pp. 1-17. https://doi.org/10.4018/978-1-59904-249-7.ch001

APA

Acampora, G., Loia, V., Nappi, M., & Ricciardi, S. (2007). Human-Based Models for Ambient Intelligence Environments. In X. Zha (Ed.), Artificial Intelligence and Integrated Intelligent Information Systems: Emerging Technologies and Applications (pp. 1-17). IGI Global. https://doi.org/10.4018/978-1-59904-249-7.ch001

Chicago

Acampora, Giovanni, et al. "Human-Based Models for Ambient Intelligence Environments." In Artificial Intelligence and Integrated Intelligent Information Systems: Emerging Technologies and Applications, edited by Xuan Zha, 1-17. Hershey, PA: IGI Global, 2007. https://doi.org/10.4018/978-1-59904-249-7.ch001

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Abstract

Ambient Intelligence gathers best results from three key technologies, Ubiquitous Computing, Ubiquitous Communication, and Intelligent User Friendly Interfaces. The functional and spatial distribution of tasks is a natural thrust to employ multiagent paradigm to design and implement AmI environments. Two critical issues, common in most of applications, are (1) how to detect in a general and efficient way context from sensors and (2) how to process contextual information in order to improve the functionality of services. Here we describe an agent-based ambient intelligence architecture able to deliver services on the basis of physical and emotional user status captured from a set of biometric features. Abstract representation and management is achieved thanks to two markup languages, H2ML and FML, able to model behavioral as well as fuzzy control activities and to exploit distribution and concurrent computation in order to gain real-time performances.

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