http://repositorio.unb.br/handle/10482/31637
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2017_ArthurJoséRodriguesFarias.pdf | 1,6 MB | Adobe PDF | View/Open |
Title: | Integrating data mining into contextual goal modeling to tackle context uncertaintiesat design time |
Authors: | Farias, Arthur José Rodrigues |
Orientador(es):: | Rodrigues, Genaína Nunes |
Assunto:: | Sistemas de autoadaptação Incerteza Confiabilidade Mineração de dados |
Issue Date: | 11-Apr-2018 |
Data de defesa:: | 24-Nov-2017 |
Citation: | FARIAS, Arthur José Rodrigues. Integrating data mining into contextual goal modeling to tackle context uncertaintiesat design time. 2017. viii, 52 f., il. Dissertação (Mestrado em Informática)—Universidade de Brasília, Brasília, 2017. |
Abstract: | Understanding and predicting all context conditions the self-adaptive systems will be exposed to during its life time and implementing a ppropriate adaptation techniques is avery challenging mission. If thesys tem cannot recognize and adapt to unexpected contexts, this can be the cause of failures in self-adaptive systems, with possible implications of not being able to fulfill user requirements or even resulting in undesired behaviors. Especially for dependability attributes, this would have fatal implications. The earlier the broad range of high level context conditions can be specified, the better adaptation strategies can be implemented and validated into the self adaptive systems. The objective of this work is to provide (automated) support to unveil context sets at early stages of the software development life cycle and verify how the contexts impact the system’s dependability attributes. This task will increase the amount of potential issues identified that might thre atenthedependability of self-adaptivesystems. This work provide san approach for the automated detection and analysis of context conditions and their correlations at design time. Our approach employs a data mining process to suitably elicit context sets and is relying on the constructs of a contextual goal model (CGM) for the mapping of contexts to the system’s behavior from a design perspective. We experimentally evaluated our proposal on a Body Sensor Network system(BSN), by simulating amyriadofresourcesthatcouldleadtoa variability space of 4096 possible context conditions. Our results show that our approach is able to elicit contexts that would significantly affect a high percentage of BSN assisted patients with high health risk profile inful filling their goals with in the required reliability level. Additionally, we explored the scalability of the mining process in the BSN context, showing it is able to perform under a minute even for simulated data at the size of over five orders of magnitude. This research supports the development of self-adaptive systems by anticipating at design time contexts that might restrain the achievability of system goals by means of a sound and efficient data mining process. |
metadata.dc.description.unidade: | Instituto de Ciências Exatas (IE) Departamento de Ciência da Computação (IE CIC) |
Description: | Dissertação (mestrado)—Universidade de Brasília, Instituto de Ciências Exatas, Departamento de Ciência da Computação, 2017. |
metadata.dc.description.ppg: | Programa de Pós-Graduação em Informática |
Licença:: | A concessão da licença deste item refere-se ao termo de autorização impresso assinado pelo autor com as seguintes condições: Na qualidade de titular dos direitos de autor da publicação, autorizo a Universidade de Brasília e o IBICT a disponibilizar por meio dos sites www.bce.unb.br, www.ibict.br, http://hercules.vtls.com/cgi-bin/ndltd/chameleon?lng=pt&skin=ndltd sem ressarcimento dos direitos autorais, de acordo com a Lei nº 9610/98, o texto integral da obra disponibilizada, conforme permissões assinaladas, para fins de leitura, impressão e/ou download, a título de divulgação da produção científica brasileira, a partir desta data. |
Appears in Collections: | Teses, dissertações e produtos pós-doutorado |
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