Islame F. C. Fernandes scite author profile

Artigo submetido em setembro/2011 e aceito em fevereiro/2012 RESUMO O advento das tecnologias de informação, a expansão da Web e as modernas necessidades de mobilidade e compartilhamento de dados tiveram como resultado o investimento em sistemas adequados a dispositivos móveis, como o aparelho celular. Entretanto, utilização dessas tecnologias para otimização de processos pertinentes à área agrícola é pouco utilizada, e o desenvolvimento do projeto SisCI baseia-se nessa necessidade. Esse projeto trata-se do desenvolvimento de um sistema de tempo real para o controle e monitoramento remoto de irrigações através de celulares com acesso a Internet. Tem por objetivo introduzir novas tecnologias às irrigações da região do Vale do Açu, provendo redução de custos para os proprietários agrícolas. Atualmente, o projeto está sendo implementado em uma fazenda escola da rede federal de ensino técnico e superior, localizada no município de Ipanguaçu no estado do Rio Grande do Norte. Por fim, o projeto tem como principais resultados: (i) o sistema SisCI com documentação e código executável seguindo a arquitetura padrão W3C para serviços Web; (ii) três trabalhos de conclusão de curso técnico; (ii) três artigos e três banners para SEATEC e CONNEPI; e, (iv) cursos para a comunidade de Ipanguaçu. PALAVRAS-CHAVE: SISCI -IRRIGATION CONTROL SYSTEM THROUGH MOBILE DEVICES ABSTRACTThe advent of information technologies, the growth of Web and the new conceptions of mobility and sharing data resulted in investment in systems for mobile devices, as mobile phone. However, these relevant technologies are few used to optimization processes in the agricultural area, and the development of this work is based on this need. The SisCI project consists of a real time system for control and remote monitoring of irrigation systems through mobile phones on the Web. This work introduces new irrigation technologies in the Vale do Açu region, providing cost savings to the agricultural owners. Currently, the project is being applied at a School Farm of the Federal Institute of Technical and Higher Education, located in city of Ipanguaçu in the state of Rio Grande do Norte. The main results of this work are: (i) the SisCI system with your documentation and your implementation that follow the W3C standard architecture for Web Services; (ii) three conclusion work of computer technician course; (iii) three papers and three banners for SEATEC and CONNEPI; and, (iv) courses for the community Ipanguaçu.

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Heuristic Hybridization for CaRSP, a multilevel decision problem

Machado

Goldbarg

et al. 2021

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Multi-Strategy MAX-MIN Ant System for Solving Quota Traveling Salesman Problem with Passengers, Incomplete Ride and Collection Time

Silva¹,

Fernandes²,

Goldbarg³

et al. 2021

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This study proposes a novel adaptation of MAX-MIN Ant System algorithm for the Quota Traveling Salesman Problem with Passengers, Incomplete Ride, and Collection Time. There are different types of decisions to solve this problem: satisfaction of the minimum quota, acceptance of ride requests, and minimization of travel costs under the viewpoint of the salesman. The Algorithmic components proposed regards vehicle capacity, travel time, passenger limitations, and a penalty for delivering a passenger deliverance out of the required destination. The antbased algorithm incorporates different sources of heuristic information for the ants and memory-based principles. Computational results are reported, showing the effectiveness of this ant-based algorithm.

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