casa 16(9): e4

Research Article

Design and optimization of the Automatic Brown PlantHopper (BPH) light trap surveillance network

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  • @ARTICLE{10.4108/eai.2-5-2016.151211,
        author={Huong Hoang Luong and Thanh Hai Nguyen and Hung Huu Huynh and Hiep Xuan Huynh},
        title={Design and optimization of the Automatic Brown PlantHopper (BPH) light trap surveillance network},
        journal={EAI Endorsed Transactions on Context-aware Systems and Applications},
        volume={3},
        number={9},
        publisher={EAI},
        journal_a={CASA},
        year={2016},
        month={5},
        keywords={light trap, BPH, surveillance network, optimization, optimal- design, hexagonal cellular automata.},
        doi={10.4108/eai.2-5-2016.151211}
    }
    
  • Huong Hoang Luong
    Thanh Hai Nguyen
    Hung Huu Huynh
    Hiep Xuan Huynh
    Year: 2016
    Design and optimization of the Automatic Brown PlantHopper (BPH) light trap surveillance network
    CASA
    EAI
    DOI: 10.4108/eai.2-5-2016.151211
Huong Hoang Luong1,*, Thanh Hai Nguyen2, Hung Huu Huynh3, Hiep Xuan Huynh4
  • 1: CUSC-CTU, Cantho, Vietnam
  • 2: Ministry of Education and Training, Vietnam
  • 3: The University of Danang, Vietnam
  • 4: DREAM-CTU/IRD, CICT-CTU, Cantho, Vietnam
*Contact email: lhhuong@ctu.edu.vn

Abstract

Communicating coverage of automatic BPH light trap surveillance network characterizes how well an area is monitored or tracked by automatic light traps. Connectivity is an important required that shows how nodes in a automatic BPH light trap surveillance network (BSNET) can effectively communicate. Some areas in the deployment region are more important than other areas and need to be covered. In this paper, we propose a new approach based hexagonal cellular automata to find the automatic light trap node distribution. This approach are ensure the deployment region that maximizes the coverage area of BSNET, and preserve connectivity between nodes provided.